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引用次数: 7
摘要
在存在异常值的情况下,复杂非线性系统的建模已成为一项具有挑战性的任务。在这种情况下,具有进化方法的健壮规范可以完成潜在的工作。提出了一种改进的进化算法GOPSO (global selection based orthogonal PSO),该算法比正交PSO (orthogonal PSO)具有更高的训练精度和计算效率。该算法的潜力已在六个基准多模态优化问题上得到验证。此外,通过将Wilcoxon范数与由所提出的GOPSO训练的功能链接人工神经网络(FLANN)结构相结合,开发了鲁棒识别模型。对5个复杂装置进行了详尽的仿真研究,结果表明,当装置输出的异常值高达50%时,所提出的模型具有较好的性能。
New GOPSO and its application to robust identification
Modeling of complex nonlinear systems has become a challenging task in presence of outliers. In this scenario a robust norm with an evolutionary approach does a potential job. A modified evolutionary algorithm GOPSO (global selection based orthogonal PSO) is proposed which offers a more accurate and computationally efficient training compared to OPSO (Orthogonal PSO). The potential of the proposed algorithm has been demonstrated on six benchmark multi-modal optimization problems. Further, robust identification models has been developed by combining Wilcoxon norm with a functional link artificial neural network (FLANN) structure trained by the proposed GOPSO. Exhaustive simulation studies on five complex plants show superior performance of proposed models when output of plant gets corrupted upto 50% outliers.
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