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A Beginner's Guide to Starting the Research Process
When you have to write a thesis or dissertation , it can be hard to know where to begin, but there are some clear steps you can follow.
The research process often begins with a very broad idea for a topic you’d like to know more about. You do some preliminary research to identify a problem . After refining your research questions , you can lay out the foundations of your research design , leading to a proposal that outlines your ideas and plans.
This article takes you through the first steps of the research process, helping you narrow down your ideas and build up a strong foundation for your research project.
Table of contents
Step 1: choose your topic, step 2: identify a problem, step 3: formulate research questions, step 4: create a research design, step 5: write a research proposal, other interesting articles.
First you have to come up with some ideas. Your thesis or dissertation topic can start out very broad. Think about the general area or field you’re interested in—maybe you already have specific research interests based on classes you’ve taken, or maybe you had to consider your topic when applying to graduate school and writing a statement of purpose .
Even if you already have a good sense of your topic, you’ll need to read widely to build background knowledge and begin narrowing down your ideas. Conduct an initial literature review to begin gathering relevant sources. As you read, take notes and try to identify problems, questions, debates, contradictions and gaps. Your aim is to narrow down from a broad area of interest to a specific niche.
Make sure to consider the practicalities: the requirements of your programme, the amount of time you have to complete the research, and how difficult it will be to access sources and data on the topic. Before moving onto the next stage, it’s a good idea to discuss the topic with your thesis supervisor.
>>Read more about narrowing down a research topic
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So you’ve settled on a topic and found a niche—but what exactly will your research investigate, and why does it matter? To give your project focus and purpose, you have to define a research problem .
The problem might be a practical issue—for example, a process or practice that isn’t working well, an area of concern in an organization’s performance, or a difficulty faced by a specific group of people in society.
Alternatively, you might choose to investigate a theoretical problem—for example, an underexplored phenomenon or relationship, a contradiction between different models or theories, or an unresolved debate among scholars.
To put the problem in context and set your objectives, you can write a problem statement . This describes who the problem affects, why research is needed, and how your research project will contribute to solving it.
>>Read more about defining a research problem
Next, based on the problem statement, you need to write one or more research questions . These target exactly what you want to find out. They might focus on describing, comparing, evaluating, or explaining the research problem.
A strong research question should be specific enough that you can answer it thoroughly using appropriate qualitative or quantitative research methods. It should also be complex enough to require in-depth investigation, analysis, and argument. Questions that can be answered with “yes/no” or with easily available facts are not complex enough for a thesis or dissertation.
In some types of research, at this stage you might also have to develop a conceptual framework and testable hypotheses .
>>See research question examples
The research design is a practical framework for answering your research questions. It involves making decisions about the type of data you need, the methods you’ll use to collect and analyze it, and the location and timescale of your research.
There are often many possible paths you can take to answering your questions. The decisions you make will partly be based on your priorities. For example, do you want to determine causes and effects, draw generalizable conclusions, or understand the details of a specific context?
You need to decide whether you will use primary or secondary data and qualitative or quantitative methods . You also need to determine the specific tools, procedures, and materials you’ll use to collect and analyze your data, as well as your criteria for selecting participants or sources.
>>Read more about creating a research design
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Finally, after completing these steps, you are ready to complete a research proposal . The proposal outlines the context, relevance, purpose, and plan of your research.
As well as outlining the background, problem statement, and research questions, the proposal should also include a literature review that shows how your project will fit into existing work on the topic. The research design section describes your approach and explains exactly what you will do.
You might have to get the proposal approved by your supervisor before you get started, and it will guide the process of writing your thesis or dissertation.
>>Read more about writing a research proposal
If you want to know more about the research process , methodology , research bias , or statistics , make sure to check out some of our other articles with explanations and examples.
Methodology
- Sampling methods
- Simple random sampling
- Stratified sampling
- Cluster sampling
- Likert scales
- Reproducibility
Statistics
- Null hypothesis
- Statistical power
- Probability distribution
- Effect size
- Poisson distribution
Research bias
- Optimism bias
- Cognitive bias
- Implicit bias
- Hawthorne effect
- Anchoring bias
- Explicit bias
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Research Process Steps: What they are + How To Follow
There are various approaches to conducting basic and applied research. This article explains the research process steps you should know. Whether you are doing basic research or applied research, there are many ways of doing it. In some ways, each research study is unique since it is conducted at a different time and place.
Conducting research might be difficult, but there are clear processes to follow. The research process starts with a broad idea for a topic. This article will assist you through the research process steps, helping you focus and develop your topic.
Research Process Steps
The research process consists of a series of systematic procedures that a researcher must go through in order to generate knowledge that will be considered valuable by the project and focus on the relevant topic.
To conduct effective research, you must understand the research process steps and follow them. Here are a few steps in the research process to make it easier for you:
Step 1: Identify the Problem
Finding an issue or formulating a research question is the first step. A well-defined research problem will guide the researcher through all stages of the research process, from setting objectives to choosing a technique. There are a number of approaches to get insight into a topic and gain a better understanding of it. Such as:
- A preliminary survey
- Case studies
- Interviews with a small group of people
- Observational survey
Step 2: Evaluate the Literature
A thorough examination of the relevant studies is essential to the research process . It enables the researcher to identify the precise aspects of the problem. Once a problem has been found, the investigator or researcher needs to find out more about it.
This stage gives problem-zone background. It teaches the investigator about previous research, how they were conducted, and its conclusions. The researcher can build consistency between his work and others through a literature review. Such a review exposes the researcher to a more significant body of knowledge and helps him follow the research process efficiently.
Step 3: Create Hypotheses
Formulating an original hypothesis is the next logical step after narrowing down the research topic and defining it. A belief solves logical relationships between variables. In order to establish a hypothesis, a researcher must have a certain amount of expertise in the field.
It is important for researchers to keep in mind while formulating a hypothesis that it must be based on the research topic. Researchers are able to concentrate their efforts and stay committed to their objectives when they develop theories to guide their work.
Step 4: The Research Design
Research design is the plan for achieving objectives and answering research questions. It outlines how to get the relevant information. Its goal is to design research to test hypotheses, address the research questions, and provide decision-making insights.
The research design aims to minimize the time, money, and effort required to acquire meaningful evidence. This plan fits into four categories:
- Exploration and Surveys
- Data Analysis
- Observation
Step 5: Describe Population
Research projects usually look at a specific group of people, facilities, or how technology is used in the business. In research, the term population refers to this study group. The research topic and purpose help determine the study group.
Suppose a researcher wishes to investigate a certain group of people in the community. In that case, the research could target a specific age group, males or females, a geographic location, or an ethnic group. A final step in a study’s design is to specify its sample or population so that the results may be generalized.
Step 6: Data Collection
Data collection is important in obtaining the knowledge or information required to answer the research issue. Every research collected data, either from the literature or the people being studied. Data must be collected from the two categories of researchers. These sources may provide primary data.
- Questionnaire
Secondary data categories are:
- Literature survey
- Official, unofficial reports
- An approach based on library resources
Step 7: Data Analysis
During research design, the researcher plans data analysis. After collecting data, the researcher analyzes it. The data is examined based on the approach in this step. The research findings are reviewed and reported.
Data analysis involves a number of closely related stages, such as setting up categories, applying these categories to raw data through coding and tabulation, and then drawing statistical conclusions. The researcher can examine the acquired data using a variety of statistical methods.
Step 8: The Report-writing
After completing these steps, the researcher must prepare a report detailing his findings. The report must be carefully composed with the following in mind:
- The Layout: On the first page, the title, date, acknowledgments, and preface should be on the report. A table of contents should be followed by a list of tables, graphs, and charts if any.
- Introduction: It should state the research’s purpose and methods. This section should include the study’s scope and limits.
- Summary of Findings: A non-technical summary of findings and recommendations will follow the introduction. The findings should be summarized if they’re lengthy.
- Principal Report: The main body of the report should make sense and be broken up into sections that are easy to understand.
- Conclusion: The researcher should restate his findings at the end of the main text. It’s the final result.
LEARN ABOUT: 12 Best Tools for Researchers
The research process involves several steps that make it easy to complete the research successfully. The steps in the research process described above depend on each other, and the order must be kept. So, if we want to do a research project, we should follow the research process steps.
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3 The research process
In Chapter 1, we saw that scientific research is the process of acquiring scientific knowledge using the scientific method. But how is such research conducted? This chapter delves into the process of scientific research, and the assumptions and outcomes of the research process.
Paradigms of social research
Our design and conduct of research is shaped by our mental models, or frames of reference that we use to organise our reasoning and observations. These mental models or frames (belief systems) are called paradigms . The word ‘paradigm’ was popularised by Thomas Kuhn (1962) [1] in his book The structure of scientific r evolutions , where he examined the history of the natural sciences to identify patterns of activities that shape the progress of science. Similar ideas are applicable to social sciences as well, where a social reality can be viewed by different people in different ways, which may constrain their thinking and reasoning about the observed phenomenon. For instance, conservatives and liberals tend to have very different perceptions of the role of government in people’s lives, and hence, have different opinions on how to solve social problems. Conservatives may believe that lowering taxes is the best way to stimulate a stagnant economy because it increases people’s disposable income and spending, which in turn expands business output and employment. In contrast, liberals may believe that governments should invest more directly in job creation programs such as public works and infrastructure projects, which will increase employment and people’s ability to consume and drive the economy. Likewise, Western societies place greater emphasis on individual rights, such as one’s right to privacy, right of free speech, and right to bear arms. In contrast, Asian societies tend to balance the rights of individuals against the rights of families, organisations, and the government, and therefore tend to be more communal and less individualistic in their policies. Such differences in perspective often lead Westerners to criticise Asian governments for being autocratic, while Asians criticise Western societies for being greedy, having high crime rates, and creating a ‘cult of the individual’. Our personal paradigms are like ‘coloured glasses’ that govern how we view the world and how we structure our thoughts about what we see in the world.
Paradigms are often hard to recognise, because they are implicit, assumed, and taken for granted. However, recognising these paradigms is key to making sense of and reconciling differences in people’s perceptions of the same social phenomenon. For instance, why do liberals believe that the best way to improve secondary education is to hire more teachers, while conservatives believe that privatising education (using such means as school vouchers) is more effective in achieving the same goal? Conservatives place more faith in competitive markets (i.e., in free competition between schools competing for education dollars), while liberals believe more in labour (i.e., in having more teachers and schools). Likewise, in social science research, to understand why a certain technology was successfully implemented in one organisation, but failed miserably in another, a researcher looking at the world through a ‘rational lens’ will look for rational explanations of the problem, such as inadequate technology or poor fit between technology and the task context where it is being utilised. Another researcher looking at the same problem through a ‘social lens’ may seek out social deficiencies such as inadequate user training or lack of management support. Those seeing it through a ‘political lens’ will look for instances of organisational politics that may subvert the technology implementation process. Hence, subconscious paradigms often constrain the concepts that researchers attempt to measure, their observations, and their subsequent interpretations of a phenomenon. However, given the complex nature of social phenomena, it is possible that all of the above paradigms are partially correct, and that a fuller understanding of the problem may require an understanding and application of multiple paradigms.
Two popular paradigms today among social science researchers are positivism and post-positivism. Positivism , based on the works of French philosopher Auguste Comte (1798–1857), was the dominant scientific paradigm until the mid-twentieth century. It holds that science or knowledge creation should be restricted to what can be observed and measured. Positivism tends to rely exclusively on theories that can be directly tested. Though positivism was originally an attempt to separate scientific inquiry from religion (where the precepts could not be objectively observed), positivism led to empiricism or a blind faith in observed data and a rejection of any attempt to extend or reason beyond observable facts. Since human thoughts and emotions could not be directly measured, they were not considered to be legitimate topics for scientific research. Frustrations with the strictly empirical nature of positivist philosophy led to the development of post-positivism (or postmodernism) during the mid-late twentieth century. Post-positivism argues that one can make reasonable inferences about a phenomenon by combining empirical observations with logical reasoning. Post-positivists view science as not certain but probabilistic (i.e., based on many contingencies), and often seek to explore these contingencies to understand social reality better. The post-positivist camp has further fragmented into subjectivists , who view the world as a subjective construction of our subjective minds rather than as an objective reality, and critical realists , who believe that there is an external reality that is independent of a person’s thinking but we can never know such reality with any degree of certainty.
Burrell and Morgan (1979), [2] in their seminal book Sociological p aradigms and organizational a nalysis , suggested that the way social science researchers view and study social phenomena is shaped by two fundamental sets of philosophical assumptions: ontology and epistemology. Ontology refers to our assumptions about how we see the world (e.g., does the world consist mostly of social order or constant change?). Epistemology refers to our assumptions about the best way to study the world (e.g., should we use an objective or subjective approach to study social reality?). Using these two sets of assumptions, we can categorise social science research as belonging to one of four categories (see Figure 3.1).
If researchers view the world as consisting mostly of social order (ontology) and hence seek to study patterns of ordered events or behaviours, and believe that the best way to study such a world is using an objective approach (epistemology) that is independent of the person conducting the observation or interpretation, such as by using standardised data collection tools like surveys, then they are adopting a paradigm of functionalism . However, if they believe that the best way to study social order is though the subjective interpretation of participants, such as by interviewing different participants and reconciling differences among their responses using their own subjective perspectives, then they are employing an interpretivism paradigm. If researchers believe that the world consists of radical change and seek to understand or enact change using an objectivist approach, then they are employing a radical structuralism paradigm. If they wish to understand social change using the subjective perspectives of the participants involved, then they are following a radical humanism paradigm.
To date, the majority of social science research has emulated the natural sciences, and followed the functionalist paradigm. Functionalists believe that social order or patterns can be understood in terms of their functional components, and therefore attempt to break down a problem into small components and studying one or more components in detail using objectivist techniques such as surveys and experimental research. However, with the emergence of post-positivist thinking, a small but growing number of social science researchers are attempting to understand social order using subjectivist techniques such as interviews and ethnographic studies. Radical humanism and radical structuralism continues to represent a negligible proportion of social science research, because scientists are primarily concerned with understanding generalisable patterns of behaviour, events, or phenomena, rather than idiosyncratic or changing events. Nevertheless, if you wish to study social change, such as why democratic movements are increasingly emerging in Middle Eastern countries, or why this movement was successful in Tunisia, took a longer path to success in Libya, and is still not successful in Syria, then perhaps radical humanism is the right approach for such a study. Social and organisational phenomena generally consist of elements of both order and change. For instance, organisational success depends on formalised business processes, work procedures, and job responsibilities, while being simultaneously constrained by a constantly changing mix of competitors, competing products, suppliers, and customer base in the business environment. Hence, a holistic and more complete understanding of social phenomena such as why some organisations are more successful than others, requires an appreciation and application of a multi-paradigmatic approach to research.
Overview of the research process
So how do our mental paradigms shape social science research? At its core, all scientific research is an iterative process of observation, rationalisation, and validation. In the observation phase, we observe a natural or social phenomenon, event, or behaviour that interests us. In the rationalisation phase, we try to make sense of the observed phenomenon, event, or behaviour by logically connecting the different pieces of the puzzle that we observe, which in some cases, may lead to the construction of a theory. Finally, in the validation phase, we test our theories using a scientific method through a process of data collection and analysis, and in doing so, possibly modify or extend our initial theory. However, research designs vary based on whether the researcher starts at observation and attempts to rationalise the observations (inductive research), or whether the researcher starts at an ex ante rationalisation or a theory and attempts to validate the theory (deductive research). Hence, the observation-rationalisation-validation cycle is very similar to the induction-deduction cycle of research discussed in Chapter 1.
Most traditional research tends to be deductive and functionalistic in nature. Figure 3.2 provides a schematic view of such a research project. This figure depicts a series of activities to be performed in functionalist research, categorised into three phases: exploration, research design, and research execution. Note that this generalised design is not a roadmap or flowchart for all research. It applies only to functionalistic research, and it can and should be modified to fit the needs of a specific project.
The first phase of research is exploration . This phase includes exploring and selecting research questions for further investigation, examining the published literature in the area of inquiry to understand the current state of knowledge in that area, and identifying theories that may help answer the research questions of interest.
The first step in the exploration phase is identifying one or more research questions dealing with a specific behaviour, event, or phenomena of interest. Research questions are specific questions about a behaviour, event, or phenomena of interest that you wish to seek answers for in your research. Examples include determining which factors motivate consumers to purchase goods and services online without knowing the vendors of these goods or services, how can we make high school students more creative, and why some people commit terrorist acts. Research questions can delve into issues of what, why, how, when, and so forth. More interesting research questions are those that appeal to a broader population (e.g., ‘how can firms innovate?’ is a more interesting research question than ‘how can Chinese firms innovate in the service-sector?’), address real and complex problems (in contrast to hypothetical or ‘toy’ problems), and where the answers are not obvious. Narrowly focused research questions (often with a binary yes/no answer) tend to be less useful and less interesting and less suited to capturing the subtle nuances of social phenomena. Uninteresting research questions generally lead to uninteresting and unpublishable research findings.
The next step is to conduct a literature review of the domain of interest. The purpose of a literature review is three-fold: one, to survey the current state of knowledge in the area of inquiry, two, to identify key authors, articles, theories, and findings in that area, and three, to identify gaps in knowledge in that research area. Literature review is commonly done today using computerised keyword searches in online databases. Keywords can be combined using Boolean operators such as ‘and’ and ‘or’ to narrow down or expand the search results. Once a shortlist of relevant articles is generated from the keyword search, the researcher must then manually browse through each article, or at least its abstract, to determine the suitability of that article for a detailed review. Literature reviews should be reasonably complete, and not restricted to a few journals, a few years, or a specific methodology. Reviewed articles may be summarised in the form of tables, and can be further structured using organising frameworks such as a concept matrix. A well-conducted literature review should indicate whether the initial research questions have already been addressed in the literature (which would obviate the need to study them again), whether there are newer or more interesting research questions available, and whether the original research questions should be modified or changed in light of the findings of the literature review. The review can also provide some intuitions or potential answers to the questions of interest and/or help identify theories that have previously been used to address similar questions.
Since functionalist (deductive) research involves theory-testing, the third step is to identify one or more theories can help address the desired research questions. While the literature review may uncover a wide range of concepts or constructs potentially related to the phenomenon of interest, a theory will help identify which of these constructs is logically relevant to the target phenomenon and how. Forgoing theories may result in measuring a wide range of less relevant, marginally relevant, or irrelevant constructs, while also minimising the chances of obtaining results that are meaningful and not by pure chance. In functionalist research, theories can be used as the logical basis for postulating hypotheses for empirical testing. Obviously, not all theories are well-suited for studying all social phenomena. Theories must be carefully selected based on their fit with the target problem and the extent to which their assumptions are consistent with that of the target problem. We will examine theories and the process of theorising in detail in the next chapter.
The next phase in the research process is research design . This process is concerned with creating a blueprint of the actions to take in order to satisfactorily answer the research questions identified in the exploration phase. This includes selecting a research method, operationalising constructs of interest, and devising an appropriate sampling strategy.
Operationalisation is the process of designing precise measures for abstract theoretical constructs. This is a major problem in social science research, given that many of the constructs, such as prejudice, alienation, and liberalism are hard to define, let alone measure accurately. Operationalisation starts with specifying an ‘operational definition’ (or ‘conceptualization’) of the constructs of interest. Next, the researcher can search the literature to see if there are existing pre-validated measures matching their operational definition that can be used directly or modified to measure their constructs of interest. If such measures are not available or if existing measures are poor or reflect a different conceptualisation than that intended by the researcher, new instruments may have to be designed for measuring those constructs. This means specifying exactly how exactly the desired construct will be measured (e.g., how many items, what items, and so forth). This can easily be a long and laborious process, with multiple rounds of pre-tests and modifications before the newly designed instrument can be accepted as ‘scientifically valid’. We will discuss operationalisation of constructs in a future chapter on measurement.
Simultaneously with operationalisation, the researcher must also decide what research method they wish to employ for collecting data to address their research questions of interest. Such methods may include quantitative methods such as experiments or survey research or qualitative methods such as case research or action research, or possibly a combination of both. If an experiment is desired, then what is the experimental design? If this is a survey, do you plan a mail survey, telephone survey, web survey, or a combination? For complex, uncertain, and multifaceted social phenomena, multi-method approaches may be more suitable, which may help leverage the unique strengths of each research method and generate insights that may not be obtained using a single method.
Researchers must also carefully choose the target population from which they wish to collect data, and a sampling strategy to select a sample from that population. For instance, should they survey individuals or firms or workgroups within firms? What types of individuals or firms do they wish to target? Sampling strategy is closely related to the unit of analysis in a research problem. While selecting a sample, reasonable care should be taken to avoid a biased sample (e.g., sample based on convenience) that may generate biased observations. Sampling is covered in depth in a later chapter.
At this stage, it is often a good idea to write a research proposal detailing all of the decisions made in the preceding stages of the research process and the rationale behind each decision. This multi-part proposal should address what research questions you wish to study and why, the prior state of knowledge in this area, theories you wish to employ along with hypotheses to be tested, how you intend to measure constructs, what research method is to be employed and why, and desired sampling strategy. Funding agencies typically require such a proposal in order to select the best proposals for funding. Even if funding is not sought for a research project, a proposal may serve as a useful vehicle for seeking feedback from other researchers and identifying potential problems with the research project (e.g., whether some important constructs were missing from the study) before starting data collection. This initial feedback is invaluable because it is often too late to correct critical problems after data is collected in a research study.
Having decided who to study (subjects), what to measure (concepts), and how to collect data (research method), the researcher is now ready to proceed to the research execution phase. This includes pilot testing the measurement instruments, data collection, and data analysis.
Pilot testing is an often overlooked but extremely important part of the research process. It helps detect potential problems in your research design and/or instrumentation (e.g., whether the questions asked are intelligible to the targeted sample), and to ensure that the measurement instruments used in the study are reliable and valid measures of the constructs of interest. The pilot sample is usually a small subset of the target population. After successful pilot testing, the researcher may then proceed with data collection using the sampled population. The data collected may be quantitative or qualitative, depending on the research method employed.
Following data collection, the data is analysed and interpreted for the purpose of drawing conclusions regarding the research questions of interest. Depending on the type of data collected (quantitative or qualitative), data analysis may be quantitative (e.g., employ statistical techniques such as regression or structural equation modelling) or qualitative (e.g., coding or content analysis).
The final phase of research involves preparing the final research report documenting the entire research process and its findings in the form of a research paper, dissertation, or monograph. This report should outline in detail all the choices made during the research process (e.g., theory used, constructs selected, measures used, research methods, sampling, etc.) and why, as well as the outcomes of each phase of the research process. The research process must be described in sufficient detail so as to allow other researchers to replicate your study, test the findings, or assess whether the inferences derived are scientifically acceptable. Of course, having a ready research proposal will greatly simplify and quicken the process of writing the finished report. Note that research is of no value unless the research process and outcomes are documented for future generations—such documentation is essential for the incremental progress of science.
Common mistakes in research
The research process is fraught with problems and pitfalls, and novice researchers often find, after investing substantial amounts of time and effort into a research project, that their research questions were not sufficiently answered, or that the findings were not interesting enough, or that the research was not of ‘acceptable’ scientific quality. Such problems typically result in research papers being rejected by journals. Some of the more frequent mistakes are described below.
Insufficiently motivated research questions. Often times, we choose our ‘pet’ problems that are interesting to us but not to the scientific community at large, i.e., it does not generate new knowledge or insight about the phenomenon being investigated. Because the research process involves a significant investment of time and effort on the researcher’s part, the researcher must be certain—and be able to convince others—that the research questions they seek to answer deal with real—and not hypothetical—problems that affect a substantial portion of a population and have not been adequately addressed in prior research.
Pursuing research fads. Another common mistake is pursuing ‘popular’ topics with limited shelf life. A typical example is studying technologies or practices that are popular today. Because research takes several years to complete and publish, it is possible that popular interest in these fads may die down by the time the research is completed and submitted for publication. A better strategy may be to study ‘timeless’ topics that have always persisted through the years.
Unresearchable problems. Some research problems may not be answered adequately based on observed evidence alone, or using currently accepted methods and procedures. Such problems are best avoided. However, some unresearchable, ambiguously defined problems may be modified or fine tuned into well-defined and useful researchable problems.
Favoured research methods. Many researchers have a tendency to recast a research problem so that it is amenable to their favourite research method (e.g., survey research). This is an unfortunate trend. Research methods should be chosen to best fit a research problem, and not the other way around.
Blind data mining. Some researchers have the tendency to collect data first (using instruments that are already available), and then figure out what to do with it. Note that data collection is only one step in a long and elaborate process of planning, designing, and executing research. In fact, a series of other activities are needed in a research process prior to data collection. If researchers jump into data collection without such elaborate planning, the data collected will likely be irrelevant, imperfect, or useless, and their data collection efforts may be entirely wasted. An abundance of data cannot make up for deficits in research planning and design, and particularly, for the lack of interesting research questions.
- Kuhn, T. (1962). The structure of scientific revolutions . Chicago: University of Chicago Press. ↵
- Burrell, G. & Morgan, G. (1979). Sociological paradigms and organisational analysis: elements of the sociology of corporate life . London: Heinemann Educational. ↵
Social Science Research: Principles, Methods and Practices (Revised edition) Copyright © 2019 by Anol Bhattacherjee is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License , except where otherwise noted.
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The Research Process | Steps, How to Start & Tips
Introduction
Basic steps in the research process, conducting a literature review, designing the research project, collecting and analyzing data.
- Interpretation, conclusion and presentation of findings
Key principles for conducting research
The research process is a systematic method used to gather information and answer specific questions. The process ensures the findings are credible, high-quality, and applicable to a broader context. It can vary slightly between disciplines but typically follows a structured pathway from initial inquiry to final presentation of results.
What is the research process?
At its core, the research process involves several fundamental activities: identifying a topic that needs further investigation, reviewing existing knowledge on the subject, forming a precise research question , and designing a method to investigate it. This is followed by collecting and analyzing data , interpreting the results, and reporting the findings. Each step is crucial and builds upon the previous one, requiring meticulous attention to detail and rigorous methodology.
The research process is important because it provides a scientific basis for decision-making. Whether in academic, scientific, or commercial fields, research helps us understand complex issues, develop new tools or products, and improve existing practices. By adhering to a structured research process , researchers can produce results that are not only insightful but also transparent so that others can understand how the findings were developed and build on them in future studies. The integrity of the research process is essential for advancing knowledge and making informed decisions that can have significant social, economic, and scientific impacts.
The research process fosters critical thinking and problem-solving skills. It demands a clear articulation of a problem, thorough investigation, and thoughtful interpretation of data, all of which are valuable skills in any professional field. By following this process, researchers are better equipped to tackle complex questions and contribute meaningful solutions to real-world problems.
From finding the key theoretical concepts to presenting the research findings in a report, every step in the research process forms a cohesive pathway that supports researchers in systematically uncovering deep insights and generating meaningful knowledge, which is crucial for the success of any qualitative investigation.
Identifying key theoretical concepts
The first step in the research process involves finding the key theoretical concepts or words that specify the research topic and are always included in the title of the investigation. Without a definition, these words have no sense or meaning (Daft, 1995). To identify these concepts, a researcher must ask which theoretical keywords are implicit in the investigation. To answer this question a researcher should identify the logical relationships among the two words that catch the focus of the investigation. It is also crucial that researchers provide clear definitions for their theoretical keywords. The title of the research can then include these theoretical keywords and signal how they are being studied.
A piece of useful advice is to draw a conceptual map to visualize the direct or indirect relationships between the key theoretical words and choose a relationship between them as the focus of the investigation.
Developing a research question
One of the most important steps in the research endeavor is identifying a research question. Research questions answer aspects of the topic that need more knowledge or shed light on information that has to be prioritized before others. It is the first step in identifying which participants or type of data collection methods. Research questions put into practice the conceptual framework and make the initial theoretical concepts more explicit.
A research question carries a different implicit meaning depending on how it is framed. Questions starting with what, who, and where usually identify a phenomenon or elements of one, while how, why, when and how much describe, explain, predict or control a phenomenon.
Overall, research questions must be clear, focused and complex. They must also generate knowledge relevant to society and the answers must pose a comprehensive understanding that contributes to the scientific community.
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A literature review is the synthesis of the existing body of research relevant to a research topic . It allows researchers to identify the current state of the art of knowledge of a particular topic. When conducting research, it is the foundation and guides the researcher to the knowledge gaps that need to be covered to best contribute to the scientific community.
Common methodologies include miniaturized or complete reviews, descriptive or integrated reviews, narrative reviews, theoretical reviews, methodological reviews and systematic reviews.
When navigating through the literature, researchers must try to answer their research question with the most current peer-reviewed research when finding relevant data for a research project. It is important to use the existing literature in at least two different databases and adapt the key concepts to amplify their search. Researchers also pay attention to the titles, summaries and references of each article. It is recommended to have a research diary for useful previous research as it could be the researcher´s go-to source when writing the final report.
A good research design involves data analysis methods suited to the research question, and where data collection generates appropriate data for the analysis method (Willig, 2001).
Designing a qualitative study is a critical step in the research process, serving as the blueprint for the research study. This phase is a fundamental part of the planning process, ensuring that the chosen research methods align perfectly with the research's purpose. During this stage, a researcher decides on a specific approach—such as narrative , phenomenological , grounded theory , ethnographic , or case study —tailoring the design to the unique research problem and needs of the research project. By carefully selecting the research method and planning how to approach the data, researchers can ensure that their work remains focused and relevant to the intended study area.
A well-constructed research design is vital for maintaining the integrity and credibility of the study. It guides the researcher through the research process steps, from data collection to analysis, helping to manage and mitigate potential interpretations and errors. This detailed planning is crucial, particularly in qualitative studies, where the depth of understanding and interpretive nature of analysis can significantly influence outcomes.
The design of a qualitative study is more than a procedural formality; it is a strategic component of the research that enhances the quality of the results. It requires thoughtful consideration of the research question, ensuring that every aspect of the methodology contributes effectively to the overarching goals of the project.
Collecting data
Gathering data can involve various methods tailored to the study's specific needs. To collect data , techniques may include interviews , focus groups, surveys and observations , each chosen for its ability to target a specific group relevant to the research population. For example, focus groups might explore attitudes within a specific age group, while observations might analyze behaviours in a community for population research projects. Data may also come from secondary sources with quantitative and qualitative approaches such as library resources, market research, customer feedback or employee evaluations.
Effective data management is crucial, ensuring that primary data from direct collection and secondary data from sources like public health records are organized and maintained properly. This step is vital for maintaining the integrity of the data throughout the research process steps, supporting the overall goal of conducting thorough and coherent research.
Analyzing data
Once research data has been collected, the next critical step is to analyze the data. This phase is crucial for transforming raw data into high-quality information for meaningful research findings.
Analyzing qualitative data often involves coding and thematic analysis , which helps identify patterns and themes within the data. While qualitative research typically does not focus on drawing statistical conclusions, integrating basic statistical methods can sometimes add depth to the data interpretation, especially in mixed-methods research where quantitative data complements qualitative insights.
In each of the research process steps, researchers utilize various research tools and techniques to conduct research and analyze the data systematically. This may include computer-assisted qualitative data analysis software (CAQDAS) such as ATLAS.ti, which assists in organizing, sorting, and coding the data efficiently. It can also host the research diary and apply analysis methods such as word frequencies and network visualizations.
Interpretation, conclusion and presentation of research findings
Interpreting research findings.
By meticulously following systematic procedures and working through the data, researchers can ensure that their interpretations are grounded in the actual data collected, enhancing the trustworthiness and credibility of the research findings.
The interpretation of data is not merely about extracting information but also involves making sense of the data in the context of the existing literature and research objectives. This step is not only about what the data is, but what it means in the broader context of the study, enabling researchers to draw insightful conclusions that contribute to the academic and practical understanding of the field.
Concluding and presenting research findings
The final step is concluding and presenting the research data which are crucial for transforming analyzed data into meaningful insights and credible findings.
The results are typically shared in a research report or academic paper, detailing the findings and contextualizing them within the broader field. This document outlines how the insights contribute to existing knowledge, suggests areas for future research, and may propose practical applications.
Effective presentation is key to ensuring that these findings reach and impact the intended audience. This involves not just articulating the conclusions clearly but also using engaging formats and visual aids to enhance comprehension and engagement with the research.
The research process is a dynamic journey, characterized by a series of systematic research process steps designed to guide researchers successfully from inception to conclusion. Each step—from designing the study and collecting data to analyzing results and drawing conclusions—plays a critical role in ensuring the integrity and credibility of the research.
Qualitative research is guided by key principles designed to ensure the rigour and depth of the research study. Credibility is crucial, achieved through accurate representations of participant experiences, often verified by peer-review revision. Transferability is addressed by providing rich context, allowing others to evaluate the applicability of findings to similar settings. Dependability emphasizes the stability and consistency of data, maintained through detailed documentation of the research process (such as in a research diary), facilitating an audit trail. This aligns with confirmability, where the neutrality of the data is safeguarded by documenting researcher interpretations and decisions, ensuring findings are shaped by participants and not researcher predispositions.
Ethical integrity is paramount, upholding standards like informed consent and confidentiality to protect participant rights throughout the research journey. Qualitative research also strives for a richness and depth of data that captures the complex nature of human experiences and interactions, often exploring these phenomena through an iterative learning process. This involves cycles of data collection and analysis, allowing for ongoing adjustments based on emerging insights. Lastly, a holistic perspective is adopted to view phenomena in their entirety, considering all aspects of the context and environment, which enriches the understanding and relevance of the research outcomes. Together, these principles ensure qualitative research is both profound and ethically conducted, yielding meaningful and applicable insights.
Daft, R. L. (1995). Organization Theory and Design. West Publishing Company.
Willig, C. (2001). Introducing Qualitative Research in Psychology: Adventures in Theory and Method. McGraw-Hill Companies, Incorporated.
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Research Methodology
- Introduction to Research Methodology
- Research Approaches
- Concepts of Theory and Empiricism
- Characteristics of scientific method
- Understanding the Language of Research
11 Steps in Research Process
- Research Design
- Different Research Designs
- Compare and Contrast the Main Types of Research Designs
- Cross-sectional research design
- Qualitative and Quantitative Research
- Descriptive Research VS Qualitative Research
- Experimental Research VS Quantitative Research
- Sampling Design
- Probability VS Non-Probability Sampling
- 40 MCQ on Research Methodology
- MCQ on research Process
- MCQ on Research Design
- 18 MCQ on Quantitative Research
- 30 MCQ on Qualitative Research
- 45 MCQ on Sampling Methods
- 20 MCQ on Principles And Planning For Research
Research process refers to the systematic and organized series of steps taken to investigate and study a specific topic or problem in order to gain knowledge and find answers to questions. It is a methodical approach followed by researchers to collect, analyze, and interpret data to arrive at meaningful conclusions and contribute to the existing body of knowledge in a particular field.
The chart shows that the research process consists of several activities marked from I to VII. These activities are closely related and often overlap instead of following a strict order. Sometimes, the first step determines how the last step will be done. If certain important steps are not considered early on, it can cause serious problems and even stop the research from being completed.
It’s essential to understand that the steps involved in the research process are not completely separate from each other. They do not always follow a fixed order, and the researcher needs to be prepared for the requirements of the next steps at each stage of the research process.
Interpret data to arrive at meaningful conclusions and contribute to the existing body of knowledge in a particular field.
The research process typically involves the following key steps:
- Formulating the Research Problem: Identifying and defining the research question or problem that needs to be addressed.
- Literature Review: Conducting a thorough review of existing literature and research related to the topic to understand what has already been studied and discovered.
- Developing the Hypothesis: Creating a clear and testable statement that predicts the relationship between variables in the research.
- Research Design: Planning the overall structure and approach of the study, including selecting the research methods and data collection techniques.
- Sample Design: Determining the sample size and selecting the participants or subjects that will be part of the study.
- Data Collection: Gathering relevant data through various methods, such as surveys, interviews, experiments, or observations.
- Execution of the Project: Implementing the research plan and collecting the data as per the designed approach.
- Data Analysis: Analyzing the collected data using appropriate statistical or qualitative techniques to draw meaningful conclusions.
- Hypothesis Testing: Evaluating the hypothesis based on the analysis to determine whether it is supported or rejected.
- Generalizations and Interpretation: Making broader connections and interpretations of the findings in the context of the research problem.
- Conclusion and Recommendations: Summarizing the research results, drawing conclusions, and suggesting potential future research or practical implications.
Throughout the research process, researchers must maintain objectivity, rigor, and ethical considerations to ensure the validity and reliability of the results. Each step contributes to a comprehensive understanding of the research topic and the generation of new knowledge in the field.
Research Process: A Step-By-Step Guide: Get Started
- Get Started
- 1a. Select a Topic
- 1b. Develop Research Questions
- 1c. Identify Keywords
- 1d. Find Background Information
- 1e. Refine a Topic
- 2a. Books & E-Books
- 2b. Videos & Images
- 2c. Articles
- 2d. Websites
- 2e. Grey Literature
- 2f. Search Strategies
- 3a. Evaluate Sources
- 3b. Primary vs. Secondary
- 3c. Types of Periodicals
- 4a. Take Notes
- 4b. Outline the Paper
- 4c. Incorporate Source Material
- 5a. Avoid Plagiarism
- 5b. Works Cited Examples
- 5c. Annotated Bibliographies
Research Process Overview
Step 1. Develop a topic Select a Topic | Develop Research Questions | Identify Keywords | Find Background Information | Refine a Topic
Step 2. Locate information Books & E-Books | Videos & Images | Articles | Websites | Grey Literature | Search Strategies
Step 3. Evaluate and analyze information Evaluate Sources | Primary vs Secondary | Types of Periodicals
Step 4. Write, organize, and communicate information Take Notes | Outline the Paper | Incorporate Source Material
Step 5. Cite sources Avoid Plagiarism | Works Cited Examples | Annotated Bibliographies
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Science, health, and public trust.
September 8, 2021
Explaining How Research Works
We’ve heard “follow the science” a lot during the pandemic. But it seems science has taken us on a long and winding road filled with twists and turns, even changing directions at times. That’s led some people to feel they can’t trust science. But when what we know changes, it often means science is working.
Explaining the scientific process may be one way that science communicators can help maintain public trust in science. Placing research in the bigger context of its field and where it fits into the scientific process can help people better understand and interpret new findings as they emerge. A single study usually uncovers only a piece of a larger puzzle.
Questions about how the world works are often investigated on many different levels. For example, scientists can look at the different atoms in a molecule, cells in a tissue, or how different tissues or systems affect each other. Researchers often must choose one or a finite number of ways to investigate a question. It can take many different studies using different approaches to start piecing the whole picture together.
Sometimes it might seem like research results contradict each other. But often, studies are just looking at different aspects of the same problem. Researchers can also investigate a question using different techniques or timeframes. That may lead them to arrive at different conclusions from the same data.
Using the data available at the time of their study, scientists develop different explanations, or models. New information may mean that a novel model needs to be developed to account for it. The models that prevail are those that can withstand the test of time and incorporate new information. Science is a constantly evolving and self-correcting process.
Scientists gain more confidence about a model through the scientific process. They replicate each other’s work. They present at conferences. And papers undergo peer review, in which experts in the field review the work before it can be published in scientific journals. This helps ensure that the study is up to current scientific standards and maintains a level of integrity. Peer reviewers may find problems with the experiments or think different experiments are needed to justify the conclusions. They might even offer new ways to interpret the data.
It’s important for science communicators to consider which stage a study is at in the scientific process when deciding whether to cover it. Some studies are posted on preprint servers for other scientists to start weighing in on and haven’t yet been fully vetted. Results that haven't yet been subjected to scientific scrutiny should be reported on with care and context to avoid confusion or frustration from readers.
We’ve developed a one-page guide, "How Research Works: Understanding the Process of Science" to help communicators put the process of science into perspective. We hope it can serve as a useful resource to help explain why science changes—and why it’s important to expect that change. Please take a look and share your thoughts with us by sending an email to [email protected].
Below are some additional resources:
- Discoveries in Basic Science: A Perfectly Imperfect Process
- When Clinical Research Is in the News
- What is Basic Science and Why is it Important?
- What is a Research Organism?
- What Are Clinical Trials and Studies?
- Basic Research – Digital Media Kit
- Decoding Science: How Does Science Know What It Knows? (NAS)
- Can Science Help People Make Decisions ? (NAS)
Connect with Us
- More Social Media from NIH
How To: Navigate the Research Process
- How to Use This Guide
HOW TO | NAVIGATE THE RESEARCH PROCESS
The research process.
The research process is not a linear one. Every new item you research will have it's own path based on what knowledge you enter with, what information you require to complete your task, and the limitations of what is available to you. The process is also iterative, requiring you to go back and find new materials, try a different search processes, or redefine what you are researching. There is no right or wrong way to research, but there are ways to approach it more effectively.
This guide serves as that, something to guide and inform your choices through a muddled and uncertain process. With time and practice the process or researching becomes easier, faster, and more efficient. If you have any questions along the way, always feel free to reach out to a librarian for assistance. We are happy to help you navigate the path.
Research Process Guide Outline
This guide is broken up into four large sections: Scope, Track, Search, and Evaluate. Each is an important part of the research process, and will assist in making you a more efficient researcher.
Scope - Helps determine the focus of your research based on the parameters outlined in an assignment, by your professor, and by yourself.
Track - Helps create an outline of when you need to complete tasks, records where you have looked, and extracts citation information.
Search - Determines what 'it' is, where to look for 'it', and how to find 'it'.
Evaluate - Assesses if the information you have found is substantial to use.
- Next: Scope >>
- Last Updated: Aug 21, 2024 3:21 PM
- URL: https://library.hws.edu/research_process
Basic Steps in the Research Process
The following steps outline a simple and effective strategy for writing a research paper. Depending on your familiarity with the topic and the challenges you encounter along the way, you may need to rearrange these steps.
Step 1: Identify and develop your topic
Selecting a topic can be the most challenging part of a research assignment. Since this is the very first step in writing a paper, it is vital that it be done correctly. Here are some tips for selecting a topic:
- Select a topic within the parameters set by the assignment. Many times your instructor will give you clear guidelines as to what you can and cannot write about. Failure to work within these guidelines may result in your proposed paper being deemed unacceptable by your instructor.
- Select a topic of personal interest to you and learn more about it. The research for and writing of a paper will be more enjoyable if you are writing about something that you find interesting.
- Select a topic for which you can find a manageable amount of information. Do a preliminary search of information sources to determine whether existing sources will meet your needs. If you find too much information, you may need to narrow your topic; if you find too little, you may need to broaden your topic.
- Be original. Your instructor reads hundreds of research papers every year, and many of them are on the same topics (topics in the news at the time, controversial issues, subjects for which there is ample and easily accessed information). Stand out from your classmates by selecting an interesting and off-the-beaten-path topic.
- Still can't come up with a topic to write about? See your instructor for advice.
Once you have identified your topic, it may help to state it as a question. For example, if you are interested in finding out about the epidemic of obesity in the American population, you might pose the question "What are the causes of obesity in America ?" By posing your subject as a question you can more easily identify the main concepts or keywords to be used in your research.
Step 2 : Do a preliminary search for information
Before beginning your research in earnest, do a preliminary search to determine whether there is enough information out there for your needs and to set the context of your research. Look up your keywords in the appropriate titles in the library's Reference collection (such as encyclopedias and dictionaries) and in other sources such as our catalog of books, periodical databases, and Internet search engines. Additional background information may be found in your lecture notes, textbooks, and reserve readings. You may find it necessary to adjust the focus of your topic in light of the resources available to you.
Step 3: Locate materials
With the direction of your research now clear to you, you can begin locating material on your topic. There are a number of places you can look for information:
If you are looking for books, do a subject search in One Search . A Keyword search can be performed if the subject search doesn't yield enough information. Print or write down the citation information (author, title,etc.) and the location (call number and collection) of the item(s). Note the circulation status. When you locate the book on the shelf, look at the books located nearby; similar items are always shelved in the same area. The Aleph catalog also indexes the library's audio-visual holdings.
Use the library's electronic periodical databases to find magazine and newspaper articles. Choose the databases and formats best suited to your particular topic; ask at the librarian at the Reference Desk if you need help figuring out which database best meets your needs. Many of the articles in the databases are available in full-text format.
Use search engines ( Google , Yahoo , etc.) and subject directories to locate materials on the Internet. Check the Internet Resources section of the NHCC Library web site for helpful subject links.
Step 4: Evaluate your sources
See the CARS Checklist for Information Quality for tips on evaluating the authority and quality of the information you have located. Your instructor expects that you will provide credible, truthful, and reliable information and you have every right to expect that the sources you use are providing the same. This step is especially important when using Internet resources, many of which are regarded as less than reliable.
Step 5: Make notes
Consult the resources you have chosen and note the information that will be useful in your paper. Be sure to document all the sources you consult, even if you there is a chance you may not use that particular source. The author, title, publisher, URL, and other information will be needed later when creating a bibliography.
Step 6: Write your paper
Begin by organizing the information you have collected. The next step is the rough draft, wherein you get your ideas on paper in an unfinished fashion. This step will help you organize your ideas and determine the form your final paper will take. After this, you will revise the draft as many times as you think necessary to create a final product to turn in to your instructor.
Step 7: Cite your sources properly
Give credit where credit is due; cite your sources.
Citing or documenting the sources used in your research serves two purposes: it gives proper credit to the authors of the materials used, and it allows those who are reading your work to duplicate your research and locate the sources that you have listed as references. The MLA and the APA Styles are two popular citation formats.
Failure to cite your sources properly is plagiarism. Plagiarism is avoidable!
Step 8: Proofread
The final step in the process is to proofread the paper you have created. Read through the text and check for any errors in spelling, grammar, and punctuation. Make sure the sources you used are cited properly. Make sure the message that you want to get across to the reader has been thoroughly stated.
Additional research tips:
- Work from the general to the specific -- find background information first, then use more specific sources.
- Don't forget print sources -- many times print materials are more easily accessed and every bit as helpful as online resources.
- The library has books on the topic of writing research papers at call number area LB 2369.
- If you have questions about the assignment, ask your instructor.
- If you have any questions about finding information in the library, ask the librarian.
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5 steps in the research process overview, step 1 – locating and defining issues or problems, step 2 – designing the research project, the research design involves the following steps:, step 3 – collecting data, data collection techniques can include:, step 4 – interpreting research data, analysis steps, step 5 – report research findings, research reporting formats:, typical formal research report format, acqnotes tutorial, research process lessons learned, qualitative research in the research process, acqlinks and references:, leave a reply.
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The critical steps for successful research: The research proposal and scientific writing: (A report on the pre-conference workshop held in conjunction with the 64 th annual conference of the Indian Pharmaceutical Congress-2012)
Pitchai balakumar.
Pharmacology Unit, Faculty of Pharmacy, AIMST University, Semeling, 08100 Bedong. Kedah Darul Aman, Malaysia
Mohammed Naseeruddin Inamdar
1 Department of Pharmacology, Al-Ameen College of Pharmacy, Bengaluru, Karnataka, India
Gowraganahalli Jagadeesh
2 Division of Cardiovascular and Renal Products, Center for Drug Evaluation and Research, US Food and Drug Administration, Silver Spring, USA
An interactive workshop on ‘The Critical Steps for Successful Research: The Research Proposal and Scientific Writing’ was conducted in conjunction with the 64 th Annual Conference of the Indian Pharmaceutical Congress-2012 at Chennai, India. In essence, research is performed to enlighten our understanding of a contemporary issue relevant to the needs of society. To accomplish this, a researcher begins search for a novel topic based on purpose, creativity, critical thinking, and logic. This leads to the fundamental pieces of the research endeavor: Question, objective, hypothesis, experimental tools to test the hypothesis, methodology, and data analysis. When correctly performed, research should produce new knowledge. The four cornerstones of good research are the well-formulated protocol or proposal that is well executed, analyzed, discussed and concluded. This recent workshop educated researchers in the critical steps involved in the development of a scientific idea to its successful execution and eventual publication.
INTRODUCTION
Creativity and critical thinking are of particular importance in scientific research. Basically, research is original investigation undertaken to gain knowledge and understand concepts in major subject areas of specialization, and includes the generation of ideas and information leading to new or substantially improved scientific insights with relevance to the needs of society. Hence, the primary objective of research is to produce new knowledge. Research is both theoretical and empirical. It is theoretical because the starting point of scientific research is the conceptualization of a research topic and development of a research question and hypothesis. Research is empirical (practical) because all of the planned studies involve a series of observations, measurements, and analyses of data that are all based on proper experimental design.[ 1 – 9 ]
The subject of this report is to inform readers of the proceedings from a recent workshop organized by the 64 th Annual conference of the ‘ Indian Pharmaceutical Congress ’ at SRM University, Chennai, India, from 05 to 06 December 2012. The objectives of the workshop titled ‘The Critical Steps for Successful Research: The Research Proposal and Scientific Writing,’ were to assist participants in developing a strong fundamental understanding of how best to develop a research or study protocol, and communicate those research findings in a conference setting or scientific journal. Completing any research project requires meticulous planning, experimental design and execution, and compilation and publication of findings in the form of a research paper. All of these are often unfamiliar to naïve researchers; thus, the purpose of this workshop was to teach participants to master the critical steps involved in the development of an idea to its execution and eventual publication of the results (See the last section for a list of learning objectives).
THE STRUCTURE OF THE WORKSHOP
The two-day workshop was formatted to include key lectures and interactive breakout sessions that focused on protocol development in six subject areas of the pharmaceutical sciences. This was followed by sessions on scientific writing. DAY 1 taught the basic concepts of scientific research, including: (1) how to formulate a topic for research and to describe the what, why , and how of the protocol, (2) biomedical literature search and review, (3) study designs, statistical concepts, and result analyses, and (4) publication ethics. DAY 2 educated the attendees on the basic elements and logistics of writing a scientific paper and thesis, and preparation of poster as well as oral presentations.
The final phase of the workshop was the ‘Panel Discussion,’ including ‘Feedback/Comments’ by participants. There were thirteen distinguished speakers from India and abroad. Approximately 120 post-graduate and pre-doctoral students, young faculty members, and scientists representing industries attended the workshop from different parts of the country. All participants received a printed copy of the workshop manual and supporting materials on statistical analyses of data.
THE BASIC CONCEPTS OF RESEARCH: THE KEY TO GETTING STARTED IN RESEARCH
A research project generally comprises four key components: (1) writing a protocol, (2) performing experiments, (3) tabulating and analyzing data, and (4) writing a thesis or manuscript for publication.
Fundamentals in the research process
A protocol, whether experimental or clinical, serves as a navigator that evolves from a basic outline of the study plan to become a qualified research or grant proposal. It provides the structural support for the research. Dr. G. Jagadeesh (US FDA), the first speaker of the session, spoke on ‘ Fundamentals in research process and cornerstones of a research project .’ He discussed at length the developmental and structural processes in preparing a research protocol. A systematic and step-by-step approach is necessary in planning a study. Without a well-designed protocol, there would be a little chance for successful completion of a research project or an experiment.
Research topic
The first and the foremost difficult task in research is to identify a topic for investigation. The research topic is the keystone of the entire scientific enterprise. It begins the project, drives the entire study, and is crucial for moving the project forward. It dictates the remaining elements of the study [ Table 1 ] and thus, it should not be too narrow or too broad or unfocused. Because of these potential pitfalls, it is essential that a good or novel scientific idea be based on a sound concept. Creativity, critical thinking, and logic are required to generate new concepts and ideas in solving a research problem. Creativity involves critical thinking and is associated with generating many ideas. Critical thinking is analytical, judgmental, and involves evaluating choices before making a decision.[ 4 ] Thus, critical thinking is convergent type thinking that narrows and refines those divergent ideas and finally settles to one idea for an in-depth study. The idea on which a research project is built should be novel, appropriate to achieve within the existing conditions, and useful to the society at large. Therefore, creativity and critical thinking assist biomedical scientists in research that results in funding support, novel discovery, and publication.[ 1 , 4 ]
Elements of a study protocol
Research question
The next most crucial aspect of a study protocol is identifying a research question. It should be a thought-provoking question. The question sets the framework. It emerges from the title, findings/results, and problems observed in previous studies. Thus, mastering the literature, attendance at conferences, and discussion in journal clubs/seminars are sources for developing research questions. Consider the following example in developing related research questions from the research topic.
Hepatoprotective activity of Terminalia arjuna and Apium graveolens on paracetamol-induced liver damage in albino rats.
How is paracetamol metabolized in the body? Does it involve P450 enzymes? How does paracetamol cause liver injury? What are the mechanisms by which drugs can alleviate liver damage? What biochemical parameters are indicative of liver injury? What major endogenous inflammatory molecules are involved in paracetamol-induced liver damage?
A research question is broken down into more precise objectives. The objectives lead to more precise methods and definition of key terms. The objectives should be SMART-Specific, Measurable, Achievable, Realistic, Time-framed,[ 10 ] and should cover the entire breadth of the project. The objectives are sometimes organized into hierarchies: Primary, secondary, and exploratory; or simply general and specific. Study the following example:
To evaluate the safety and tolerability of single oral doses of compound X in normal volunteers.
To assess the pharmacokinetic profile of compound X following single oral doses.
To evaluate the incidence of peripheral edema reported as an adverse event.
The objectives and research questions are then formulated into a workable or testable hypothesis. The latter forces us to think carefully about what comparisons will be needed to answer the research question, and establishes the format for applying statistical tests to interpret the results. The hypothesis should link a process to an existing or postulated biologic pathway. A hypothesis is written in a form that can yield measurable results. Studies that utilize statistics to compare groups of data should have a hypothesis. Consider the following example:
- The hepatoprotective activity of Terminalia arjuna is superior to that of Apium graveolens against paracetamol-induced liver damage in albino rats.
All biological research, including discovery science, is hypothesis-driven. However, not all studies need be conducted with a hypothesis. For example, descriptive studies (e.g., describing characteristics of a plant, or a chemical compound) do not need a hypothesis.[ 1 ]
Relevance of the study
Another important section to be included in the protocol is ‘significance of the study.’ Its purpose is to justify the need for the research that is being proposed (e.g., development of a vaccine for a disease). In summary, the proposed study should demonstrate that it represents an advancement in understanding and that the eventual results will be meaningful, contribute to the field, and possibly even impact society.
Biomedical literature
A literature search may be defined as the process of examining published sources of information on a research or review topic, thesis, grant application, chemical, drug, disease, or clinical trial, etc. The quantity of information available in print or electronically (e.g., the internet) is immense and growing with time. A researcher should be familiar with the right kinds of databases and search engines to extract the needed information.[ 3 , 6 ]
Dr. P. Balakumar (Institute of Pharmacy, Rajendra Institute of Technology and Sciences, Sirsa, Haryana; currently, Faculty of Pharmacy, AIMST University, Malaysia) spoke on ‘ Biomedical literature: Searching, reviewing and referencing .’ He schematically explained the basis of scientific literature, designing a literature review, and searching literature. After an introduction to the genesis and diverse sources of scientific literature searches, the use of PubMed, one of the premier databases used for biomedical literature searches world-wide, was illustrated with examples and screenshots. Several companion databases and search engines are also used for finding information related to health sciences, and they include Embase, Web of Science, SciFinder, The Cochrane Library, International Pharmaceutical Abstracts, Scopus, and Google Scholar.[ 3 ] Literature searches using alternative interfaces for PubMed such as GoPubMed, Quertle, PubFocus, Pubget, and BibliMed were discussed. The participants were additionally informed of databases on chemistry, drugs and drug targets, clinical trials, toxicology, and laboratory animals (reviewed in ref[ 3 ]).
Referencing and bibliography are essential in scientific writing and publication.[ 7 ] Referencing systems are broadly classified into two major types, such as Parenthetical and Notation systems. Parenthetical referencing is also known as Harvard style of referencing, while Vancouver referencing style and ‘Footnote’ or ‘Endnote’ are placed under Notation referencing systems. The participants were educated on each referencing system with examples.
Bibliography management
Dr. Raj Rajasekaran (University of California at San Diego, CA, USA) enlightened the audience on ‘ bibliography management ’ using reference management software programs such as Reference Manager ® , Endnote ® , and Zotero ® for creating and formatting bibliographies while writing a manuscript for publication. The discussion focused on the use of bibliography management software in avoiding common mistakes such as incomplete references. Important steps in bibliography management, such as creating reference libraries/databases, searching for references using PubMed/Google scholar, selecting and transferring selected references into a library, inserting citations into a research article and formatting bibliographies, were presented. A demonstration of Zotero®, a freely available reference management program, included the salient features of the software, adding references from PubMed using PubMed ID, inserting citations and formatting using different styles.
Writing experimental protocols
The workshop systematically instructed the participants in writing ‘ experimental protocols ’ in six disciplines of Pharmaceutical Sciences.: (1) Pharmaceutical Chemistry (presented by Dr. P. V. Bharatam, NIPER, Mohali, Punjab); (2) Pharmacology (presented by Dr. G. Jagadeesh and Dr. P. Balakumar); (3) Pharmaceutics (presented by Dr. Jayant Khandare, Piramal Life Sciences, Mumbai); (4) Pharmacy Practice (presented by Dr. Shobha Hiremath, Al-Ameen College of Pharmacy, Bengaluru); (5) Pharmacognosy and Phytochemistry (presented by Dr. Salma Khanam, Al-Ameen College of Pharmacy, Bengaluru); and (6) Pharmaceutical Analysis (presented by Dr. Saranjit Singh, NIPER, Mohali, Punjab). The purpose of the research plan is to describe the what (Specific Aims/Objectives), why (Background and Significance), and how (Design and Methods) of the proposal.
The research plan should answer the following questions: (a) what do you intend to do; (b) what has already been done in general, and what have other researchers done in the field; (c) why is this worth doing; (d) how is it innovative; (e) what will this new work add to existing knowledge; and (f) how will the research be accomplished?
In general, the format used by the faculty in all subjects is shown in Table 2 .
Elements of a research protocol
Biostatistics
Biostatistics is a key component of biomedical research. Highly reputed journals like The Lancet, BMJ, Journal of the American Medical Association, and many other biomedical journals include biostatisticians on their editorial board or reviewers list. This indicates that a great importance is given for learning and correctly employing appropriate statistical methods in biomedical research. The post-lunch session on day 1 of the workshop was largely committed to discussion on ‘ Basic biostatistics .’ Dr. R. Raveendran (JIPMER, Puducherry) and Dr. Avijit Hazra (PGIMER, Kolkata) reviewed, in parallel sessions, descriptive statistics, probability concepts, sample size calculation, choosing a statistical test, confidence intervals, hypothesis testing and ‘ P ’ values, parametric and non-parametric statistical tests, including analysis of variance (ANOVA), t tests, Chi-square test, type I and type II errors, correlation and regression, and summary statistics. This was followed by a practice and demonstration session. Statistics CD, compiled by Dr. Raveendran, was distributed to the participants before the session began and was demonstrated live. Both speakers worked on a variety of problems that involved both clinical and experimental data. They discussed through examples the experimental designs encountered in a variety of studies and statistical analyses performed for different types of data. For the benefit of readers, we have summarized statistical tests applied frequently for different experimental designs and post-hoc tests [ Figure 1 ].
Conceptual framework for statistical analyses of data. Of the two kinds of variables, qualitative (categorical) and quantitative (numerical), qualitative variables (nominal or ordinal) are not normally distributed. Numerical data that come from normal distributions are analyzed using parametric tests, if not; the data are analyzed using non-parametric tests. The most popularly used Student's t -test compares the means of two populations, data for this test could be paired or unpaired. One-way analysis of variance (ANOVA) is used to compare the means of three or more independent populations that are normally distributed. Applying t test repeatedly in pair (multiple comparison), to compare the means of more than two populations, will increase the probability of type I error (false positive). In this case, for proper interpretation, we need to adjust the P values. Repeated measures ANOVA is used to compare the population means if more than two observations coming from same subject over time. The null hypothesis is rejected with a ‘ P ’ value of less than 0.05, and the difference in population means is considered to be statistically significant. Subsequently, appropriate post-hoc tests are used for pairwise comparisons of population means. Two-way or three-way ANOVA are considered if two (diet, dose) or three (diet, dose, strain) independent factors, respectively, are analyzed in an experiment (not described in the Figure). Categorical nominal unmatched variables (counts or frequencies) are analyzed by Chi-square test (not shown in the Figure)
Research and publication ethics
The legitimate pursuit of scientific creativity is unfortunately being marred by a simultaneous increase in scientific misconduct. A disproportionate share of allegations involves scientists of many countries, and even from respected laboratories. Misconduct destroys faith in science and scientists and creates a hierarchy of fraudsters. Investigating misconduct also steals valuable time and resources. In spite of these facts, most researchers are not aware of publication ethics.
Day 1 of the workshop ended with a presentation on ‘ research and publication ethics ’ by Dr. M. K. Unnikrishnan (College of Pharmaceutical Sciences, Manipal University, Manipal). He spoke on the essentials of publication ethics that included plagiarism (attempting to take credit of the work of others), self-plagiarism (multiple publications by an author on the same content of work with slightly different wordings), falsification (manipulation of research data and processes and omitting critical data or results), gift authorship (guest authorship), ghostwriting (someone other than the named author (s) makes a major contribution), salami publishing (publishing many papers, with minor differences, from the same study), and sabotage (distracting the research works of others to halt their research completion). Additionally, Dr. Unnikrishnan pointed out the ‘ Ingelfinger rule ’ of stipulating that a scientist must not submit the same original research in two different journals. He also advised the audience that authorship is not just credit for the work but also responsibility for scientific contents of a paper. Although some Indian Universities are instituting preventive measures (e.g., use of plagiarism detecting software, Shodhganga digital archiving of doctoral theses), Dr. Unnikrishnan argued for a great need to sensitize young researchers on the nature and implications of scientific misconduct. Finally, he discussed methods on how editors and peer reviewers should ethically conduct themselves while managing a manuscript for publication.
SCIENTIFIC COMMUNICATION: THE KEY TO SUCCESSFUL SELLING OF FINDINGS
Research outcomes are measured through quality publications. Scientists must not only ‘do’ science but must ‘write’ science. The story of the project must be told in a clear, simple language weaving in previous work done in the field, answering the research question, and addressing the hypothesis set forth at the beginning of the study. Scientific publication is an organic process of planning, researching, drafting, revising, and updating the current knowledge for future perspectives. Writing a research paper is no easier than the research itself. The lectures of Day 2 of the workshop dealt with the basic elements and logistics of writing a scientific paper.
An overview of paper structure and thesis writing
Dr. Amitabh Prakash (Adis, Auckland, New Zealand) spoke on ‘ Learning how to write a good scientific paper .’ His presentation described the essential components of an original research paper and thesis (e.g., introduction, methods, results, and discussion [IMRaD]) and provided guidance on the correct order, in which data should appear within these sections. The characteristics of a good abstract and title and the creation of appropriate key words were discussed. Dr. Prakash suggested that the ‘title of a paper’ might perhaps have a chance to make a good impression, and the title might be either indicative (title that gives the purpose of the study) or declarative (title that gives the study conclusion). He also suggested that an abstract is a succinct summary of a research paper, and it should be specific, clear, and concise, and should have IMRaD structure in brief, followed by key words. Selection of appropriate papers to be cited in the reference list was also discussed. Various unethical authorships were enumerated, and ‘The International Committee of Medical Journal Editors (ICMJE) criteria for authorship’ was explained ( http://www.icmje.org/ethical_1author.html ; also see Table 1 in reference #9). The session highlighted the need for transparency in medical publication and provided a clear description of items that needed to be included in the ‘Disclosures’ section (e.g., sources of funding for the study and potential conflicts of interest of all authors, etc.) and ‘Acknowledgements’ section (e.g., writing assistance and input from all individuals who did not meet the authorship criteria). The final part of the presentation was devoted to thesis writing, and Dr. Prakash provided the audience with a list of common mistakes that are frequently encountered when writing a manuscript.
The backbone of a study is description of results through Text, Tables, and Figures. Dr. S. B. Deshpande (Institute of Medical Sciences, Banaras Hindu University, Varanasi, India) spoke on ‘ Effective Presentation of Results .’ The Results section deals with the observations made by the authors and thus, is not hypothetical. This section is subdivided into three segments, that is, descriptive form of the Text, providing numerical data in Tables, and visualizing the observations in Graphs or Figures. All these are arranged in a sequential order to address the question hypothesized in the Introduction. The description in Text provides clear content of the findings highlighting the observations. It should not be the repetition of facts in tables or graphs. Tables are used to summarize or emphasize descriptive content in the text or to present the numerical data that are unrelated. Illustrations should be used when the evidence bearing on the conclusions of a paper cannot be adequately presented in a written description or in a Table. Tables or Figures should relate to each other logically in sequence and should be clear by themselves. Furthermore, the discussion is based entirely on these observations. Additionally, how the results are applied to further research in the field to advance our understanding of research questions was discussed.
Dr. Peush Sahni (All-India Institute of Medical Sciences, New Delhi) spoke on effectively ‘ structuring the Discussion ’ for a research paper. The Discussion section deals with a systematic interpretation of study results within the available knowledge. He said the section should begin with the most important point relating to the subject studied, focusing on key issues, providing link sentences between paragraphs, and ensuring the flow of text. Points were made to avoid history, not repeat all the results, and provide limitations of the study. The strengths and novel findings of the study should be provided in the discussion, and it should open avenues for future research and new questions. The Discussion section should end with a conclusion stating the summary of key findings. Dr. Sahni gave an example from a published paper for writing a Discussion. In another presentation titled ‘ Writing an effective title and the abstract ,’ Dr. Sahni described the important components of a good title, such as, it should be simple, concise, informative, interesting and eye-catching, accurate and specific about the paper's content, and should state the subject in full indicating study design and animal species. Dr. Sahni explained structured (IMRaD) and unstructured abstracts and discussed a few selected examples with the audience.
Language and style in publication
The next lecture of Dr. Amitabh Prakash on ‘ Language and style in scientific writing: Importance of terseness, shortness and clarity in writing ’ focused on the actual sentence construction, language, grammar and punctuation in scientific manuscripts. His presentation emphasized the importance of brevity and clarity in the writing of manuscripts describing biomedical research. Starting with a guide to the appropriate construction of sentences and paragraphs, attendees were given a brief overview of the correct use of punctuation with interactive examples. Dr. Prakash discussed common errors in grammar and proactively sought audience participation in correcting some examples. Additional discussion was centered on discouraging the use of redundant and expendable words, jargon, and the use of adjectives with incomparable words. The session ended with a discussion of words and phrases that are commonly misused (e.g., data vs . datum, affect vs . effect, among vs . between, dose vs . dosage, and efficacy/efficacious vs . effective/effectiveness) in biomedical research manuscripts.
Working with journals
The appropriateness in selecting the journal for submission and acceptance of the manuscript should be determined by the experience of an author. The corresponding author must have a rationale in choosing the appropriate journal, and this depends upon the scope of the study and the quality of work performed. Dr. Amitabh Prakash spoke on ‘ Working with journals: Selecting a journal, cover letter, peer review process and impact factor ’ by instructing the audience in assessing the true value of a journal, understanding principles involved in the peer review processes, providing tips on making an initial approach to the editorial office, and drafting an appropriate cover letter to accompany the submission. His presentation defined the metrics that are most commonly used to measure journal quality (e.g., impact factor™, Eigenfactor™ score, Article Influence™ score, SCOPUS 2-year citation data, SCImago Journal Rank, h-Index, etc.) and guided attendees on the relative advantages and disadvantages of using each metric. Factors to consider when assessing journal quality were discussed, and the audience was educated on the ‘green’ and ‘gold’ open access publication models. Various peer review models (e.g., double-blind, single-blind, non-blind) were described together with the role of the journal editor in assessing manuscripts and selecting suitable reviewers. A typical checklist sent to referees was shared with the attendees, and clear guidance was provided on the best way to address referee feedback. The session concluded with a discussion of the potential drawbacks of the current peer review system.
Poster and oral presentations at conferences
Posters have become an increasingly popular mode of presentation at conferences, as it can accommodate more papers per meeting, has no time constraint, provides a better presenter-audience interaction, and allows one to select and attend papers of interest. In Figure 2 , we provide instructions, design, and layout in preparing a scientific poster. In the final presentation, Dr. Sahni provided the audience with step-by-step instructions on how to write and format posters for layout, content, font size, color, and graphics. Attendees were given specific guidance on the format of text on slides, the use of color, font type and size, and the use of illustrations and multimedia effects. Moreover, the importance of practical tips while delivering oral or poster presentation was provided to the audience, such as speak slowly and clearly, be informative, maintain eye contact, and listen to the questions from judges/audience carefully before coming up with an answer.
Guidelines and design to scientific poster presentation. The objective of scientific posters is to present laboratory work in scientific meetings. A poster is an excellent means of communicating scientific work, because it is a graphic representation of data. Posters should have focus points, and the intended message should be clearly conveyed through simple sections: Text, Tables, and Graphs. Posters should be clear, succinct, striking, and eye-catching. Colors should be used only where necessary. Use one font (Arial or Times New Roman) throughout. Fancy fonts should be avoided. All headings should have font size of 44, and be in bold capital letters. Size of Title may be a bit larger; subheading: Font size of 36, bold and caps. References and Acknowledgments, if any, should have font size of 24. Text should have font size between 24 and 30, in order to be legible from a distance of 3 to 6 feet. Do not use lengthy notes
PANEL DISCUSSION: FEEDBACK AND COMMENTS BY PARTICIPANTS
After all the presentations were made, Dr. Jagadeesh began a panel discussion that included all speakers. The discussion was aimed at what we do currently and could do in the future with respect to ‘developing a research question and then writing an effective thesis proposal/protocol followed by publication.’ Dr. Jagadeesh asked the following questions to the panelists, while receiving questions/suggestions from the participants and panelists.
- Does a Post-Graduate or Ph.D. student receive adequate training, either through an institutional course, a workshop of the present nature, or from the guide?
- Are these Post-Graduates self-taught (like most of us who learnt the hard way)?
- How are these guides trained? How do we train them to become more efficient mentors?
- Does a Post-Graduate or Ph.D. student struggle to find a method (s) to carry out studies? To what extent do seniors/guides help a post graduate overcome technical difficulties? How difficult is it for a student to find chemicals, reagents, instruments, and technical help in conducting studies?
- Analyses of data and interpretation: Most students struggle without adequate guidance.
- Thesis and publications frequently feature inadequate/incorrect statistical analyses and representation of data in tables/graphs. The student, their guide, and the reviewers all share equal responsibility.
- Who initiates and drafts the research paper? The Post-Graduate or their guide?
- What kind of assistance does a Post-Graduate get from the guide in finalizing a paper for publication?
- Does the guide insist that each Post-Graduate thesis yield at least one paper, and each Ph.D. thesis more than two papers, plus a review article?
The panelists and audience expressed a variety of views, but were unable to arrive at a decisive conclusion.
WHAT HAVE THE PARTICIPANTS LEARNED?
At the end of this fast-moving two-day workshop, the participants had opportunities in learning the following topics:
- Sequential steps in developing a study protocol, from choosing a research topic to developing research questions and a hypothesis.
- Study protocols on different topics in their subject of specialization
- Searching and reviewing the literature
- Appropriate statistical analyses in biomedical research
- Scientific ethics in publication
- Writing and understanding the components of a research paper (IMRaD)
- Recognizing the value of good title, running title, abstract, key words, etc
- Importance of Tables and Figures in the Results section, and their importance in describing findings
- Evidence-based Discussion in a research paper
- Language and style in writing a paper and expert tips on getting it published
- Presentation of research findings at a conference (oral and poster).
Overall, the workshop was deemed very helpful to participants. The participants rated the quality of workshop from “ satisfied ” to “ very satisfied .” A significant number of participants were of the opinion that the time allotted for each presentation was short and thus, be extended from the present two days to four days with adequate time to ask questions. In addition, a ‘hands-on’ session should be introduced for writing a proposal and manuscript. A large number of attendees expressed their desire to attend a similar workshop, if conducted, in the near future.
ACKNOWLEDGMENT
We gratefully express our gratitude to the Organizing Committee, especially Professors K. Chinnasamy, B. G. Shivananda, N. Udupa, Jerad Suresh, Padma Parekh, A. P. Basavarajappa, Mr. S. V. Veerramani, Mr. J. Jayaseelan, and all volunteers of the SRM University. We thank Dr. Thomas Papoian (US FDA) for helpful comments on the manuscript.
The opinions expressed herein are those of Gowraganahalli Jagadeesh and do not necessarily reflect those of the US Food and Drug Administration
Source of Support: Nil
Conflict of Interest: None declared.
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Speaker 1: One of the most frequently asked questions that I am asked all the time across my social media platforms, across my YouTube, across my comments, is about the research process. So how do you start? Where do you even begin? You need to submit a dissertation, you need to submit a research proposal, you need to think of a hypothesis, you need to think of a problem statement, you need to find a gap in literature where do you even begin with the whole research process now it isn't as hard as it seems it's just one of those things that you're never told or you're never taught how to do it's one of those things that you just kind of figure out so hopefully in today's video i will be talking to you about the overview and kind of a quick beginner's guide to the research process, giving you the steps of how you get from zero to having something, having a question, having a hypothesis, having somewhere to start. I'm going to be making this into a bit of a series so in today's video I'm going to be giving you an overview as to the different chapters, the different sections of the process, how you get from nothing to something and then in the following videos I will be going through each of those sections in a bit more detail and hopefully if you are someone who is within one of those kind of parts you can just jump to that video and have a have a quick quick watch if you are someone who is just starting off then this is the best place for you to begin have a little think about how you're going to navigate your research process and how you're going to get from the start to the end it is not difficult but it does require a few steps, a few technicalities, which I'll talk you through today. I'll leave the timestamps down below so you feel free to go and jump to the different sections that you are interested in watching. And if you do enjoy this kind of video and you want to see the rest of the videos from me, then don't forget to subscribe to see more on my channel. So step number one is to choose a topic. Now this is the beginning of something beautiful. This is where you choose what you're actually going to be studying and when you're actually going to be reading about now it's really important that you have chosen a topic that you are interested in that there is an interest in within the research space that has something missing so you don't want to choose a topic that we know everything about you want to choose a topic that we don't know everything about and there are things that we want to try to find more about you want to choose a topic that is within your university guidelines so as much as i would love to do a research on the solar system about space well if my course is to do with cell biology well then i can't so you have to think about your limits think about what you are allowed to do within your university guidelines as well but you do need to think about taking that broad topic and making it into something a bit more narrow so it's not good enough to just say i want to do research on alzheimer's okay alzheimer's fine you've got a topic, but you now need to narrow it down. So what about it are you looking at? Are you looking at the risk factors? Are you looking at what happens once you have Alzheimer's? Are you looking at a specific group of people? Are you looking at a specific cell type? What is it that you are looking at? You need to narrow that down. In order to narrow it down, you need to do a bit of a literature search. So whilst choosing a topic, whilst in this first stage, you need to look at literature. So to find literature you want to go to different websites where you have literature and this could be for example Google Scholar is a good place to start, PubMed is a good place to start. These are places where you can find literature about that topic and kind of read around the subject and identify whether firstly is it something that you are actually interested in and secondly is there enough information for you to gather to be able to write your literature review in the future so that first step your first step of your research process is thinking about the topic because without a topic you there's nothing you can't do anything else so the first step has to always be to find a topic and think about it now once you've thought about a topic and you've narrowed it down to the thing that you're interested in at this stage you will then go to your supervisor to your lecturer to your professor to your mentor to your tutor and you will ask them do you think this is a good topic and that is where you will get some feedback and most likely you'll have to go back have another think or try to refine a bit more or try to think about it in a different way but that is always the first step. In the video that I make about finding a good topic we'll talk about it in a lot more depth but to start off with to introduce this is always the first step. So the second step is to identify a problem and this is what we like to call in as you know in research the gap in literature. So a problem slash gap in literature is the part of research that we that is missing. So when you do research in fact in order to graduate from a PhD you have to and this is one of the criteria you have to produce research it has to be in a thesis or in a in a published paper it has to be research it has to be a finding that is new something that we do not know before we did not know before your research right and that is the number one criteria for for actually getting a phd it is the fact that it has to be something new has to be something novel that you have discovered okay so you need to think about the gap in literature where is there a missing piece i understand this i understand that we know this we know that but what is there that we don't quite know and that is the bit that you are then going to try to identify during your research process right chosen a topic now we need to find the problem where is the missing information now in order to do this you need to have read a lot of papers around your topic. So that's why I said initially, you need to have had approval from your committee, from your tutor, your supervisor to say, right, that's okay. It's good for me to go there. Now you've got that topic that you're looking at. You then want to try to find the gap. Where are you going to slot in? What is it that you are going to provide in terms of knowledge? Now, the identifying a problem is actually quite an important and quite critical part of the research process it's almost impossible you to continue on with your research without having identified the problem because if you don't have a problem you don't know what it is you're looking at you don't know what methods you're using you don't know what your research question is going to be or your hypothesis so at this stage you have to have a very well-defined research problem and your question in order to continue on to the next steps so when i say research problem and we'll talk about this more in in the following video that i'm going to produce about it but when i talk about research problem it could be a number of different things so it could be that we understand or we have the knowledge of a certain situation but now you're comparing it to a different situation so it could be more theoretical where you're comparing two things to each other that haven't been compared before so that would be fine as long as what you have is something original or you may be trying to explore a specific relationship let's say for example in my case with my PhD I was looking at two different proteins and the relationship between them so that is one type of research that you can do as well and so just think about your topic and think about where the gap is in the literature you have to read a lot to be able to find this and a question I get a lot emailed to me and directed to me is about this problem so how do I find a problem like how do i find a gap in literature and it's almost impossible for me to to give you any answers because i have to have read all the papers within your topic in order to answer that question which is almost impossible so it's something that you have to do independently and you can always discuss with me you can discuss kind of trying to refine that question but for the most part you need to read around your subject yourself to get that question then step number three is to actually write down your research question now this is usually in the form maybe of a hypothesis or maybe it could be just a you know a standalone question so this is just you saying this is what i'm looking at so i'm looking at whether actin and myosin bind together to have an impact on the motility of the cortex like that is my question and then i'll have a hypothesis saying actin and myosin bind together and they do this so this is just my question and you're just following on from your problem so you've identified your topic you found the problem the gap in literature and then you write down what your question is so what it is exactly that you are looking for and this will be like your guiding star this will be the thing the question the statement that you have at the top you know at the top of your mind whenever you are looking at literature whenever you're writing a literature review whenever you speak to someone you have that question in mind and so that needs to be something that's really well defined it should also be really specific so it can't just be saying is obesity caused by i don't know fatty food i'm just giving a random example that is too vague is obesity in children in male in female different ages what fatty foods what like you need to be very very specific so specific that someone else should be able to pick up your research question and know what it is you're looking at they need to be able to know sort of what methods you're using is it qualitative or is it quantitative what type of research are you actually doing that should really be in the research question so a good research question is one where that is really well defined then step number four is to write a research design so this is where you're kind of creating a bit of a method a bit of a process within a process so you are now writing down and you're now thinking about how you're going to conduct this research so to follow this will be the research proposal but at this stage here you're just thinking about your research design so how are you going to get this research done what are the factors that you need to think about who are the people the participants that you may need are you doing a lab-based thing do you need cells are you you know what do you need humans do you need animals is it just a review paper so do you just need to think about researchers out there what kind of study are you going to conduct in order to find out the results and the answer to your question essentially the research design is a practical framework so it's giving laying out that frame for you in order to answer your research question. And here, it's more of a thinking process. It's more of a discussion. You might want to ask your supervisor, you might want to ask your tutor to talk about it. How are we going to get the answer to this question? And then to finish off the research process, you now want to write a research proposal. And I have a really good video about this, and I'll leave the link for it down below, where you are detailing all the steps for your research so you're detailing your the background of your research the literature review and you're justifying that there is a need for this research you then want to detail your methods your materials the aim your you know your timeline how long it's going to take you to do these things and then that document is what you take with you to your supervisor and say look this is my research proposal you might take it to a potential phd supervisor and say look this is what i've found and this is what i'm really interested in and here is the proposal and you have it all outlined there for you or it's a document that you're able to use in order to build upon your dissertation and so if you're writing an essay dissertation you are able to use that as well so with your research proposal you are detailing the context you are detailing the purpose the plan and your aims the whole process going from finding a topic finding a problem finding the research question defining the actual research and then now you're compiling all of that and you're putting it into a document called the research proposal and all of this information is in there someone should be able to pick that up see what you found find the review of the literature and say right this is a good study this is a good bit of research we are going to approve this and then you can go on and plan the rest of your research so i hope this video helped you summarizing the steps of the research process to begin with and as i mentioned i'm going to be doing each of these five steps as single videos so i can expand on them and i'll make it into a playlist so you're able to sort of follow up and click on the next couple videos but for now i hope this did help with thinking about the research process and thinking about maybe what stage you are at if you are at any of them if you do want further support you can contact me on thepagedoctor.com where i give support and we have a team of consultants top consultants and top editors that can support you through the process of writing your research proposal or even through the post process of thinking about how you're going to find a gap in literature how you're going to find you know your hypothesis and define that for you so don't forget to leave me a comment and let me know if this was helpful and don't forget to leave me a thumbs up and subscribe to see more from me and I'll see you in my next one. Bye.
Research Process
Dissertation markers expect you to include the explanation of research process in methodology chapter. A typical research process comprises the following stages:
1. Selecting the research area . Your dissertation marker expects you to state that you have selected the research area due to professional and personal interests in the area and this statement must be true. Students often underestimate the importance of this first stage in the research process. If you find a research area and research problem that is genuinely interesting to you it is for sure that the whole process of writing your dissertation will be much easier. Therefore, it is never too early to start thinking about the research area for your dissertation.
2. Formulating research aim, objectives and research questions or developing hypotheses . The choice between the formulation of research questions and the development of hypotheses depends on your research approach as it is discussed further below in more details. Appropriate research aims and objectives or hypotheses usually result from several attempts and revisions.
Accordingly, you need to mention in your dissertation that you have revised your research aims and objectives or hypotheses during the research process several times to get their final versions. It is critically important that you get confirmation from your supervisor regarding your research questions or hypotheses before moving forward with the work.
3. Conducting the literature review . Literature review is usually the longest stage in the research process. Actually, the literature review starts even before the formulation of research aims and objective. This is because you have to check if exactly the same research problem has been addressed before and this task is a part of the literature review. Nevertheless, you will conduct the main part of the literature review after the formulation of research aim and objectives. You have to use a wide range of secondary data sources such as books, newspapers, magazines, journals, online articles etc.
4. Selecting data collection methods . Data collection method(s) need to be selected on the basis of critically analyzing advantages and disadvantages associated with several alternative methods. In studies involving primary data collection, you need to write about advantages and disadvantages of selected primary data collection method(s) in detailed manner in methodology.
5. Collecting the primary data . You will have to start primary data collection only after detailed preparation. Sampling is an important element of this stage. You may have to conduct pilot data collection if you chose questionnaire primary data collection method. Primary data collection is not a compulsory stage for all dissertations and you will skip this stage if you are conducting a desk-based research.
6. Data analysis . Analysis of data plays an important role in the achievement of research aim and objectives. This stage involves an extensive editing and coding of data. Data analysis methods vary between secondary and primary studies, as well as, between qualitative and quantitative studies. In data analysis coding of primary data plays an instrumental role to reduce sample group responses to a more manageable form for storage and future processing. Data analysis is discussed in Chapter 6 in great details.
7. Reaching conclusions . Conclusions relate to the level of achievement of research aims and objectives. In this final part of your dissertation you will have to justify why you think that research aims and objectives have been achieved. Conclusions also need to cover research limitations and suggestions for future research .
8. Completing the research . Following all of the stages described above, and organizing separate chapters into one file leads to the completion of the first draft. You need to prepare the first draft of your dissertation at least one month before the submission deadline. This is because you will need to have sufficient amount of time to address feedback to be provided by your supervisor.
Individual stages in the research process outlined above are interdependent and the sequence has to be maintained. Moreover, the process of any research tends to be iterative, meaning that you may have to return back to the previous stages of the research process several times for revisions and improvement. In other words, no stage of the research process is fully completed until the whole dissertation is completed.
John Dudovskiy
The Seven Steps of the Research Process
Research, as a tool for progress, satisfies mankind’s curiosity to lots of questions. Whether you are a high school or college student, you have to take research subject for you to be able to receive your diploma. To ease your burden in doing research, here are the seven steps in the research process:
1. Identification of a research problem
A good research always starts with a good problem. You can observe people or things, visit places, read print materials, or consult experts to find the research problem that is right for you. The research problem guides you in formulating the hypothesis and interpretation of your findings so that you can formulate the right conclusion. A good research problem is important because it is the basis of all subsequent research activities you are going to undertake. Factors like area of interest, availability of fund, socio-economic significance of the study, and the safety measures to be undertaken should be considered in finding a good research problem.
2. Formulation of Hypothesis
After finding your research problem, the next step is to formulate your own hypothesis. A hypothesis is a theoretical statement in solving a logical relationship between variables. Do not be afraid if your hypothesis proves to be incorrect after the experimentation because it is only considered as an educated guess. Always remember that when you formulate a hypothesis, it should be based on the research problem being solved.
3. Review of Related Literature
A research problem is vague at first. To give you a vivid picture of the whole research, you shall read various publications or surf the internet to become aware of the previous works already done. In doing so, it could spur an idea that can be the subject of your investigation. The review of related literature can be taken from science books, magazines, journals, newspapers, or even in the internet.
4. Preparation of Research Design
A research design is the blueprint of the research you are going to undertake. It serves as the work plan of the whole study not only because it entails the resources needed in conducting the research but also the ways these resources are utilized.
5. Actual experimentation
Actual experimentation is an implementation of the research design. In actual experimentation, you have to conduct an experiment to prove the validity of the hypothesis you have formulated. Actual experimentation includes the methodology that you have followed in doing your research. The methodology should be carefully planned prior to the actual experimentation to ensure the validity and accuracy of the result.
6. Results and Discussion
This is the heart of the research process because this is part where the findings of the research can be found. You can use table (not the table in your kitchen) and graph to interpret the results of your research.
7. Formulation of Conclusions and Recommendations
Conclusion is a statement where you will present the solution to the proposed problem based on the findings of the investigation. They are tied up to the questions investigated. Your conclusion will show whether or not your experiment worked. It should answer your hypothesis and research problem. In your concluding statement you can also infer on the possible benefits to society that your results might present. You can state any plans you might have to continue working on other aspects related to your area of study. We must remember that recommendations are based on conclusions and conclusions are based on findings
Conducting research is a tiresome task because it is a year-round activity. You have to be committed to become successful in making a good research which would benefit not only you but of everyone. The willingness in you in making future researches should always be there because doing research without your ‘heart’ and ‘mind’ on it is a burden on your part. Always enjoy doing it. Enjoy the ride. The more that you enjoy doing the task, the more that you ease the burden in conducting this difficult endeavor. Never hesitate to ask questions. Asking questions from other people who is aware of your research topic would help you arrive at the correct conclusions. Now that you have finally learned the steps in the research process, you can now start doing one. Good luck!
Mark Kevin Gabriel Santos
Mark Kevin G. Santos is a licensed teacher. He is a science enthusiast. He placed 7th during the September 2012 Licensure Examination for Teachers – Secondary Level. He is currently teaching at Tabacao National High School in Talavera, Nueva Ecija.
4 thoughts on “The Seven Steps of the Research Process”
I’m satisfied with the explanation. Thanks to the author
Are steps same as stage’s
this is very useful and informative article. it has given deep explanation the steps of research process in a simple way. thank you teacher.
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Research Process and Funding Opportunities at Defense Advanced Research Project Agency
- Funding and Grants
Essential Science Conversations
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The federal Advanced Research Projects Agencies (ARPA) include behavioral and social sciences research in their funding portfolios, yet many psychologists are unaware of the opportunities and know little about how the agencies work. Now is the time to learn more. APA, the Association for Psychological Science, and the Federation of Associations in Behavioral and Brain Sciences are teaming up to sponsor a series of three educational webinars to give psychological scientists the inside track on applying to these well-funded agencies. Not only are Intelligence Advanced Research Projects Activity (IARPA) and Defense Advanced Research Project Agency (DARPA) looking for high-quality projects to fund, a new ARPA agency, Advanced Research Projects Agency for Health (ARPA-H), will be established in 2023 to support next-generation health research.
While there are some differences in how these agencies solicit and choose proposals, there are many similarities: research teams submit proposals in response to a posted research and development opportunity. The organization chooses which to fund. All successful projects must meet performance milestones for funding to continue. Could you design a research plan that one of these organizations would fund? Join us and find out.
This program does not offer CE credit.
Presented in collaboration with
Association for psychological science, federation of associations in behavioral and brain sciences.
Bartlett Russell, PhD
Deputy director, Defense Science Offices, DARPA.
Peter Pirolli, PhD
Senior research scientist, Institute for Human and Machine Cognition.
Christian Lebiere, PhD
Research faculty, Carnegie Mellon University.
Juliane Baron, PhD
Executive director of Federation of Associations in Behavioral and Brain Sciences (FABBS).
Robert Gropp, PhD
Executive director of the Association for Psychological Science.
Adrienne Stith Butler, PhD
Deputy chief science office, APA.
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Discusses what reporters and editors want and need from scientist sources, how psychological scientists can present their work in compelling ways, and the do’s and don’ts when working with the news media.
September 2022 On Demand Webinar
Discusses the need to shift psychology’s focus from the individual researcher, and their career and work, to a truly publicly-engaged science, where the public is involved in all steps of the research process.
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A Beginner's Guide to Starting the Research Process
When you have to write a thesis or dissertation , it can be hard to know where to begin, but there are some clear steps you can follow.
The research process often begins with a very broad idea for a topic you’d like to know more about. You do some preliminary research to identify a problem . After refining your research questions , you can lay out the foundations of your research design , leading to a proposal that outlines your ideas and plans.
This article takes you through the first steps of the research process, helping you narrow down your ideas and build up a strong foundation for your research project.
Table of contents
Step 1: choose your topic, step 2: identify a problem, step 3: formulate research questions, step 4: create a research design, step 5: write a research proposal.
First you have to come up with some ideas. Your thesis or dissertation topic can start out very broad. Think about the general area or field you’re interested in—maybe you already have specific research interests based on classes you’ve taken, or maybe you had to consider your topic when applying to graduate school and writing a statement of purpose .
Even if you already have a good sense of your topic, you’ll need to read widely to build background knowledge and begin narrowing down your ideas. Conduct an initial literature review to begin gathering relevant sources. As you read, take notes and try to identify problems, questions, debates, contradictions and gaps. Your aim is to narrow down from a broad area of interest to a specific niche.
Make sure to consider the practicalities: the requirements of your programme, the amount of time you have to complete the research, and how difficult it will be to access sources and data on the topic. Before moving onto the next stage, it’s a good idea to discuss the topic with your thesis supervisor.
>>Read more about narrowing down a research topic
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So you’ve settled on a topic and found a niche—but what exactly will your research investigate, and why does it matter? To give your project focus and purpose, you have to define a research problem .
The problem might be a practical issue—for example, a process or practice that isn’t working well, an area of concern in an organization’s performance, or a difficulty faced by a specific group of people in society.
Alternatively, you might choose to investigate a theoretical problem—for example, an underexplored phenomenon or relationship, a contradiction between different models or theories, or an unresolved debate among scholars.
To put the problem in context and set your objectives, you can write a problem statement . This describes who the problem affects, why research is needed, and how your research project will contribute to solving it.
>>Read more about defining a research problem
Next, based on the problem statement, you need to write one or more research questions . These target exactly what you want to find out. They might focus on describing, comparing, evaluating, or explaining the research problem.
A strong research question should be specific enough that you can answer it thoroughly using appropriate qualitative or quantitative research methods. It should also be complex enough to require in-depth investigation, analysis, and argument. Questions that can be answered with “yes/no” or with easily available facts are not complex enough for a thesis or dissertation.
In some types of research, at this stage you might also have to develop a conceptual framework and testable hypotheses .
>>See research question examples
The research design is a practical framework for answering your research questions. It involves making decisions about the type of data you need, the methods you’ll use to collect and analyze it, and the location and timescale of your research.
There are often many possible paths you can take to answering your questions. The decisions you make will partly be based on your priorities. For example, do you want to determine causes and effects, draw generalizable conclusions, or understand the details of a specific context?
You need to decide whether you will use primary or secondary data and qualitative or quantitative methods . You also need to determine the specific tools, procedures, and materials you’ll use to collect and analyze your data, as well as your criteria for selecting participants or sources.
>>Read more about creating a research design
Finally, after completing these steps, you are ready to complete a research proposal . The proposal outlines the context, relevance, purpose, and plan of your research.
As well as outlining the background, problem statement, and research questions, the proposal should also include a literature review that shows how your project will fit into existing work on the topic. The research design section describes your approach and explains exactly what you will do.
You might have to get the proposal approved by your supervisor before you get started, and it will guide the process of writing your thesis or dissertation.
>>Read more about writing a research proposal
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- Published: 28 August 2024
The design, implementation, and evaluation of a blended (in-person and virtual) Clinical Competency Examination for final-year nursing students
- Rita Mojtahedzadeh 1 ,
- Tahereh Toulabi 2 , 3 &
- Aeen Mohammadi 1
BMC Medical Education volume 24 , Article number: 936 ( 2024 ) Cite this article
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Introduction
Studies have reported different results of evaluation methods of clinical competency tests. Therefore, this study aimed to design, implement, and evaluate a blended (in-person and virtual) Competency Examination for final-year Nursing Students.
This interventional study was conducted in two semesters of 2020–2021 using an educational action research method in the nursing and midwifery faculty. Thirteen faculty members and 84 final-year nursing students were included in the study using a census method. Eight programs and related activities were designed and conducted during the examination process. Students completed the Spielberger Anxiety Inventory before the examination, and both faculty members and students completed the Acceptance and Satisfaction questionnaire.
The results of the analysis of focused group discussions and reflections indicated that the virtual CCE was not capable of adequately assessing clinical skills. Therefore, it was decided that the CCE for final-year nursing students would be conducted using a blended method. The activities required for performing the examination were designed and implemented based on action plans. Anxiety and satisfaction were also evaluated as outcomes of the study. There was no statistically significant difference in overt, covert, and overall anxiety scores between the in-person and virtual sections of the examination ( p > 0.05). The mean (SD) acceptance and satisfaction scores for students in virtual, in-person, and blended sections were 25.49 (4.73), 27.60 (4.70), and 25.57 (4.97), respectively, out of 30 points, in which there was a significant increase in the in-person section compared to the other sections. ( p = 0.008). The mean acceptance and satisfaction scores for faculty members were 30.31 (4.47) in the virtual, 29.86 (3.94) in the in-person, and 30.00 (4.16) out of 33 in the blended, and there was no significant difference between the three sections ( p = 0.864).
Evaluating nursing students’ clinical competency using a blended method was implemented and solved the problem of students’ graduation. Therefore, it is suggested that the blended method be used instead of traditional in-person or entirely virtual exams in epidemics or based on conditions, facilities, and human resources. Also, the use of patient simulation, virtual reality, and the development of necessary virtual and in-person training infrastructure for students is recommended for future research. Furthermore, considering that the acceptance of traditional in-person exams among students is higher, it is necessary to develop virtual teaching strategies.
Peer Review reports
The primary mission of the nursing profession is to educate competent, capable, and qualified nurses with the necessary knowledge and skills to provide quality nursing care to preserve and improve the community’s health [ 1 ]. Clinical education is one of the most essential and fundamental components of nursing education, in which students gain clinical experience by interacting with actual patients and addressing real problems. Therefore, assessing clinical skills is very challenging. The main goal of educational evaluation is to improve, ensure, and enhance the quality of the academic program. In this regard, evaluating learners’ performance is one of the critical and sensitive aspects of the teaching and learning process. It is considered one of the fundamental elements of the educational program [ 2 ]. The study area is educational evaluation.
Various methods are used to evaluate nursing students. The Objective Structured Clinical Examination (OSCE) is a valid and reliable method for assessing clinical competence [ 1 , 2 ]. In the last twenty years, the use of OSCE has increased significantly in evaluating medical and paramedical students to overcome the limitations of traditional practical evaluation systems [ 3 , 4 ]. The advantages of this method include providing rapid feedback, uniformity for all examinees, and providing conditions close to reality. However, the time-consuming nature and the need for a lot of personnel and equipment are some disadvantages of OSCE [ 5 , 6 ]. Additionally, some studies have shown that this method is anxiety-provoking for some students and, due to time constraints, being observed by the evaluator and other factors can cause dissatisfaction among students [ 7 , 8 ].
However, some studies have also reported that this method is not only not associated with high levels of stress among students [ 9 ] but also has higher satisfaction than traditional evaluation methods [ 4 ]. In addition, during the COVID-19 pandemic, problems such as overcrowding and student quarantine during the exam have arisen. Therefore, reducing time and costs, eliminating or reducing the tiring quarantine time, optimizing the exam, utilizing all facilities for simulating the clinical environment, using innovative methods for conducting the exam, reducing stress, increasing satisfaction, and ultimately preventing the transmission of COVID-19 are significant problems that need to be further investigated.
Studies show that using virtual space as an alternative solution is strongly felt [ 10 , 11 , 12 ]. In the fall of 2009, following the outbreak of H1N1, educational classes in the United States were held virtually [ 13 ]. Also, in 2005, during Hurricane Katrina, 27 universities in the Gulf of Texas used emergency virtual education and evaluation [ 14 ].
One of the challenges faced by healthcare providers in Iran, like most countries in the world, especially during the COVID-19 outbreak, was the shortage of nursing staff [ 15 , 16 ]. Also, in evaluating and conducting CCE for final-year students and subsequent job seekers in the Clinical Skills Center, problems such as student overcrowding and the need for quarantine during the implementation of OSCE existed. This problem has been reported not only for us but also in other countries [ 17 ]. The intelligent use of technology can solve many of these problems. Therefore, almost all educational institutions have quickly started changing their policies’ paradigms to introduce online teaching and evaluation methods [ 18 , 19 ].
During the COVID-19 pandemic, for the first time, this exam was held virtually in our school. However, feedback from professors and students and the experiences of researchers have shown that the virtual exam can only partially evaluate clinical and practical skills in some stations, such as basic skills, resuscitation, and pediatrics [ 20 ].
Additionally, using OSCE in skills assessment facilitates the evaluation of psychological-motor knowledge and attitudes and helps identify strengths and weaknesses [ 21 ]. Clinical competency is a combination of theoretical knowledge and clinical skills. Therefore, using an effective blended method focusing on the quality and safety of healthcare that measures students’ clinical skills and theoretical expertise more accurately in both in-person and virtual environments is essential. The participation of students, professors, managers, education and training staff, and the Clinical Skills Center was necessary to achieve this important and inevitable goal. Therefore, the Clinical Competency Examination (CCE) for nursing students in our nursing and midwifery school was held in the form of an educational action research process to design, implement, and evaluate a blended method. Implementing this process during the COVID-19 pandemic, when it was impossible to hold an utterly in-person exam, helped improve the quality of the exam and address its limitations and weaknesses while providing the necessary evaluation for students.
The innovation of this research lies in evaluating the clinical competency of final-year nursing students using a blended method that focuses on clinical and practical aspects. In the searches conducted, only a few studies have been done on virtual exams and simulations, and a similar study using a blended method was not found.
The research investigates the scientific and clinical abilities of nursing students through the clinical competency exam. This exam, traditionally administered in person, is a crucial milestone for final-year nursing students, marking their readiness for graduation. However, the unforeseen circumstances of the COVID-19 pandemic and the resulting restrictions rendered in-person exams impractical in 2020. This necessitated a swift and significant transition to an online format, a decision that has profound implications for the future of nursing education. While the adoption of online assessment was a necessary step to ensure student graduation and address the nursing workforce shortage during the pandemic, it was not without its challenges. The accurate assessment of clinical skills, such as dressing and CPR, proved to be a significant hurdle. This underscored the urgent need for a change in the exam format, prompting a deeper exploration of innovative solutions.
To address these problems, the research was conducted collaboratively with stakeholders, considering the context and necessity for change in exam administration. Employing an Action Research (AR) approach, a blend of online and in-person exam modalities was adopted. Necessary changes were implemented through a cyclic process involving problem identification, program design, implementation, reflection, and continuous evaluation.
The research began by posing the following questions:
What are the problems of conducting the CCE for final-year nursing students during COVID-19?
How can these problems be addressed?
What are the solutions and suggestions from the involved stakeholders?
How can the CCE be designed, implemented, and evaluated?
What is the impact of exam type on student anxiety and satisfaction?
These questions guided the research in exploring the complexities of administering the CCE amidst the COVID-19 pandemic and in devising practical solutions to ensure the validity and reliability of the assessment while meeting stakeholders’ needs.
Materials and methods
Research setting, expert panel members, job analysis, and role delineation.
This action research was conducted at the Nursing and Midwifery School of Lorestan University of Medical Sciences, with a history of approximately 40 years. The school accommodates 500 undergraduate and graduate nursing students across six specialized fields, with 84 students enrolled in their final year of undergraduate studies. Additionally, the school employs 26 full-time faculty members in nursing education departments.
An expert panel was assembled, consisting of faculty members specializing in various areas, including medical-surgical nursing, psychiatric nursing, community health nursing, pediatric nursing, and intensive care nursing. The panel also included educational department managers and the examination department supervisor. Through focused group discussions, the panel identified and examined issues regarding the exam format, and members proposed various solutions. Subsequently, after analyzing the proposed solutions and drawing upon the panel members’ experiences, specific roles for each member were delineated.
Sampling and participant selection
Given the nature of the research, purposive sampling was employed, ensuring that all individuals involved in the design, implementation, and evaluation of the exam participated in this study.
The participants in this study included final-year nursing students, faculty members, clinical skills center experts, the dean of the school, the educational deputy, group managers, and the exam department head. However, in the outcome evaluation phase, 13 faculty members participated in-person and virtually (26 times), and 84 final-year nursing students enrolled in the study using a census method in two semesters of 2020–2021 completed the questionnaires, including 37 females and 47 males. In addition, three male and ten female faculty members participated in this study; of this number, 2 were instructors, and 11 were assistant professors.
Data collection tools
In order to enhance the validity and credibility of the study and thoroughly examine the results, this study utilized a triangulation method consisting of demographic information, focus group discussions, the Spielberger Anxiety Scale questionnaire, and an Acceptance and Satisfaction Questionnaire.
Demographic information
A questionnaire was used to gather demographic information from both students and faculty members. For students, this included age, gender, and place of residence, while for faculty members, it included age, gender, field of study, and employment status.
Focus group discussion
Multiple focused group discussions were conducted with the participation of professors, administrators, experts, and students. These discussions were held through various platforms such as WhatsApp Skype, and in-person meetings while adhering to health protocols. The researcher guided the talks toward the research objectives and raised fundamental questions, such as describing the strengths and weaknesses of the previous exam, determining how to conduct the CCE considering the COVID-19 situation, deciding on virtual and in-person stations, specifying the evaluation checklists for stations, and explaining the weighting and scoring of each station.
Spielberger anxiety scale questionnaire
This study used the Spielberger Anxiety Questionnaire to measure students’ overt and covert anxiety levels. This questionnaire is an internationally standardized tool known as the STAI questionnaire that measures both overt (state) and covert (trait) anxiety [ 22 ]. The state anxiety scale (Form Y-1 of STAI) comprises twenty statements that assess the individual’s feelings at the moment of responding. The trait anxiety scale (Form Y-2 of STAI) also includes twenty statements that measure individuals’ general and typical feelings. The scores of each of the two scales ranged from 20 to 80 in the current study. The reliability coefficient of the test for the apparent and hidden anxiety scales, based on Cronbach’s alpha, was confirmed to be 0.9084 and 0.9025, respectively [ 23 , 24 ]. Furthermore, in the present study, Cronbach’s alpha value for the total anxiety questionnaire, overt anxiety, and covert anxiety scales were 0.935, 0.921, and 0.760, respectively.
Acceptance and satisfaction questionnaire
The Acceptability and Satisfaction Questionnaire for Clinical Competency Test was developed by Farajpour et al. (2012). The student questionnaire consists of ten questions, and the professor questionnaire consists of eleven questions, using a four-point Likert scale. Experts have confirmed the validity of these questionnaires, and their Cronbach’s alpha coefficients have been determined to be 0.85 and 0.87 for the professor and student questionnaires, respectively [ 6 ]. In the current study, ten medical education experts also confirmed the validity of the questionnaires. Regarding internal reliability, Cronbach’s alpha coefficients for the student satisfaction questionnaire for both virtual and in-person sections were 0.76 and 0.87, respectively. The professor satisfaction questionnaires were 0.84 and 0.87, respectively. An online platform was used to collect data for the virtual exam.
Data analysis and rigor of study
Qualitative data analysis was conducted using the method proposed by Graneheim and Lundman. Additionally, the criteria established by Lincoln and Guba (1985) were employed to confirm the rigor and validity of the data, including credibility, transferability, dependability, and confirmability [ 26 ].
In this research, data synthesis was performed by combining the collected data with various tools and methods. The findings of this study were reviewed and confirmed by participants, supervisors, mentors, and experts in qualitative research, reflecting their opinions on the alignment of findings with their experiences and perspectives on clinical competence examinations. Therefore, the member check method was used to validate credibility.
Moreover, efforts were made in this study to provide a comprehensive description of the research steps, create a suitable context for implementation, assess the views of others, and ensure the transferability of the results.
Furthermore, researchers’ interest in identifying and describing problems, reflecting, designing, implementing, and evaluating clinical competence examinations, along with the engagement of stakeholders in these examinations, was ensured by the researchers’ long-term engagement of over 25 years with the environment and stakeholders, seeking their opinions and considering their ideas and views. These factors contributed to ensuring confirmability.
In this research, by reflecting the results to the participants and making revisions by the researchers, problem clarification and solution presentation, design, implementation, and evaluation of operational programs with stakeholder participation and continuous presence were attempted to prevent biases, assumptions, and research hypotheses, and to confirm dependability.
Data analysis was performed using SPSS version 21, and descriptive statistical tests (absolute and relative frequency, mean, and standard deviation) and inferential tests (paired t-test, independent t-test, and analysis of variance) were used. The significance level was set at 0.05. Parametric tests were used based on the normality of the data according to the Kolmogorov-Smirnov statistical test.
Given that conducting the CCE for final-year nursing students required the active participation of managers, faculty members, staff, and students, and to answer the research question “How can the CCE for final-year nursing students be conducted?” and achieve the research objective of “designing, implementing, and evaluating the clinical competency exam,” the action research method was employed.
The present study was conducted based on the Dickens & Watkins model. There are four primary stages (Fig. 1 ) in the cyclical action research process: reflect, plan, act, observe, and then reflect to continue through the cycle [ 27 ].
The cyclical process of action research [ 27 ]
Stage 1: Reflection
Identification of the problem.
According to the educational regulations, final semester nursing students must complete the clinical competency exam. However, due to the COVID-19 pandemic and the critical situation in most provinces, inter-city travel restrictions, and insufficient dormitory space, conducting the CCE in-person was not feasible.
This exam was conducted virtually at our institution. However, based on the reflections from experts, researchers have found that virtual exams can only partially assess clinical and practical skills in certain stations, such as basic skills, resuscitation, and pediatrics. Furthermore, utilizing Objective Structured Clinical Examination (OSCE) in skills assessment facilitates the evaluation of psychomotor skills, knowledge, and attitudes, aiding in identifying strengths and weaknesses.
P3, “Due to the COVID-19 pandemic and the critical situation in most provinces, inter-city travel restrictions, and insufficient dormitory space, conducting the CCE in-person is not feasible.”
Stage 2: Planning
Based on the reflections gathered from the participants, the exam was designed using a blended approach (combining in-person and virtual components) as per the schedule outlined in Fig. 2 . All planned activities for the blended CCE for final-year nursing students were executed over two semesters.
P5, “Taking the exam virtually might seem easier for us and the students, but in my opinion, it’s not realistic. For instance, performing wound dressing or airway management is very practical, and it’s not possible to assess students with a virtual scenario. We need to see them in person.”
P6"I believe it’s better to conduct those activities that are highly practical in person, but for those involving communication skills like report writing, professional ethics, etc., we can opt for virtual assessment.”
Design and implementation of the blended CCE
Stage 3: Act
Cce implementation steps.
The CCE was conducted based on the flowchart in Fig. 3 and the following steps:
Steps for conducting the CCE for final-year nursing students using a blended method
Step 1: Designing the framework for conducting the blended Clinical Competency Examination
The panelists were guided to design the blended exam in focused group sessions and virtual panels based on the ADDIE (Analysis, Design, Development, Implementation, Evaluation) model [ 28 ]. Initially, needs assessment and opinion polling were conducted, followed by the operational planning of the exam, including the design of the blueprint table (Table 1 ), determination of station types (in-person or virtual), designing question stems in the form of scenarios, creating checklists and station procedure guides by expert panel groups based on participant analysis, and the development of exam implementation guidelines with participant input [ 27 ]. The design, execution, and evaluation were as follows:
In-person and virtual meetings with professors were held to determine the exam schedule, deadlines for submitting checklists, decision-making regarding the virtual or in-person nature of stations based on the type of skill (practical, communication), and presenting problems and solutions. Based on the decisions, primary skill stations, as well as cardiac and pediatric resuscitation stations, were held in person. In contrast, virtual stations for health, nursing ethics, nursing reports, nursing diagnosis, physical examinations, and psychiatric nursing were held.
News about the exam was communicated to students through the college website and text messages. Then, an online orientation session was held on Skype with students regarding the need assessment of pre-exam educational workshops, virtual and in-person exam standards, how to use exam software, how to conduct virtual exams, explaining the necessary infrastructure for participating in the exam by students, completing anxiety and satisfaction questionnaires, rules and regulations, how to deal with rejected individuals, and exam testing and Q&A. Additionally, a pre-exam in-person orientation session was held.
To inform students about the entire educational process, the resources and educational content recommended by the professors, including PDF files, photos and videos, instructions, and links, were shared through a virtual group on the social media messenger, and scientific information was also, questions were asked and answered through this platform.
Correspondence and necessary coordination were made with the university clinical skills center to conduct in-person workshops and exams.
Following the Test-centered approach, the Angoff Modified method [ 29 , 30 ] was used to determine the scoring criteria for each station by panelists tasked with assigning scores.
Additionally, in establishing standards for this blended CCE for fourth-year nursing students, for whom graduation was a prerequisite, the panelists, as experienced clinical educators familiar with the performance and future roles of these students and the assessment method of the blended exam, were involved [ 29 , 30 ](Table 1 ).
Step 2: Preparing the necessary infrastructure for conducting the exam
Software infrastructure.
The pre- and post-virtual exam questions, scenarios, and questionnaires were uploaded using online software.
The exam was conducted on a trial basis in multiple sessions with the participation of several faculty members, and any issues were addressed. Students were authenticated to enter the exam environment via email and personal information verification. The questions for each station were designed and entered into the software by the respective station instructors and the examination coordinator, who facilitated the exam. The questions were formatted as clinical scenarios, images, descriptive questions, and multiple-choice questions, emphasizing the clinical and practical aspects. This software had various features for administering different types of exams and various question formats, including multiple-choice, descriptive, scenario-based, image-based, video-based, matching, Excel output, and graphical and descriptive statistical analyses. It also had automatic questionnaire completion, notification emails, score addition to questionnaires, prevention of multiple answer submissions, and the ability to upload files up to 4 gigabytes. Student authentication was based on national identification numbers and student IDs, serving as user IDs and passwords. Students could enter the exam environment using their email and multi-level personal information verification. If the information did not match, individuals could not access the exam environment.
Checklists and questionnaires
A student list was prepared, and checklists for the in-person exam and anxiety and satisfaction questionnaires were reproduced.
Empowerment workshops for professors and education staff
Educational needs of faculty members and academic staff include conducting clinical competency exams using the OSCE method; simulating and evaluating OSCE exams; designing standardized questions, checklists, and scenarios; innovative approaches in clinical evaluations; designing physical spaces and setting up stations; and assessing ethics and professional commitment in clinical competency exams.
Student empowerment programs
According to the students’ needs assessment results, in-person workshops on cardiopulmonary resuscitation and airway management and online workshops were held on health, pediatrics, cardiopulmonary resuscitation, ethics, nursing diagnosis, and report writing through Skype messenger. In addition, vaccination notes, psychiatric nursing, and educational files on clinical examinations and basic skills were recorded by instructors and made available to students via virtual groups.
Step 3: CCE implementation
The CCE was held in two parts, in-person and virtual.
In-person exam
The OSCE method was used for this section of the exam. The basic skills station exam included dressing and injections, and the CPR and pediatrics stations were conducted in person. The students were divided into two groups of 21 each semester, and the exam was held in two shifts. While adhering to quarantine protocols, the students performed the procedures for seven minutes at each station, and instructors evaluated them using a checklist. An additional minute was allotted for transitioning to the next station.
Virtual exam
The professional ethics, nursing diagnosis, nursing report, health, psychiatric nursing, and physical examination stations were conducted virtually after the in-person exam. This exam was made available to students via a primary and a secondary link in a virtual space at the scheduled time. Students were first verified, and after the specified time elapsed, the ability to respond to inactive questions and submitted answers was sent. During the exam, full support was provided by the examination center.
The examination coordinator conducted the entire virtual exam process. The exam results were announced 48 h after the exam. A passing grade was considered to be a score higher than 60% in all stations. Students who failed in various stations were given the opportunity for remediation based on faculty feedback, either through additional study or participation in educational workshops. Subsequent exams were held one week apart from the initial exam. It was stipulated that students who failed in more than half of the stations would be evaluated in the following semester. If they failed in more than three sessions at a station, a decision would be made by the faculty’s educational council. However, no students met these situations.
Step 4: Evaluation
The evaluation of the exam was conducted by examiners using a checklist, and the results were announced as pass or fail.
Stage 4: Observation / evaluation
In this study, both process and outcome evaluations were conducted:
Process evaluation
All programs and activities implemented during the test design and administration process were evaluated in the process evaluation. This evaluation was based on operational program control and reflections received from participants through group discussion sessions and virtual groups.
Sample reflections received from faculty members, managers, experts, and students through group discussions and social messaging platforms after the changes:
P7: “The implementation of the blended virtual exam, in the conditions of the COVID-19 crisis where the possibility of holding in-person exams was not fully available, in my opinion, was able to improve the quality of exam administration and address the limitations and weaknesses of the exam entirely virtually.”
P5: “In my opinion, this blended method was able to better evaluate students in terms of clinical readiness for entering clinical practice.”
Outcomes evaluation
The study outcomes were student anxiety, student acceptance and satisfaction, and faculty acceptance and satisfaction. Before the start of the in-person and virtual exams, the Spielberger Anxiety Questionnaire was provided to students. Additionally, immediately after the exam, students and instructors completed the acceptance and satisfaction questionnaire for the relevant section. After the exam, students and instructors completed the acceptance and satisfaction questionnaire again for the entire exam process, including feasibility, satisfaction with its implementation, and educational impact.
Design framework and implementation for the blended Clinical Competency Examination
The exam was planned using a blended method (part in-person, part virtual) according to the Fig. 2 schedule, and all planned programs for the blended CCE for final-year nursing students were implemented in two semesters.
Evaluation results
In this study, 84 final-year nursing students participated, including 37 females (44.05%) and 47 males (55.95%). Among them, 28 (33.3%) were dormitory residents, and 56 (66.7%) were non-dormitory residents.
In this study, both process and outcome evaluations were conducted.
All programs and activities implemented during the test design and administration process were evaluated in the process evaluation (Table 2 ). This evaluation was based on operational program control and reflections received from participants through group discussion sessions and virtual groups on social media.
Anxiety and satisfaction were examined and evaluated as study outcomes, and the results are presented below.
The paired t-test results in Table 3 showed no statistically significant difference in overt anxiety ( p = 0.56), covert anxiety ( p = 0.13), and total anxiety scores ( p = 0.167) between the in-person and virtual sections before the blended Clinical Competency Examination.
However, the mean (SD) of overt anxiety in persons in males and females was 49.27 (11.16) and 43.63 (13.60), respectively, and this difference was statistically significant ( p = 0.03). Also, the mean (SD) of overt virtual anxiety in males and females was 45.70 (11.88) and 51.00 (9.51), respectively, and this difference was statistically significant ( p = 0.03). However, there was no significant difference between males and females regarding covert anxiety in the person ( p = 0.94) and virtual ( p = 0.60) sections. In addition, the highest percentage of overt anxiety was apparent in the virtual section among women (15.40%) and the in-person section among men (21.28%) and was prevalent at a moderate to high level.
According to Table 4 , One-way analysis of variance showed a significant difference between the virtual, in-person, and blended sections in terms of acceptance and satisfaction scores.
The results of the One-way analysis of variance showed that the mean (SD) acceptance and satisfaction scores of nursing students of the CCE in virtual, in-person, and blended sections were 25.49 (4.73), 27.60 (4.70), and 25.57 (4.97) out of 30, respectively. There was a significant difference between the three sections ( p = 0.008).
In addition, 3 (7.23%) male and 10 (76.3%) female faculty members participated in this study; of this number, 2 (15.38%) were instructors, and 11 (84.62%) were assistant professors. Moreover, they were between 29 and 50 years old, with a mean (SD) of 41.37 (6.27). Furthermore, they had 4 to 20 years of work experience with a mean and standard deviation of 13.22(4.43).
The results of the analysis of variance showed that the mean (SD) acceptance and satisfaction scores of faculty members of the CCE in virtual, in-person, and blended sections were 30.31 (4.47), 29.86 (3.94), and 30.00 (4.16) out of 33, respectively. There was no significant difference between the three sections ( p = 0.864).
This action research study showed that the blended CCE for nursing students is feasible and, depending on the conditions and objectives, evaluation stations can be designed and implemented virtually or in person.
The blended exam, combining in-person and virtual elements, managed to address some of the weaknesses of entirely virtual exams conducted in previous terms due to the COVID-19 pandemic. Given the pandemic conditions, the possibility of performing all in-person stations was not feasible due to the risk of students and evaluators contracting the virus, as well as the need for prolonged quarantine. Additionally, to meet the staffing needs of hospitals, nursing students needed to graduate. By implementing the blended exam idea and conducting in-person evaluations at clinical stations, the assessment of nursing students’ clinical competence was brought closer to reality compared to the entirely virtual method.
Furthermore, the need for human resources, station setup costs, and time spent was less than the entirely in-person method. Therefore, in pandemics or conditions where sufficient financial resources and human resources are not available, the blended approach can be utilized.
Additionally, the evaluation results showed that students’ total and overt anxiety in both virtual and in-person sections of the blended CCE did not differ significantly. However, the overt anxiety of female students in the virtual section and male students in the in-person section was considerably higher. Nevertheless, students’ covert anxiety related to personal characteristics did not differ in virtual and in-person exam sections. However, students’ acceptance and satisfaction in the in-person section were higher than in the virtual and blended sections, with a significant difference. The acceptance and satisfaction of faculty members from the CCE in in-person, virtual, and blended sections were the same and relatively high.
A blended CCE nursing competency exam was not found in the literature review. However, recent studies, especially during the COVID-19 pandemic, have designed and implemented this exam using virtual OSCE. Previously, the CCE was held in-person or through traditional OSCE methods.
During the COVID-19 pandemic, nursing schools worldwide faced difficulties administering clinical competency exams for students. The virtual simulation was used to evaluate clinical competency and develop nursing students’ clinical skills in the United States, including standard videos, home videos, and clinical scenarios. Additionally, an online virtual simulation program was designed to assess the clinical competency of senior nursing students in Hong Kong as a potential alternative to traditional clinical training [ 31 ].
A traditional in-person OSCE was also redesigned and developed through a virtual conferencing platform for nursing students at the University of Texas Medical Branch in Galveston. Survey findings showed that most professors and students considered virtual OSCE a highly effective tool for evaluating communication skills, obtaining a medical history, making differential diagnoses, and managing patients. However, professors noted that evaluating examination techniques in a virtual environment is challenging [ 32 ].
However, Biranvand reported that less than half of the nursing students believed the in-person OSCE was stressful [ 33 ]. At the same time, the results of another study showed that 96.2% of nursing students perceived the exam as anxiety-provoking [ 1 ]. Students believe that the stress of this exam is primarily related to exam time, complexity, and the execution of techniques, as well as confusion about exam methods [ 7 ]. In contrast to previous research results, in a study conducted in Egypt, 75% of students reported that the OSCE method has less stress than other examination methods [ 9 ]. However, there has yet to be a consensus across studies on the causes and extent of anxiety-provoking in the OSCE exam. In a study, the researchers found that in addition to the factors mentioned above, the evaluator’s presence could also be a cause of stress [ 34 ]. Another survey study showed that students perceived the OSCE method as more stressful than the traditional method, mainly due to the large number of stations, exam items, and time constraints [ 7 ]. Another study in Egypt, which designed two stages of the OSCE exam for 75 nursing students, found that 65.6% of students reported that the second stage exam was stressful due to the problem-solving station. In contrast, only 38.9% of participants considered the first-stage exam stressful [ 35 ]. Given that various studies have reported anxiety as one of the disadvantages of the OSCE exam, in this study, one of the outcomes evaluated was the anxiety of final-year nursing students. There was no significant difference in total anxiety and overt anxiety between students in the in-person and virtual sections of the blended Clinical Competency Examination. The overt anxiety was higher in male students in the in-person part and female students in the virtual section, which may be due to their personality traits, but further research is needed to confirm this. Moreover, since students’ total and overt anxiety in the in-person and virtual sections of the exam are the same in resource and workforce shortages or pandemics, the blended CCE is suggested as a suitable alternative to the traditional OSCE test. However, for generalization of the results, it is recommended that future studies consider three intervention groups, where all OSCE stations are conducted virtually in the first group, in-person in the second group, and a blend of in-person and virtual in the third group. Furthermore, the results of the study by Rafati et al. showed that the use of the OSCE clinical competency exam using the OSCE method is acceptable, valid, and reliable for assessing nursing skills, as 50% of the students were delighted, and 34.6% were relatively satisfied with the OSCE clinical competency exam. Additionally, 57.7% of the students believed the exam revealed learning weaknesses [ 1 ]. Another survey study showed that despite higher anxiety about the OSCE exam, students thought that this exam provides equal opportunities for everyone, is less complicated than the traditional method, and encourages the active participation of students [ 7 ]. In another study on maternal and infant care, 95% of the students believed the traditional exam only evaluates memory or practical skills. In contrast, the OSCE exam assesses knowledge, understanding, cognitive and analytical skills, communication, and emotional skills. They believed that explicit evaluation goals, appropriate implementation guidelines, appropriate scheduling, wearing uniforms, equipping the workroom, evaluating many skills, and providing fast feedback are among the advantages of this exam [ 36 ]. Moreover, in a survey study, most students were satisfied with the clinical environment offered by the OSCE CCE using the OSCE method, which is close to reality and involves a hypothetical patient in necessary situations that increase work safety. On the other hand, factors such as the scheduling of stations and time constraints have led to dissatisfaction among students [ 37 ].
Furthermore, another study showed that virtual simulations effectively improve students’ skills in tracheostomy suctioning, triage concepts, evaluation, life-saving interventions, clinical reasoning skills, clinical judgment skills, intravenous catheterization skills, role-based nursing care, individual readiness, critical thinking, reducing anxiety levels, and increasing confidence in the laboratory, clinical nursing education, interactive communication, and health evaluation skills. In addition to knowledge and skills, new findings indicate that virtual simulations can increase confidence, change attitudes and behaviors, and be an innovative, flexible, and hopeful approach for new nurses and nursing students [ 38 ].
Various studies have evaluated the satisfaction of students and faculty members with the OSCE Clinical Competency Examination. In this study, one of the evaluated outcomes was the acceptability and satisfaction of students and faculty members with implementing the CCE in blended, virtual, and in-person sections, which was relatively high and consistent with other studies. One crucial factor that influenced the satisfaction of this study was the provision of virtual justification sessions for students and coordination sessions with faculty members. Social messaging groups were formed through virtual and in-person communication, instructions were explained, expectations and tasks were clarified, and questions were answered. Students and faculty members could access the required information with minimal presence in medical education centers and time and cost constraints. Moreover, with the blended evaluation, the researcher’s communication with participants was more accessible. The written guidelines and uploaded educational content of the workshops enabled students to save the desired topics and review them later if needed. Students had easy access to scientific and up-to-date information, and the application of social messengers and Skype allowed for sending photos and videos, conducting workshops, and questions and answering questions. However, the clinical workshops and examinations were held in-person to ensure accuracy. The virtual part of the examination was conducted through online software, and questions focused on each station’s clinical and practical aspects. Students answered various questions, including multiple-choice, descriptive, scenario, picture, and puzzle questions, within a specified time. The blended examination evaluated clinical competency and did not delay these individuals’ entry into the job market. Moreover, during the severe human resource shortage faced by the healthcare system, the examination allowed several nurses to enter the country’s healthcare system. The blended examination can substitute in-person examination in pandemic and non-pandemic situations, saving facilities, equipment, and human resources. The results of this study can also serve as a model to guide other nursing departments that require appropriate planning and arrangements for Conducting Clinical Competency Examinations in blended formats. This examination can also be developed to evaluate students’ clinical performance.
One of the practical limitations of the study was the possibility that participants might need to complete the questionnaires accurately or be concerned about losing marks. Therefore, in a virtual session before the in-person exam, the objectives and importance of the study were explained. Participants were assured that it would not affect their evaluation and that they should not worry about losing marks. Additionally, active participation from all nursing students, faculty members, and staff was necessary for implementing this plan, achieved through prior coordination, virtual meetings, virtual group formation, and continuous reflection of results, creating the motivation for continued collaboration and participation.
Among other limitations of this study included the use of the Spielberger Anxiety Questionnaire to measure students’ anxiety. It is suggested that future studies use a dedicated anxiety questionnaire designed explicitly for pre-exam anxiety measurement. Another limitation of the current research was its implementation in nursing and midwifery faculty. Therefore, it is recommended that similar studies be conducted in nursing and midwifery faculties of other universities, as well as in related fields, and over multiple consecutive semesters. Additionally, for more precise effectiveness assessment, intervention studies in three separate virtual, in-person, and hybrid groups using electronic checklists are proposed. Furthermore, it is recommended that students be evaluated in terms of other dimensions and variables such as awareness, clinical skill acquisition, self-confidence, and self-efficacy.
Conducting in-person Clinical Competency Examination (CCE) during critical situations, such as the COVID-19 pandemic, is challenging. Instead of virtual exams, blended evaluation is a feasible approach to overcome the shortages of virtual ones and closely mimic in-person scenarios. Using a blended method in pandemics or resource shortages, it is possible to design, implement, and evaluate stations that evaluate basic and advanced clinical skills in in-person section, as well as stations that focus on communication, reporting, nursing diagnosis, professional ethics, mental health, and community health based on scenarios in a virtual section, and replace traditional OSCE exams. Furthermore, the use of patient simulators, virtual reality, virtual practice, and the development of virtual and in-person training infrastructure to improve the quality of clinical education and evaluation and obtain the necessary clinical competencies for students is recommended. Also, since few studies have been conducted using the blended method, it is suggested that future research be conducted in three intervention groups, over longer semesters, based on clinical evaluation models and influential on other outcomes such as awareness and clinical skill acquisition self-efficacy, confidence, obtained grades, and estimation of material and human resources costs. This approach reduced the need for physical space for in-person exams, ensuring participant quarantine and health safety with higher quality. Additionally, a more accurate assessment of nursing students’ practical abilities was achieved compared to a solely virtual exam.
Data availability
The datasets generated and analyzed during the current study are available on request from the corresponding author.
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Acknowledgements
We want to thank the Research and Technology deputy of Smart University of Medical Sciences, Tehran, Iran, the faculty members, staff, and officials of the School of Nursing and Midwifery, Lorestan University of Medical Sciences, Khorramabad, Iran, and all individuals who participated in this study.
All steps of the study, including study design and data collection, analysis, interpretation, and manuscript drafting, were supported by the Deputy of Research of Smart University of Medical Sciences.
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RM. Participating in study design, accrual of study participants, review of the manuscript, and critical revisions for important intellectual content. TT : The investigator; participated in study design, data collection, accrual of study participants, and writing and reviewing the manuscript. AM: Participating in study design, data analysis, accrual of study participants, and reviewing the manuscript. All authors read and approved the final version of the manuscript.
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This action research was conducted following the participatory method. All methods were performed according to the relevant guidelines and regulations in the Declaration of Helsinki (ethics approval and consent to participate). The study’s aims and procedures were explained to all participants, and necessary assurance was given to them for the anonymity and confidentiality of their information. The results were continuously provided as feedback to the participants. Informed consent (explaining the goals and methods of the study) was obtained from participants. The Smart University of Medical Sciences Ethics Committee approved the study protocol (IR.VUMS.REC.1400.011).
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Mojtahedzadeh, R., Toulabi, T. & Mohammadi, A. The design, implementation, and evaluation of a blended (in-person and virtual) Clinical Competency Examination for final-year nursing students. BMC Med Educ 24 , 936 (2024). https://doi.org/10.1186/s12909-024-05935-9
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Published : 28 August 2024
DOI : https://doi.org/10.1186/s12909-024-05935-9
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By Leslie Streeter
The Washington State Conservation Commission has awarded researchers from Washington State University Tri-Cities $200,000 to test a new process for managing manure. It has the potential to decrease greenhouse gas emissions, while also making the process more economical for dairy farmers and improving cow health.
“The research funded by this grant will emphasize improvements in local and global agriculture by improving manure management,” said Birgitte Ahring, professor at WSU Tri-Cities , and an expert in biomass conversion and anaerobic digestion. “We are hoping with this research we can show value and solve some problems for dairy farmers.”
Methane from cow manure is a major contributor to greenhouse gases emitting both carbon dioxide and methane to the atmosphere. Currently many dairies manage manure by adding it to ponds or lagoons so it can be spread over crops as fertilizer during growing season. This method results in emission of greenhouse gases, and further lead to contamination of streams, rivers, and lakes.
Some large dairies recycle the manure solids by separating the solids before adding it to lagoons using a screw pressing process. These solids are then used as a bedding material for the cow sheds. However, this method has the potential to cause infection in the animals which decreases the quality and quantity of milk they produce.
Using anaerobic digestion to create biogas is another solution that some farmers have tried. While this method reduces the impact of the manure on the environment and creates a useful bioenergy source, the manure contains high levels of certain organic material, called recalcitrant lignocellulosic material, that impedes the amount of biogas that can be produced. Consequently, this affects the economics of anaerobic digestion and the efficiency of using it for managing manure, keeping many farmers from adopting it.
In the project Ahring and her research team will use an existing pre-treatment technology to open the biomass material and enhance the carbon conversion efficiency of anaerobic digestion. The expectation is that up to 100% more biogas will be produced resulting in up to 80% carbon conversion efficiency compared to maximum 50% for conventional anaerobic digestion. It is expected that this pre-treatment process will further sanitize the manure solids and make it safe as a bedding material. For testing the effect of pretreatment on infectious microbes, Ahring has partnered with Craig McConnell, associate professor at WSU Pullman and the director of the veterinary medicine extension.
The hope is that this solution for manure management will not only reduce methane and greenhouse gasses by producing renewable natural gas for the natural gas grid, but further enhance the economics of milk production by improving the health of cows and reducing infection in dairies, where manure solids are used as bedding.
As directed by the grant, Ahring and McConnell will disseminate the results from the project in June 2025 to Washington dairies, industries providing AD plants etc.
“It is our hope that if they can see how this new technology positively impacts their core business and offers both economic and environmental benefits, they will be positive toward future demonstrations and implementations,” Ahring said. The Washington State Conservation Commission works to conserve natural resources on all lands in Washington state, through voluntary and incentive-based programs, in collaboration with conservation districts and other partners.
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The research process has numerous applications across a wide range of fields and industries. Some examples of applications of the research process include: Scientific research: The research process is widely used in scientific research to investigate phenomena in the natural world and develop new theories or technologies. This includes fields ...
Step 4: Create a research design. The research design is a practical framework for answering your research questions. It involves making decisions about the type of data you need, the methods you'll use to collect and analyze it, and the location and timescale of your research. There are often many possible paths you can take to answering ...
Step 1: Identify the Problem. Finding an issue or formulating a research question is the first step. A well-defined research problem will guide the researcher through all stages of the research process, from setting objectives to choosing a technique. There are a number of approaches to get insight into a topic and gain a better understanding ...
The research process must be described in sufficient detail so as to allow other researchers to replicate your study, test the findings, or assess whether the inferences derived are scientifically acceptable. Of course, having a ready research proposal will greatly simplify and quicken the process of writing the finished report. Note that ...
Setting Research Questions, Objectives, and Hypotheses. Step #4: Choosing the Study Design. Deciding on the Sample Design. Collecting Data From The Research Sample. Process and Analyze the Collected Research Data. Writing Research Report - Developing Research Proposal, Writing Report, Disseminating and Utilizing Results.
The research process is a dynamic journey, characterized by a series of systematic research process steps designed to guide researchers successfully from inception to conclusion. Each step—from designing the study and collecting data to analyzing results and drawing conclusions—plays a critical role in ensuring the integrity and credibility ...
Research process refers to the systematic and organized series of steps taken to investigate and study a specific topic or problem in order to gain knowledge and find answers to questions. It is a methodical approach followed by researchers to collect, analyze, and interpret data to arrive at meaningful conclusions and contribute to the ...
as researchers would design and carry out research in order to fi nd evidence to help us answer such questions. Deriving Research Hypotheses In Figure 1.1 you can see one possible conceptualisation of the research process. Usually a researcher has some experience of the research in a particular fi eld, whether it be research
Writing your masters thesis or doctoral dissertation can be a daunting task. Writing the Winning Thesis or Dissertation, Second Edition demystifies the process, helping you prepare your scholarly work. This experience-based, practical book takes you through the process one step at a time!
Iterative Process: Research is often an iterative process, with findings from one study leading to new questions and further research. It is a continuous cycle of discovery and refinement. Practical Application: While some research is theoretical in nature, much of it aims to have practical applications and real-world implications. It can ...
Placing research in the bigger context of its field and where it fits into the scientific process can help people better understand and interpret new findings as they emerge. A single study usually uncovers only a piece of a larger puzzle. Questions about how the world works are often investigated on many different levels.
The Research Process. The research process is not a linear one. Every new item you research will have it's own path based on what knowledge you enter with, what information you require to complete your task, and the limitations of what is available to you. The process is also iterative, requiring you to go back and find new materials, try a ...
Step 8: Proofread. The final step in the process is to proofread the paper you have created. Read through the text and check for any errors in spelling, grammar, and punctuation. Make sure the sources you used are cited properly. Make sure the message that you want to get across to the reader has been thoroughly stated.
The five (5) steps in the research process are: [1] Step 1: Locating and Defining Issues or Problems - Understanding the questions that need to be answered or studied. Step 2: Designing the Research Project - Creating a research plan. Step 3: Collecting Data - Obtaining the information needed to solve the identified issue or problem.
1. Identify the project topic. A successful research process often begins with a clearly defined intent for the research project. You can focus on a topic in nearly any field of study, as the research process broadly applies across all academic and professional fields. The more precisely you identify the topic for your research, the more ...
Scientific publication is an organic process of planning, researching, drafting, revising, and updating the current knowledge for future perspectives. Writing a research paper is no easier than the research itself. The lectures of Day 2 of the workshop dealt with the basic elements and logistics of writing a scientific paper.
Discover the essential steps of the research process in this beginner's guide. Learn how to choose a research topic, identify gaps in literature, formulate research questions, design your study, and write a compelling research proposal. Perfect for students and researchers at any stage.
The research process is a continuous cycle. Research does not follow a one-way linear progression; rather, it is a continuous process of checking and re-checking, evaluating and analyzing, and repeating the entire process over and over again. While painstaking, the research process is enables writers to become subject matter experts and draft a ...
How to Research: 5 Steps in the Research Process. Written by MasterClass. Last updated: Mar 18, 2022 • 3 min read. Research is an essential process to keep yourself informed on any topic with reliable sources of information.
A typical research process comprises the following stages: 1. Selecting the research area. Your dissertation marker expects you to state that you have selected the research area due to professional and personal interests in the area and this statement must be true. Students often underestimate the importance of this first stage in the research ...
To ease your burden in doing research, here are the seven steps in the research process: 1. Identification of a research problem. A good research always starts with a good problem. You can observe people or things, visit places, read print materials, or consult experts to find the research problem that is right for you.
This short video tutorial will walk you through the seven basic steps of the research process.-- Created using PowToon -- Free sign up at http://www.powtoon....
While there are some differences in how these agencies solicit and choose proposals, there are many similarities: research teams submit proposals in response to a posted research and development opportunity. The organization chooses which to fund. All successful projects must meet performance milestones for funding to continue.
Workshops to advance your knowledge and skills in the methodology and tools to improve your research process, search of the literature and manage data will be offered again this semester by the University Libraries' Research Partnerships librarians. Many of the workshops are offered online, while a few are still offered in-person.
In some types of research, at this stage you might also have to develop a conceptual framework and testable hypotheses. >>See research question examples. Step 4: Create a research design. The research design is a practical framework for answering your research questions. It involves making decisions about the type of data you need, the methods ...
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Employing an Action Research (AR) approach, a blend of online and in-person exam modalities was adopted. Necessary changes were implemented through a cyclic process involving problem identification, program design, implementation, reflection, and continuous evaluation. The research began by posing the following questions:
"The research funded by this grant will emphasize improvements in local and global agriculture by improving manure management," said Birgitte Ahring, ... It is expected that this pre-treatment process will further sanitize the manure solids and make it safe as a bedding material. For testing the effect of pretreatment on infectious microbes ...