组合问题的高效全局优化

Proceedings of the 2014 Annual Conference on Genetic and Evolutionary Computation Pub Date : 2014-07-12 DOI:10.1145/2576768.2598282

Martin Zaefferer, Jörg Stork, Martina Friese, A. Fischbach, B. Naujoks, T. Bartz-Beielstein

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引用次数: 52

摘要

现实世界的优化问题可能需要耗时和昂贵的测量或模拟。近年来，基于代理模型的方法的应用从连续空间扩展到组合空间。这个扩展是基于适当的距离措施，如汉明或交换距离的利用。在这项工作中，对Kriging(高斯过程)模型实现了这样的扩展。克里格在确定预测时提供了一种不确定性的度量。这可以用来计算候选解决方案的预期改进(EI)。在连续优化中，EI被用于高效全局优化(EGO)方法中，以平衡昂贵优化问题的开采和勘探。利用扩展的Kriging模型，我们首次证明了EGO可以成功地应用于组合优化问题。我们描述了必要的调整和出现的问题，以及几个测试问题的实验结果。所有代理模型均采用遗传算法(GA)进行优化。为了进行全面的比较，EGO和Kriging与早期提出的径向基函数网络(Radial Basis Function Network)、线性建模方法以及随机搜索和遗传算法的无模型优化进行了比较。在大多数测试的问题实例上，EGO明显优于其他竞争方法。

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Efficient global optimization for combinatorial problems

Real-world optimization problems may require time consuming and expensive measurements or simulations. Recently, the application of surrogate model-based approaches was extended from continuous to combinatorial spaces. This extension is based on the utilization of suitable distance measures such as Hamming or Swap Distance. In this work, such an extension is implemented for Kriging (Gaussian Process) models. Kriging provides a measure of uncertainty when determining predictions. This can be harnessed to calculate the Expected Improvement (EI) of a candidate solution. In continuous optimization, EI is used in the Efficient Global Optimization (EGO) approach to balance exploitation and exploration for expensive optimization problems. Employing the extended Kriging model, we show for the first time that EGO can successfully be applied to combinatorial optimization problems. We describe necessary adaptations and arising issues as well as experimental results on several test problems. All surrogate models are optimized with a Genetic Algorithm (GA). To yield a comprehensive comparison, EGO and Kriging are compared to an earlier suggested Radial Basis Function Network, a linear modeling approach, as well as model-free optimization with random search and GA. EGO clearly outperforms the competing approaches on most of the tested problem instances.

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Proceedings of the 2014 Annual Conference on Genetic and Evolutionary Computation

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