The 4 Types of Reliability in Research | Definitions & Examples

Reliability tells you how consistently a method measures something. When you apply the same method to the same sample under the same conditions, you should get the same results. If not, the method of measurement may be unreliable.

There are four main types of reliability. Each can be estimated by comparing different sets of results produced by the same method.

Type of reliability Measures the consistency of …
Test-retest The same test over time
Interrater The same test conducted by different people
Parallel forms Different versions of a test which are designed to be equivalent
Internal consistency The individual items of a test

Test-retest reliability

Test-retest reliability measures the consistency of results when you repeat the same test on the same sample at a different point in time. You use it when you are measuring something that you expect to stay constant in your sample.

Example: Test-retest reliability
A test of colour blindness for trainee pilot applicants should have high test-retest reliability, because colour blindness is a trait that does not change over time.

Why test-retest reliability is important

Many factors can influence your results at different points in time: for example, respondents might experience different moods, or external conditions might affect their ability to respond accurately.

Test-retest reliability can be used to assess how well a method resists these factors over time. The smaller the difference between the two sets of results, the higher the test-retest reliability.

How to measure test-retest reliability

To measure test-retest reliability, you conduct the same test on the same group of people at two different points in time. Then you calculate the correlation between the two sets of results.

Example: Test-retest reliability
You devise a questionnaire to measure the IQ of a group of participants (a property that is unlikely to change significantly over time). You administer the test two months apart to the same group of people, but the results are significantly different, so the test-retest reliability of the IQ questionnaire is low.

Improving test-retest reliability

  • When designing tests or questionnaires, try to formulate questions, statements, and tasks in a way that won’t be influenced by the mood or concentration of participants.
  • When planning your methods of data collection, try to minimise the influence of external factors, and make sure all samples are tested under the same conditions.
  • Remember that changes can be expected to occur in the participants over time, and take these into account.

Prevent plagiarism, run a free check.

Try for free

Interrater reliability

Inter-rater reliability (also called inter-observer reliability) measures the degree of agreement between different people observing or assessing the same thing. You use it when data is collected by researchers assigning ratings, scores or categories to one or more variables.

Example: Inter-rater reliability
In an observational study where a team of researchers collect data on classroom behaviour, interrater reliability is important: all the researchers should agree on how to categorise or rate different types of behaviour.

Why inter-rater reliability is important

People are subjective, so different observers’ perceptions of situations and phenomena naturally differ. Reliable research aims to minimise subjectivity as much as possible so that a different researcher could replicate the same results.

When designing the scale and criteria for data collection, it’s important to make sure that different people will rate the same variable consistently with minimal bias. This is especially important when there are multiple researchers involved in data collection or analysis.

How to measure inter-rater reliability

To measure inter-rater reliability, different researchers conduct the same measurement or observation on the same sample. Then you calculate the correlation between their different sets of results. If all the researchers give similar ratings, the test has high inter-rater reliability.

Example: Inter-rater reliability
A team of researchers observe the progress of wound healing in patients. To record the stages of healing, rating scales are used, with a set of criteria to assess various aspects of wounds. The results of different researchers assessing the same set of patients are compared, and there is a strong correlation between all sets of results, so the test has high inter-rater reliability.

Improving inter-rater reliability

  • Clearly define your variables and the methods that will be used to measure them.
  • Develop detailed, objective criteria for how the variables will be rated, counted, or categorised.
  • If multiple researchers are involved, ensure that they all have exactly the same information and training.

Parallel forms reliability

Parallel forms reliability measures the correlation between two equivalent versions of a test. You use it when you have two different assessment tools or sets of questions designed to measure the same thing.

Why parallel forms reliability is important

If you want to use multiple different versions of a test (for example, to avoid respondents repeating the same answers from memory), you first need to make sure that all the sets of questions or measurements give reliable results.

Example: Parallel forms reliability
In educational assessment, it is often necessary to create different versions of tests to ensure that students don’t have access to the questions in advance. Parallel forms reliability means that, if the same students take two different versions of a reading comprehension test, they should get similar results in both tests.

How to measure parallel forms reliability

The most common way to measure parallel forms reliability is to produce a large set of questions to evaluate the same thing, then divide these randomly into two question sets.

The same group of respondents answers both sets, and you calculate the correlation between the results. High correlation between the two indicates high parallel forms reliability.

Example: Parallel forms reliability
A set of questions is formulated to measure financial risk aversion in a group of respondents. The questions are randomly divided into two sets, and the respondents are randomly divided into two groups. Both groups take both tests: group A takes test A first, and group B takes test B first. The results of the two tests are compared, and the results are almost identical, indicating high parallel forms reliability.

Improving parallel forms reliability

  • Ensure that all questions or test items are based on the same theory and formulated to measure the same thing.

Internal consistency

Internal consistency assesses the correlation between multiple items in a test that are intended to measure the same construct.

You can calculate internal consistency without repeating the test or involving other researchers, so it’s a good way of assessing reliability when you only have one dataset.

Why internal consistency is important

When you devise a set of questions or ratings that will be combined into an overall score, you have to make sure that all of the items really do reflect the same thing. If responses to different items contradict one another, the test might be unreliable.

Example: Internal consistency
To measure customer satisfaction with an online store, you could create a questionnaire with a set of statements that respondents must agree or disagree with. Internal consistency tells you whether the statements are all reliable indicators of customer satisfaction.

How to measure internal consistency

Two common methods are used to measure internal consistency.

  • Average inter-item correlation: For a set of measures designed to assess the same construct, you calculate the correlation between the results of all possible pairs of items and then calculate the average.
  • Split-half reliability: You randomly split a set of measures into two sets. After testing the entire set on the respondents, you calculate the correlation between the two sets of responses.
Example: Internal consistency
A group of respondents are presented with a set of statements designed to measure optimistic and pessimistic mindsets. They must rate their agreement with each statement on a scale from 1 to 5. If the test is internally consistent, an optimistic respondent should generally give high ratings to optimism indicators and low ratings to pessimism indicators. The correlation is calculated between all the responses to the ‘optimistic’ statements, but the correlation is very weak. This suggests that the test has low internal consistency.

Improving internal consistency

  • Take care when devising questions or measures: those intended to reflect the same concept should be based on the same theory and carefully formulated.

Prevent plagiarism, run a free check.

Try for free

Which type of reliability applies to my research?

It’s important to consider reliability when planning your research design, collecting and analysing your data, and writing up your research. The type of reliability you should calculate depends on the type of research and your methodology.

What is my methodology? Which form of reliability is relevant?
Measuring a property that you expect to stay the same over time Test-retest
Multiple researchers making observations or ratings about the same topic Interrater
Using two different tests to measure the same thing Parallel forms
Using a multi-item test where all the items are intended to measure the same variable Internal consistency

If possible and relevant, you should statistically calculate reliability and state this alongside your results.

Cite this Scribbr article

If you want to cite this source, you can copy and paste the citation or click the ‘Cite this Scribbr article’ button to automatically add the citation to our free Reference Generator.

Middleton, F. (2022, August 26). The 4 Types of Reliability in Research | Definitions & Examples. Scribbr. Retrieved 22 November 2024, from https://www.scribbr.co.uk/research-methods/reliability-explained/

Is this article helpful?
Fiona Middleton

Fiona has been editing for Scribbr since August 2016. She has a bachelor's degree in geology and is currently working towards a master's degree in marine sciences. She loves working with students based around the world to refine their writing.