Global Likelihood Sampler for Multimodal Distributions

• Published in: Journal of computational and graphical statistics Vol. 32; no. 3; pp. 927 - 937
• Main Authors: Yi, Si-Yu, Liu, Ze, Liu, Min-Qian, Zhou, Yong-Dao
• Format: Journal Article
• Language: English
• Published: Alexandria Taylor & Francis 03.07.2023; Taylor & Francis Ltd
• Subjects: Convergence; Convergency; Distribution functions; Empirical analysis; Exact solutions; GL bootstrap; Low-discrepancy point set; Robustness; Robustness (mathematics); Samplers; Sampling methods
• ISSN: 1061-8600; 1537-2715
• DOI: 10.1080/10618600.2023.2165499

Drawing samples from a target distribution is essential for statistical computations when the analytical solution is infeasible. Many existing sampling methods may be easy to fall into the local mode or strongly depend on the proposal distribution when the target distribution is complicated. In this article, the Global Likelihood Sampler (GLS) is proposed to tackle these problems and the GL bootstrap is used to assess the Monte Carlo error. GLS takes the advantage of the randomly shifted low-discrepancy point set to sufficiently explore the structure of the target distribution. It is efficient for multimodal and high-dimensional distributions and easy to implement. It is shown that the empirical cumulative distribution function of the samples uniformly converges to the target distribution under some conditions. The convergence for the approximate sampling distribution of the sample mean based on the GL bootstrap is also obtained. Moreover, numerical experiments and a real application are conducted to show the effectiveness, robustness, and speediness of GLS compared with some common methods. It illustrates that GLS can be a competitive alternative to existing sampling methods. Supplementary materials for this article are available online.