Convergence rate analysis for optimal computing budget allocation algorithms
Ordinal optimization (OO) is a widely-studied technique for optimizing discrete-event dynamic systems (DEDS). It evaluates the performance of the system designs in a finite set by sampling and aims to correctly make ordinal comparison of the designs. A well-known method in OO is the optimal computin...
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sg-ntu-dr.10356-1705882023-09-20T00:49:07Z Convergence rate analysis for optimal computing budget allocation algorithms Li, Yanwen Gao, Siyang School of Physical and Mathematical Sciences Science::Mathematics Discrete-Event Dynamic System Ordinal Optimization Ordinal optimization (OO) is a widely-studied technique for optimizing discrete-event dynamic systems (DEDS). It evaluates the performance of the system designs in a finite set by sampling and aims to correctly make ordinal comparison of the designs. A well-known method in OO is the optimal computing budget allocation (OCBA). It builds the optimality conditions for the number of samples allocated to each design, and the sample allocation that satisfies the optimality conditions is shown to asymptotically maximize the probability of correct selection for the best design. In this paper, we investigate two popular OCBA algorithms. With known variances for samples of each design, we characterize their convergence rates with respect to different performance measures. We first demonstrate that the two OCBA algorithms achieve the optimal convergence rate under measures of probability of correct selection and expected opportunity cost. It fills the void of convergence analysis for OCBA algorithms. Next, we extend our analysis to the measure of cumulative regret, a main measure studied in the field of machine learning. We show that with minor modification, the two OCBA algorithms can reach the optimal convergence rate under cumulative regret. It indicates the potential of broader use of algorithms designed based on the OCBA optimality conditions. This research was supported in part by City University of Hong Kong (Grants 7005269 and 7005568). 2023-09-20T00:49:07Z 2023-09-20T00:49:07Z 2023 Journal Article Li, Y. & Gao, S. (2023). Convergence rate analysis for optimal computing budget allocation algorithms. Automatica, 153, 111042-. https://dx.doi.org/10.1016/j.automatica.2023.111042 0005-1098 https://hdl.handle.net/10356/170588 10.1016/j.automatica.2023.111042 2-s2.0-85153485231 153 111042 en Automatica © 2023 Elsevier Ltd. All rights reserved. |
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Science::Mathematics Discrete-Event Dynamic System Ordinal Optimization Li, Yanwen Gao, Siyang Convergence rate analysis for optimal computing budget allocation algorithms |
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Ordinal optimization (OO) is a widely-studied technique for optimizing discrete-event dynamic systems (DEDS). It evaluates the performance of the system designs in a finite set by sampling and aims to correctly make ordinal comparison of the designs. A well-known method in OO is the optimal computing budget allocation (OCBA). It builds the optimality conditions for the number of samples allocated to each design, and the sample allocation that satisfies the optimality conditions is shown to asymptotically maximize the probability of correct selection for the best design. In this paper, we investigate two popular OCBA algorithms. With known variances for samples of each design, we characterize their convergence rates with respect to different performance measures. We first demonstrate that the two OCBA algorithms achieve the optimal convergence rate under measures of probability of correct selection and expected opportunity cost. It fills the void of convergence analysis for OCBA algorithms. Next, we extend our analysis to the measure of cumulative regret, a main measure studied in the field of machine learning. We show that with minor modification, the two OCBA algorithms can reach the optimal convergence rate under cumulative regret. It indicates the potential of broader use of algorithms designed based on the OCBA optimality conditions. |
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School of Physical and Mathematical Sciences |
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School of Physical and Mathematical Sciences Li, Yanwen Gao, Siyang |
| format |
Article |
| author |
Li, Yanwen Gao, Siyang |
| author_sort |
Li, Yanwen |
| title |
Convergence rate analysis for optimal computing budget allocation algorithms |
| title_short |
Convergence rate analysis for optimal computing budget allocation algorithms |
| title_full |
Convergence rate analysis for optimal computing budget allocation algorithms |
| title_fullStr |
Convergence rate analysis for optimal computing budget allocation algorithms |
| title_full_unstemmed |
Convergence rate analysis for optimal computing budget allocation algorithms |
| title_sort |
convergence rate analysis for optimal computing budget allocation algorithms |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/170588 |
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1779156778762633216 |