用分布的多目标神经估计算法求解复杂高维问题

Proceedings of the 11th Annual conference on Genetic and evolutionary computation Pub Date : 2009-07-08 DOI:10.1145/1569901.1569987

Luis Martí, Jesús García, A. Berlanga, J. M. Molina

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引用次数: 21

摘要

针对多目标优化分布神经估计算法(MONEDA)的建模问题，提出了多目标优化分布神经估计算法(MONEDA)，从而解决了其可扩展性问题。在本文中，我们提出了一套全面的实验，旨在将MONEDA与类似方法在解决复杂的社区接受的MOPs时进行比较。特别地，我们处理了Walking Fish Group可伸缩测试问题集(WFG)。这些试验旨在建立MONEDA的优化能力和一致性作为一种优化方法。这些评估的基本结论是，我们提供了强有力的证据，证明MONEDA在处理困难和复杂的高维问题方面的可行性，以及与类似方法相比其优越的性能。尽管显然需要进一步的研究，但这些广泛的实验为MONEDA在更雄心勃勃的实际应用中使用提供了坚实的基础。

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Solving complex high-dimensional problems with the multi-objective neural estimation of distribution algorithm

The multi-objective optimization neural estimation of distribution algorithm (MONEDA) was devised with the purpose of dealing with the model-building issues of MOEDAs and, therefore address their scalability. In this paper we put forward a comprehensive set of experiments that intends to compare MONEDA with similar approaches when solving complex community accepted MOPs. In particular, we deal with the Walking Fish Group scalable test problem set (WFG). These tests aim to establish the optimizing capacity of MONEDA and the consistency as an optimization method. The fundamental conclusion of these assessment is that we provide strong evidences of the viability of MONEDA for handling hard and complex high-dimensional problems and its superior performance when compared to similar approaches. In spite of the fact that obviously further studies are necessary, these extensive experiments have provided solid ground for the use of MONEDA in more ambitious real-world applications.

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Proceedings of the 11th Annual conference on Genetic and evolutionary computation

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