A benchmark generator for online dynamic single-objective and multi-objective optimization problems
Xiang X, Tian Y, Cheng R, Zhang X, Yang S, Jin Y (2022)
Information Sciences 613: 591-608.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Xiang, Xiaoshu;
Tian, Ye;
Cheng, Ran;
Zhang, Xingyi;
Yang, Shengxiang;
Jin, YaochuUniBi
Abstract / Bemerkung
In the past years, a number of benchmarks have been developed to characterize dynamic optimization problems (DOPs) consisting of a series of static problems over time. The solu-tions found for a static problem in a previous environment are required to be completely implemented so that the static problems in future environments are independent of the implementation of the solutions in the previous environment. Nevertheless, there is a wide range of real-world DOPs in which the problems in future environments are considerably influenced by the components of the solutions that are not implemented in previous envi-ronments, since the optimization for the problem in each environment continuously pro-ceeds while the solutions are continuously implemented until the end of a working day or makespan. This type of DOPs can be termed as an online DOP (OL-DOP). To compensate for the lack of a systematical OL-DOP test suite, in this study we propose a benchmark gen-erator for online dynamic single-objective and multi-objective optimization problems. Specifically, different types of influences of the solutions found in each environment on the problems in the next environment can be adjusted by different types of functions, and the dynamism degree can be tuned by a set of predefined parameters in these func-tions. Based on the proposed generator, we suggest a test suite consisting of ten continuous OL-DOPs and two discrete OL-DOPs. The empirical results demonstrate that the suggested OL-DOP test suite is characterized by time-deception in comparison with existing DOP benchmark test suites, and is able to analyze the ability of dynamic optimization algo-rithms in tackling the influence of the solutions found in each environment on the problem in the succeeding environment.(c) 2022 Elsevier Inc. All rights reserved.
Stichworte
Online dynamic optimization;
Benchmark generator;
Dynamic vehicle;
routing problems
Erscheinungsjahr
2022
Zeitschriftentitel
Information Sciences
Band
613
Seite(n)
591-608
ISSN
0020-0255
eISSN
1872-6291
Page URI
https://pub.uni-bielefeld.de/record/2967882
Zitieren
Xiang X, Tian Y, Cheng R, Zhang X, Yang S, Jin Y. A benchmark generator for online dynamic single-objective and multi-objective optimization problems. Information Sciences. 2022;613:591-608.
Xiang, X., Tian, Y., Cheng, R., Zhang, X., Yang, S., & Jin, Y. (2022). A benchmark generator for online dynamic single-objective and multi-objective optimization problems. Information Sciences, 613, 591-608. https://doi.org/10.1016/j.ins.2022.09.049
Xiang, Xiaoshu, Tian, Ye, Cheng, Ran, Zhang, Xingyi, Yang, Shengxiang, and Jin, Yaochu. 2022. “A benchmark generator for online dynamic single-objective and multi-objective optimization problems”. Information Sciences 613: 591-608.
Xiang, X., Tian, Y., Cheng, R., Zhang, X., Yang, S., and Jin, Y. (2022). A benchmark generator for online dynamic single-objective and multi-objective optimization problems. Information Sciences 613, 591-608.
Xiang, X., et al., 2022. A benchmark generator for online dynamic single-objective and multi-objective optimization problems. Information Sciences, 613, p 591-608.
X. Xiang, et al., “A benchmark generator for online dynamic single-objective and multi-objective optimization problems”, Information Sciences, vol. 613, 2022, pp. 591-608.
Xiang, X., Tian, Y., Cheng, R., Zhang, X., Yang, S., Jin, Y.: A benchmark generator for online dynamic single-objective and multi-objective optimization problems. Information Sciences. 613, 591-608 (2022).
Xiang, Xiaoshu, Tian, Ye, Cheng, Ran, Zhang, Xingyi, Yang, Shengxiang, and Jin, Yaochu. “A benchmark generator for online dynamic single-objective and multi-objective optimization problems”. Information Sciences 613 (2022): 591-608.
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