An RP-based Resampling Method for the Logistic Distribution and Its Application
DOI:
https://doi.org/10.6000/1929-6029.2025.14.74Keywords:
RP-bootstrap, nonparametric bootstrap, logistic distribution, representative points, bootstrap confidence intervalsAbstract
This paper proposes a representative point-based bootstrap (RP-bootstrap) to improve confidence interval estimation for the logistic distribution. The method replaces the traditional empirical distribution with a smoothed approximation constructed from statistically optimal representative points (RPs), leading to a more stable resampling distribution. We integrate the RP-bootstrap with the bootstrap-t, percentile, and BCa methods to construct intervals for the location and scale parameters. Its performance is compared to the classical nonparametric bootstrap via comprehensive Monte Carlo simulations and two real-data applications. The results show that the RP-bootstrap delivers noticeable improved finite-sample performance, particularly for small samples where standard bootstrapping often under-covers. It achieves recognizably higher coverage probabilities while maintaining shorter or comparable expected interval lengths. These improvements are strongest for the bootstrap-t interval and are consistent for both parameters, though more marked for the location. In conclusion, the RP-bootstrap is a computationally efficient and reliable alternative for logistic inference, offering enhanced accuracy, especially in small-sample scenarios.
Purpose: Construction of confidence intervals under small sample size is frequently encountered in statistical inference, such as estimating some treatment effect in medical research with limited number of patients. Traditional nonparametric bootstrap methods often suffer from undercoverage in such settings. To address this limitation, we propose the RP-bootstrap—a resampling procedure that draws samples from an approximated distribution formed by representative points (RPs) of the logistic distribution.
Methods: The RP-bootstrap is developed for constructing confidence intervals for the mean and variance of the logistic distribution. The algorithm generates weighted samples from the estimated RPs. The RP-bootstrap method is applied to construction of different types of confidence intervals (CIs) like the bootstrap-t, percentile, and {\rm BCa} CIs. Its performance and comparison with the traditional nonparametric bootstrap are evaluated through Monte Carlo simulation and real-data application.
Results: Based on the Monte Carlo study under a set of small sample sizes, the RP-bootstrap achieves noticeable higher empirical coverage probability and competitive or shorter expected interval lengths compared with the nonparametric bootstrap. The improvements are much noticeable for small sample sizes like n<30 and for the bootstrap-t confidence intervals, where the nonparametric bootstrap frequently shows undercoverage of the true population parameter.
Contribution: This study demonstrates that representative points provide a stable and efficient alternative to resampling methods from logistic models. The RP-bootstrap offers a practical method for reliable small-sample inference and yields confidence intervals with improved accuracy and reduced variability relative to the traditional nonparametric bootstrap method.
References
Anderberg MR. The broad view of cluster analysis. Cluster Analysis for Applications 1973; 1(1): 1-9.
Antle C, Klimko L, Harkness W. Confidence intervals for the parameters of the logistic distribution. Biometrika 1970; 57(2): 397-402.
Babu GJ, Singh K. Inference on means using the bootstrap. The Annals of Statistics 1983; 11(3): 999-1003.
Berkson J. Application of the logistic function to bio-assay. Journal of the American Statistical Association 1944; 39(227): 357-365.
Bliss, CI. Statistics in Biology: Statistical Methods for Research in the Natural Sciences (Vol. 1). McGraw-Hill, New York, 1967.
Blom G. Statistical estimates and transformed beta-variables (Doctoral dissertation). Almqvist & Wiksell, 1958.
Bofinger E. Maximizing the correlation of grouped observations. Journal of the American Statistical Association 1970; 65(332): 1632-1638.
Cox DR. Note on grouping. Journal of the American Statistical Association 1957; 52(280): 543-547.
DiCiccio TJ, Romano JP. On bootstrap procedures for second-order accurate confidence limits in parametric models. Statistica Sinica 1995: 141-160.
Efron B. Bootstrap methods: another look at the jackknife. The Annals of Statistics 1979; 7: 1-26.
Efron B. The Jackknife, the Bootstrap and Other Resampling Plans. SIAM, 1982.
Efron B. Better bootstrap confidence intervals. Journal of the American Statistical Association 1987; 82(397): 171-185.
Efron B, Tibshirani RJ. An introduction to the Bootstrap. Chapman and Hall/CRC, 1993.
Fang KT. Application of the theory of the conditional distribution for the standardization of clothes. Acta Mathematicae Applicatae Sinica 1976; 2: 62-67.
Fang KT, He SD. The problem of selecting a specified number of representative points from a normal population. Acta Mathematicae Applicatae Sinica 1984; 17: 293-306.
Fang KT, Ye H, Zhou Y. Representative Points of Statistical Distributions -Applications in Statistical Inference. CRC Press, 2025.
Fisk PR. The graduation of income distributions. Econometrica: Journal of the Econometric Society 1961: 171-185.
Grizzle JE. A new method of testing hypotheses and estimating parameters for the logistic model. Biometrics 1961; 17(3): 372-385.
Harter HL, Moore AH. Maximum likelihood estimation from censored samples of the parameters of a logistic distribution. Journal of the American Statistical Association 1967; 62(318): 675-684.
Jung J. On linear estimates defined by a continuous weight function. Arkiv Mat 1954; 3: 199-209.
Max J. Quantizing for minimum distortion. IRE Transactions on Information Theory 1960; 6(1): 7-12.
Meade N. A modified logistic model applied to human populations. Journal of the Royal Statistical Society (Series A, Statistics in Society) 1988; 151(3): 491-498.
Ogawa J. Contributions to the theory of systematic statistics. Osaka University, Institute of Statistical Mathematics, Japan, 1951.
Oliver F. Methods of estimating the logistic growth function. Journal of the Royal Statistical Society: Series C (Applied Statistics) 1964; 13(2): 57-66.
Pearl R, Reed LJ. On the rate of growth of the population of the United States since 1790 and its mathematical representation. Proceedings of the National Academy of Sciences 1920; 6(6): 275-288.
Plackett RL. The analysis of life test data. Technometrics 1959; 1(1): 9-19.
Schafer R, Sheffield T. Inferences on the parameters of the logistic distribution. Biometrics 1973; 449-455.
Schultz H. The standard error of a forecast from a curve. Journal of the American Statistical Association 1930; 25(170): 139-185.
Stepanova M, Thomas L. Survival analysis methods for personal loan data. Operations Research 2002; 50(2): 277-289.
Usman RM, Haq M, Talib J. Kumaraswamy half-logistic distribution: properties and applications. Journal of Statistical Applications and Probability 2017; 6: 597-609.
Xu LH, Li Y, Fang KT. The resampling method via representative points. Statistical Papers. 2024; 65(6): 3621-3649.
Zador PL. Development and Evaluation of Procedures for Quantizing Multivariate Distributions. Stanford University, 1964.
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