What is the Difference Between Multistage Sampling and Sequential Sampling?
🆚 Go to Comparative Table 🆚Multistage sampling and sequential sampling are two different methods used in survey sampling. Here are the main differences between the two:
Multistage Sampling:
- Involves dividing the population into groups (or clusters) and then selecting samples at multiple stages.
- It is a complex form of cluster sampling, sometimes referred to as multistage cluster sampling.
- The population is divided into sub-groups at various stages, making it easier to study.
- Types of multistage sampling include multistage cluster sampling and multistage random sampling.
- This method does not require a complete list of all the members of the target population, reducing sample preparation costs.
Sequential Sampling:
- Involves selecting samples based on the results of previous samples, allowing the sampler to fine-tune the results.
- This process is continued until the desired result is achieved.
- Sequential sampling is not based on probability, unlike multistage sampling.
- It is used on a smaller scale compared to multistage sampling.
- The size of the sampling is not predefined in sequential sampling, as opposed to multistage sampling.
In summary, multistage sampling involves dividing the population into groups and selecting samples at multiple stages, while sequential sampling selects samples based on the results of previous samples and continues until the desired result is achieved.
Comparative Table: Multistage Sampling vs Sequential Sampling
Here is a table comparing multistage sampling and sequential sampling:
| Feature | Multistage Sampling | Sequential Sampling |
|---|---|---|
| Definition | Multistage sampling is a method where different clusters of data are formed, and samples are taken from these clusters in multiple stages. Sequential sampling is a method where samples are taken one at a time, and the results are assessed at each stage before deciding whether to continue sampling. | |
| Probability Base | Uses probability as a base. Not based on probability. | |
| Sample Size | Predefined sample size. Sample size is not predefined. | |
| Data Collection | Used for mass sampling. Used on relatively small scales. | |
| Accuracy | Results are not as accurate as sequential sampling. Results are more accurate as the sampling process is fine-tuned at each stage. | |
| Applications | Suitable for collecting data from large, geographically spread populations, such as in national surveys. Used when the entire sample is drawn at one instance or when sampling is done sequentially and assessing results at each stage. | |
| Decision Making | Decisions are made based on the results obtained from the sample. Decisions are made based on the results obtained from each sample at each stage, allowing for adjustments and fine-tuning. |
In summary, multistage sampling is used for mass sampling and is more focused on collecting data from large populations, while sequential sampling is used on relatively smaller scales and focuses on fine-tuning the results at each stage of the sampling process.
- Stratified Sampling vs Cluster Sampling
- Census vs Sampling
- Simple Random Sample vs Systematic Random Sample
- Sampling vs Quantization
- Census Survey vs Sample Survey
- Sample vs Population
- Combinational vs Sequential Logic
- Example vs Sample
- Time Series vs Cross Sectional Data
- Combinational Logic Circuit vs Sequential Logic Circuit
- Multiprocessing vs Multithreading
- Longitudinal vs Cross-Sectional Study
- Qualitative vs Quantitative Research
- Randomized vs Recursive Algorithm
- Quantitative vs Qualitative
- Recruitment vs Selection
- Multithreading vs Multitasking
- Specificity vs Selectivity
- Discrete vs Continuous Distributions