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Neural Computing and Applications

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13-01-2019 | Original Article

Q-learning-based simulated annealing algorithm for constrained engineering design problems

Authors: Hussein Samma, Junita Mohamad-Saleh, Shahrel Azmin Suandi, Badr Lahasan

Published in: Neural Computing and Applications | Issue 9/2020

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Abstract

Simulated annealing (SA) was recognized as an effective local search optimizer, and it showed a great success in many real-world optimization problems. However, it has slow convergence rate and its performance is widely affected by the settings of its parameters, namely the annealing factor and the mutation rate. To mitigate these limitations, this study presents an enhanced optimizer that integrates Q-learning algorithm with SA in a single optimization model, named QLSA. In particular, the Q-learning algorithm is embedded into SA to enhance its performances by controlling its parameters adaptively at run time. The main characteristics of Q-learning are that it applies reward/penalty technique to keep track of the best performing values of these parameters, i.e., annealing factor and the mutation rate. To evaluate the effectiveness of the proposed QLSA algorithm, a total of seven constrained engineering design problems were used in this study. The outcomes show that QLSA was able to report a mean fitness value of 1.33 on cantilever beam design, 263.60 on three-bar truss design, 1.72 on welded beam design, 5905.42 on pressure vessel design, 0.0126 on compression coil spring design, 0.25 on multiple disk clutch brake design, and 2994.47 on speed reducer design problem. Further analysis was conducted by comparing QLSA with the state-of-the-art population optimization algorithms including PSO, GWO, CLPSO, harmony, and ABC. The reported results show that QLSA significantly (i.e., 95% confidence level) outperforms other studied algorithms.

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Title: Q-learning-based simulated annealing algorithm for constrained engineering design problems
Authors: Hussein Samma
Junita Mohamad-Saleh
Shahrel Azmin Suandi
Badr Lahasan
Publication date: 13-01-2019
Publisher: Springer London
Published in: Neural Computing and Applications / Issue 9/2020
Print ISSN: 0941-0643
Electronic ISSN: 1433-3058
DOI: https://doi.org/10.1007/s00521-019-04008-z

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