一种用于过程监测的新型智能粒子滤波器

2016 Seventh International Conference on Intelligent Control and Information Processing (ICICIP) Pub Date : 2016-12-01 DOI:10.1109/ICICIP.2016.7885882

Chengyuan Sun, Jian Hou, Aihua Zhang, Zhiyong She

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引用次数: 1

摘要

粒子滤波(PF)是一种用于非线性非高斯系统故障诊断的有效方法。但典型的粒子穷化算法存在粒子贫化问题，影响了状态估计的结果。通过对PF算法的分析，将粒子贫困化问题归结为粒子多样性的不足。本文采用遗传和自适应策略设计了一种新型的智能粒子滤波器来处理粒子贫困化问题。一般PF可视为NIPF的一个特殊实例。在垂直落体模型上的实验表明，NIPF可以增加粒子的多样性，改善状态估计的结果。

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A novel intelligent particle filter for process monitoring

Particle filter (PF) serves as an effective method applied to the fault diagnosis of nonlinear and non-Gaussian systems. However, the result of state estimation is influenced by the particle impoverishment problem which is common in the typical PF algorithm. Based on the analysis of the PF algorithm, the general particle impoverishment problem is attributed to the deficiency of particle diversity. In this paper a novel intelligent particle filter (NIPF) is designed to deal with the problem of particle impoverishment by means of the genetic and adaptive strategy. The general PF can be regarded as a particular instance of NIPF. The experiment on the vertically falling body model shows that the NIPF can increase the particles diversity and improve the results of state estimation.

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2016 Seventh International Conference on Intelligent Control and Information Processing (ICICIP)

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