Джога, Андрій С.Андрій С.Джога2026-06-302026-06-302021Джога, А. С. (2021). Sequential resource allocation in a stochastic environment: an overview and numerical experiments. Bulletin of Taras Shevchenko National University of Kyiv. Physics and Mathematics(3), 13–25. https://doi.org/10.17721/1812-5409.2021/3.110.17721/1812-5409.2021/3.1https://ir.library.knu.ua/handle/15071834/26093In this paper, we consider policies for the sequential resource allocation under the multi-armed bandit problem in a stochastic environment. In this model, an agent sequentially selects an action from a given set and an environment reveals a reward in return. In the stochastic setting, each action is associated with a probability distribution with parameters that are not known in advance. The agent makes a decision based on the history of the chosen actions and obtained rewards. The objective is to maximize the total cumulative reward, which is equivalent to the loss minimization. We provide a brief overview of the sequential analysis and an appearance of the multi-armed bandit problem as a formulation in the scope of the sequential resource allocation theory. Multi-armed bandit classification is given with an analysis of the existing policies for the stochastic setting. Two different approaches are shown to tackle the multi-armed bandit problem. In the frequentist view, the confidence interval is used to express the exploration-exploitation trade-off. In the Bayesian approach, the parameter that needs to be estimated is treated as a random variable. Shown, how this model can be modelled with help of the Markov decision process. In the end, we provide numerical experiments in order to study the effectiveness of these policies. Pages of the article in the issue: 13 - 25 Language of the article: Ukrainianensequential analysismulti-armed bandit problemregret minimizationпослідовний аналізпроблема багаторукого бандитамінімізація втратSequential resource allocation in a stochastic environment: an overview and numerical experimentsСтаття