Authors: Vijaya K. Srivastava, Davide Spinello

Abstract:

This paper presents established 3ⁿ enumeration procedure for mixed integer optimization problems for solving multi-objective reliability and redundancy allocation problem subject to design constraints. The formulated problem is to find the optimum level of unit reliability and the number of units for each subsystem. A number of illustrative examples are provided and compared to indicate the application of the superiority of the proposed method.

Keywords: Integer programming, mixed integer programming, multi-objective optimization, reliability redundancy allocation.

Digital Object Identifier (DOI): doi.org/10.5281/zenodo.3455609

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References:

[1] Misra, Krishna B., Sharma, Usha, An Efficient Approach for Multiple Criteria Redundancy Optimization Problems, Microelectronics Reliability, Vol 31, No.2/3, pp. 303-321, 1991
[2] Misra, Krishna B., Sharma, Usha, Multicriteria Optimization for Combined Reliability and Redundancy Allocation in Systems Employing Mixed Redundancies, Microelectronics Reliability, Vol 31, No.2/3, pp. 323-335, 1991
[3] Ravi, V., Reddy, P., Zimmermann, H., Fuzzy Global Optimization of Complex System Reliability, IEEE Transactions on Fuzzy Systems, 8, 241-248, 2000.
[4] Dhingra, Anoop K., Optimal Apportionment of Reliability & Redundancy in Series Systems Under Multiple Objectives, IEEE Transactions on Reliability, Vol 41, NO 4, 1992 December.
[5] Rao, S.S., Dhingra, A.K., Reliability and redundancy apportionment using crisp and fuzzy multi objective optimization approaches, Reliability Engineering and System Safety 37 (1992) 253-261.
[6] Taboada, Heidi A., Baheranwala, Fatema, Coit, David W., Wattanapongsakorn, Naruemon, Practical solutions for multi-objective optimization: An application to system reliability design problems, Reliability Engineering and System Safety 92 (2007) 314-322.
[7] Taboada, Heidi A., Coit, David W., Development of a multiple objective genetic algorithm for solving reliability design allocation problems, Proceedings of the 2008 Industrial Engineering Research Conference, J. Fowler and S. Mason, eds.
[8] Kennedy, J. & Eberhart, R. C. (1995), Particle swarm optimization. In IEEE International Conference on Neural Networks (Vol. IV, pp. 1942–1948). Piscataway, NJ, Seoul, Korea.
[9] Garg, H., Sharma, S.P., Multi-objective reliability-redundancy allocation problem using particle swarm optimization, Computers & Industrial Engineering 64 (2013) 247-255.
[10] Zhang E., Wu, Y., Qingwei, C., A practical approach for solving multi-objective reliability redundancy allocation problems using extended bare-bones particle swarm optimization.
[11] Khalili-Damghani Kaveh, Abtahi Amir-Reza, Tavana Madjid, A new multi-objective particle swarm optimization method for solving reliability redundancy allocation problems, Reliability Engineering and System Safety, 111(2013),58-75
[12] Garg, H. Rani, Monica, Sharma, S.P., Vishwakarma, Intuitionistic fuzzy optimization technique for solving multi-objective reliability optimization problems in interval environ,ment. Expert systems with applications, 41 (2014), 3157-3167.
[13] Srivastava V.K., Fahim A, A Two-Phase optimization procedure for integer programming problems, Computers and Mathematics with Applications 42 (2001) 1585-1595
[14] Srivastava Vijaya K., Spinello, Davide, Efficiency of Robust Heuristic Gradient Based Enumerative and Tunneling Algorithms for Constrained Integer Programming Problems, International Conference of Mathematical and Computational Sciences, May 2017, Montreal, Vol 11, No 5, 201-206
[15] Srivastava Vijaya K, Fahim A, An optimization method for solving mixed discrete-continuous programming problems, Computers and Mathematics 53 (2007) 1481-1491.
[16] Bozorg‐Haddad Omid, Solgi Mohammad, Loáiciga A. Hugo, Meta‐Heuristic and Evolutionary Algorithms for Engineering Optimization, 2017 John Wiley & Sons, Inc.
[17] Klingman W.R., Himmelblau D.M., Nonlinear programming with the aid of a multiple-gradient summation technique, Journal of the Association of Computing Machinery 11 (40), 400-415, October 1964.