Optimal design of systems that evolve over time using neural networks

Michael K. Nolan

doi:10.1117/12.719092

3 May 2007 Optimal design of systems that evolve over time using neural networks

Michael K. Nolan

Proceedings Volume 6555, Sensors and Systems for Space Applications; 655514 (2007) https://doi.org/10.1117/12.719092
Event: Defense and Security Symposium, 2007, Orlando, Florida, United States

Abstract

Design optimization is challenging when the number of variables becomes large. One method of addressing this problem is to use pattern recognition to decrease the solution space in which the optimizer searches. Human "common sense" is used by designers to narrow the scope of search to a confined area defined by patterns conforming to likely solution candidates. However, computer-based optimization generally does not apply similar heuristics. In this paper, a system is presented that recognizes patterns and adjusts its search for optimal solutions based on these patterns. A design problem was selected that requires the optimization algorithm to assess designs that evolve over time. A small sensor network design is evolved into a larger sensor network design. Optimal design solutions for the small network do not necessarily lead to optimal solutions for the larger network. Systems that are well-positioned to evolve have characteristics that distinguish themselves from systems that are not well-positioned to evolve. In this study, a neural network was able to recognize a pattern whereby flexible sensor networks evolved more successfully than less flexible networks. The optimizing algorithm used this pattern to select candidate systems that showed promise for evolution. A genetic algorithm assisted by a neural network achieved better performance than an unassisted genetic algorithm did. This thesis advocates the merit of neural network use in multi-objective system design optimization and to lay a basis for future study.

Citation Download Citation

Michael K. Nolan "Optimal design of systems that evolve over time using neural networks", Proc. SPIE 6555, Sensors and Systems for Space Applications, 655514 (3 May 2007); https://doi.org/10.1117/12.719092

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