In surveys conducted by statistical offices one of the main problem is to have reliable estimates for domains for which the sample size is too small or even equal to zero. It is the consequence of the fact that many institutions need more detailed information not only for the whole country but also for some specific subdomains such as geographic areas or other cross-sections. It also concerns business statistics where increasing demand exists for information for different classification of activities (e.g., trade, manufacturing, transport, construction, etc.) including small, medium and large enterprises and many variables (e.g., revenue, operating costs, taxes, etc.). In such situations direct estimates based only on specific domain sample data were insufficient because of high variability and small precision. The remedy could be the methodology of small area estimation (SAE ) which plays an important role in the field of modern information provision, which aims to cut survey costs while lowering the respondent burden. Thanks to their properties, SAE methods enable reliable estimation at lower levels of spatial aggregation and with more specific domains, where direct estimation techniques display too much estimator variance. Another advantage over direct estimators is that small area estimation can be used to handle cases with few or no observations for a given domain in the sample. Therefore it is necessary in many situations to use indirect estimates that borrow strength by taking into account values of the variables of interest from related areas and from that point of view increasing the “effective” sample size. Generally speaking there are basically two types of indirect estimators: the synthetic and the composite estimators which can be derived under a design-based approach or taking into account the fact that an explicit area level or unit level model exists. The main aim of module is to provide a set of principles for synthetic estimators. Information about the first group of estimators can be found in the module “Weighting and Estimation – Composite Estimators for Small Area Estimation”.
To read the entire document, please access the pdf file (link under "Related Documents" on the right-hand-side of this page).
Your feedback is appreciated. Please send your remarks, suggestions for improvement, etc. to email@example.com.