Abstract
Online surveys are increasingly common in social and health studies, as they provide fast and inexpensive results in comparison to traditional ones. However, these surveys often work with biased samples, as the data collection is often non-probabilistic because of the lack of internet coverage in certain population groups and the self-selection procedure that many online surveys rely on. Some procedures have been proposed to mitigate the bias, such as propensity score adjustment (PSA) and statistical matching. In PSA, propensity to participate in a nonprobability survey is estimated using a probability reference survey, and then used to obtain weighted estimates. In statistical matching, the nonprobability sample is used to train models to predict the values of the target variable, and the predictions of the models for the probability sample can be used to estimate population values. In this study, both methods are compared using three datasets to simulate pseudopopulations from which nonprobability and probability samples are drawn and used to estimate population parameters. In addition, the study compares the use of linear models and Machine Learning prediction algorithms in propensity estimation in PSA and predictive modeling in Statistical Matching. The results show that statistical matching outperforms PSA in terms of bias reduction and Root Mean Square Error (RMSE), and that simpler prediction models, such as linear and k-Nearest Neighbors, provide better outcomes than bagging algorithms.
Highlights
Surveys are a fundamental tool for data collection in areas like social studies and health sciences.Probability sampling methods have been widely adopted by researchers in those areas, as well as by official statistics
The results show that statistical matching outperforms propensity score adjustment (PSA) in terms of bias reduction and Root Mean Square Error (RMSE), and that simpler prediction models, such as linear and k-Nearest Neighbors, provide better outcomes than bagging algorithms
There are serious issues on the use of nonprobability survey samples; the most relevant is that the data-generating process is unknown and may have serious coverage, nonresponse, and selection biases, which may not be ignorable and could
Summary
Surveys are a fundamental tool for data collection in areas like social studies and health sciences.Probability sampling methods have been widely adopted by researchers in those areas, as well as by official statistics. The data-generating process of such sources is nonprobabilistic, given that the probability of being part of the sample is not known and/or is null for some groups of the target population, and, as a result, these methods produce nonprobability samples. There are serious issues on the use of nonprobability survey samples; the most relevant is that the data-generating process is unknown and may have serious coverage, nonresponse, and selection biases, which may not be ignorable and could. Let sv be a volunteer nonprobability sample of size nv , obtained from Uv ⊂ U observing the study variable y. The size and direction of the bias depend on the proportion of the population with no chance of inclusion in the sample (coverage) and differences in the inclusion probabilities among the different members of the sample with a non-zero probability of taking part in the survey (selection) [2,13]. The selection bias cannot be estimated in practice for most survey variables of interest
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