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# Probability And Non Probability Sampling Techniques Pdf

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*In statistics, sampling is when researchers determine a representative segment of a larger population that is then used to conduct a study.*

- Nonprobability Sampling
- Sampling in epidemiological research: issues, hazards and pitfalls
- Non-Probability Sampling: Definition, types, Examples, and advantages
- The Methods of Probability Sampling

Non-probability sampling represents a group of sampling techniques that help researchers to select units from a population that they are interested in studying. Collectively, these units form the sample that the researcher studies [see our article, Sampling: The basics , to learn more about terms such as unit , sample and population ]. A core characteristic of non-probability sampling techniques is that samples are selected based on the subjective judgement of the researcher, rather than random selection i.

Whilst some researchers may view non-probabilit y sampling techniques as inferior to probability sampling techniques, there are strong theoretical and practical reasons for their use. This article discusses the principles of non-probability sampling and briefly sets out the types of non-probability sampling technique discussed in detail in other articles within this site.

The article is divided into two sections: principles of non-probability sampling and types of non-probability sampling :. There are theoretical and practical reasons for using non-probability sampling. In addition, you need to decide whether non-probability sampling is appropriate based on the research strategy you have chosen to guide your dissertation.

Non-probability sampling represents a valuable group of sampling techniques that can be used in research that follows qualitative , mixed methods , and even quantitative research designs. Despite this, for researchers following a quantitative research design , non-probability sampling techniques can often be viewed as an inferior alternative to probability sampling techniques. Non-probability sampling techniques can often be viewed in such a way because units are not selected for inclusion in a sample based on random selection, unlike probability sampling techniques.

As a result, researchers following a quantitative research design often feel that they are forced to use non-probability sampling techniques because of some inability to use probability sampling e. However, this is not the case for researchers following a qualitative research design. When following a qualitative research design , non-probability sampling techniques, such as purposive sampling , can provide researchers with strong theoretical reasons for their choice of units or cases to be included in their sample.

Rather than using probabilistic methods i. Unlike probability sampling, the goal is not to achieve objectivity in the selection of samples, or necessarily attempt to make generalisations i.

Instead, researchers following a qualitative research design tend to be interested in the intricacies of the sample being studied. Whilst making generalisations from the sample to the population under study may be desirable, it is more often a secondary consideration. Even whether this is desired, there are additional problems of bias and transferability or validity [see the section on Research Quality for more information on research strategies, sampling techniques, and bias ].

Non-probability sampling is often used because the procedures used to select units for inclusion in a sample are much easier , quicker and cheaper when compared with probability sampling. This is especially the case for convenience sampling. For students doing dissertations at the undergraduate and master's level, such practicalities often lead to the use of non-probability sampling techniques.

As mentioned, for researchers following a quantitative research design, non-probability sampling techniques can often be viewed as an inferior alternative to probability sampling techniques.

However, where it is not possible to use probability sampling, non-probability sampling at least provides a viable alternative that can be used. This could significantly diminish the potential for researchers to study certain types of population, such as those populations that are hidden or hard-to-reach e.

Here, snowball sampling , a type of non-probability sampling technique, provides a solution. Non-probability sampling can also be particularly useful in exploratory research where the aim is to find out if a problem or issue even exists in a quick and inexpensive way. After all, you may have a theory that such a problem or issue exists, but there is limited or no research that currently supports such a theory.

Where your main desire is to find out is if such a problem or issue even exists, the potential sampling bias of certain non-probability sampling techniques can be used as a tool to help you.

For example, you may choose to select only those units to be included in your sample that you feel will exhibit the problem or issue you are interested in finding. If this problem or issue does not exist even in your biased sample , it is unlikely to be present if you selected a relatively unbiased sample whether using another non-probability sampling technique; or even a probability sampling technique.

This would help you to avoid a potentially more time consuming and expensive piece of research looking into a potential problem or issue that actually doesn't exist. It may also be considered an ethical approach to finding out whether a problem or issue is worth examining in more depth, since fewer participants are subjected to a research project unnecessarily.

If you are considering whether to use non-probability sampling, it is important to consider how your choice of research strategy will influence whether this is an appropriate decision. Even if you know that non-probability sampling fits with the research strategy guiding your dissertation, it is important to choose the appropriate type of non-probability sampling techniques. These non-probability sampling techniques are briefly set out in the next section.

There are five types of non-probability sampling technique that you may use when doing a dissertation at the undergraduate and master's level: quota sampling , convenience sampling , purposive sampling , self-selection sampling and snowball sampling.

To get a sense of what these five types of non-probability sampling technique are, imagine that a researcher wants to understand more about the career goals of students at a single university. Let's say that the university has roughly 10, students. These 10, students are our population N. Each of the 10, students is known as a unit although sometimes other terms are used to describe a unit; see Sampling: The basics. In order to select a sample n of students from this population of 10, students, we could choose to use quota sampling , convenience sampling , purposive sampling , self-selection sampling and snowball sampling :.

With proportional quota sampling , the aim is to end up with a sample where the strata groups being studied e. If we were to examine the differences in male and female students, for example, the number of students from each group that we would include in the sample would be based on the proportion of male and female students amongst the 10, university students.

To understand more about quota sampling, how to create a quota sample, and the advantages and disadvantages of this non-probability sampling technique, see the article: Quota sampling.

A convenience sample is simply one where the units that are selected for inclusion in the sample are the easiest to access. In our example of the 10, university students, if we were only interested in achieving a sample size of say students, we may simply stand at one of the main entrances to campus, where it would be easy to invite the many students that pass by to take part in the research.

To understand more about convenience sampling, how to create a convenience sample, and the advantages and disadvantages of this non-probability sampling technique, see the article: Convenience sampling. Purposive sampling, also known as judgmental , selective or subjective sampling , reflects a group of sampling techniques that rely on the judgement of the researcher when it comes to selecting the units e. These purposive sampling techniques include maximum variation sampling , homogeneous sampling, typical case sampling , extreme or deviant case sampling , total population sampling and expert sampling.

Each of these purposive sampling techniques has a specific goal, focusing on certain types of units, all for different reasons. The different purposive sampling techniques can either be used on their own or in combination with other purposive sampling techniques.

To understand more about purposive sampling, the different types of purposive sampling, and the advantages and disadvantages of this non-probability sampling technique, see the article: Purposive sampling. Self-selection sampling is appropriate when we want to allow units or cases, whether individuals or organisations, to choose to take part in research on their own accord. The key component is that research subjects or organisations volunteer to take part in the research rather than being approached by the researcher directly.

To understand more about self-selection sampling, how to create a self-selection sample, and the advantages and disadvantages of this non-probability sampling technique, see the article: Self-selection sampling. To understand more about snowball sampling, how to create a snowball sample, and the advantages and disadvantages of this non-probability sampling technique, see the article: Snowball sampling.

Non-probability sampling Non-probability sampling represents a group of sampling techniques that help researchers to select units from a population that they are interested in studying. Principles of non-probability sampling Types of non-probability sampling. Principles of non-probability sampling There are theoretical and practical reasons for using non-probability sampling.

Theoretical reasons Non-probability sampling represents a valuable group of sampling techniques that can be used in research that follows qualitative , mixed methods , and even quantitative research designs. Practical reasons Non-probability sampling is often used because the procedures used to select units for inclusion in a sample are much easier , quicker and cheaper when compared with probability sampling.

Deciding whether non-probability sampling is appropriate If you are considering whether to use non-probability sampling, it is important to consider how your choice of research strategy will influence whether this is an appropriate decision.

Types of non-probability sampling There are five types of non-probability sampling technique that you may use when doing a dissertation at the undergraduate and master's level: quota sampling , convenience sampling , purposive sampling , self-selection sampling and snowball sampling. Quota sampling Convenience sampling Purposive sampling Self-selection sampling Snowball sampling.

In order to select a sample n of students from this population of 10, students, we could choose to use quota sampling , convenience sampling , purposive sampling , self-selection sampling and snowball sampling : Quota sampling With proportional quota sampling , the aim is to end up with a sample where the strata groups being studied e.

Convenience sampling A convenience sample is simply one where the units that are selected for inclusion in the sample are the easiest to access. Purposive sampling Purposive sampling, also known as judgmental , selective or subjective sampling , reflects a group of sampling techniques that rely on the judgement of the researcher when it comes to selecting the units e.

Self-selection sampling Self-selection sampling is appropriate when we want to allow units or cases, whether individuals or organisations, to choose to take part in research on their own accord.

The difference between nonprobability and probability sampling is that nonprobability sampling does not involve random selection and probability sampling does. Not necessarily. But it does mean that nonprobability samples cannot depend upon the rationale of probability theory. At least with a probabilistic sample, we know the odds or probability that we have represented the population well. We are able to estimate confidence intervals for the statistic. In general, researchers prefer probabilistic or random sampling methods over nonprobabilistic ones, and consider them to be more accurate and rigorous.

Survey data collection costs have risen to a point where many survey researchers and polling companies are abandoning large, expensive probability-based samples in favor of less expensive nonprobability samples. The empirical literature suggests this strategy may be suboptimal for multiple reasons, among them that probability samples tend to outperform nonprobability samples on accuracy when assessed against population benchmarks. However, nonprobability samples are often preferred due to convenience and costs.

Published on September 19, by Shona McCombes. Revised on February 25, Instead, you select a sample. The sample is the group of individuals who will actually participate in the research. To draw valid conclusions from your results, you have to carefully decide how you will select a sample that is representative of the group as a whole.

*Quantitative researchers are often interested in being able to make generalizations about groups larger than their study samples. While there are certainly instances when quantitative researchers rely on nonprobability samples e.*

Non-probability sampling represents a group of sampling techniques that help researchers to select units from a population that they are interested in studying. Collectively, these units form the sample that the researcher studies [see our article, Sampling: The basics , to learn more about terms such as unit , sample and population ]. A core characteristic of non-probability sampling techniques is that samples are selected based on the subjective judgement of the researcher, rather than random selection i. Whilst some researchers may view non-probabilit y sampling techniques as inferior to probability sampling techniques, there are strong theoretical and practical reasons for their use. This article discusses the principles of non-probability sampling and briefly sets out the types of non-probability sampling technique discussed in detail in other articles within this site. The article is divided into two sections: principles of non-probability sampling and types of non-probability sampling :. There are theoretical and practical reasons for using non-probability sampling.

Download a glossary of terms used in this course. Ensure that your research population is well defined. Targeting individuals, groups or objects outside of this population will lead to skewed or biased results. A sample is a set of objects, individuals or groups selected from the research population for the purpose of analysis or hypothesis testing. Samples are used in cases where it is not possible or practical to carry out a study of the whole research population a census.

Surveys of people's opinions are fraught with difficulties. It is easier to obtain information from those who respond to text messages or to emails than to attempt to obtain a representative sample. Samples of the population that are selected non-randomly in this way are termed convenience samples as they are easy to recruit. This introduces a sampling bias. Such non-probability samples have merit in many situations, but an epidemiological enquiry is of little value unless a random sample is obtained. If a sufficient number of those selected actually complete a survey, the results are likely to be representative of the population.

Further, we have also described various types of probability and non-probability sampling methods at large. The paper has been drafted to.

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