4.6 Article

An Intelligent Cost-Reference Particle Filter with Resampling of Multi-Population Cooperation

期刊

SENSORS
卷 23, 期 14, 页码 -

出版社

MDPI
DOI: 10.3390/s23146603

关键词

state estimation; unknown statistical characteristics of noise; cost-reference particle filter; multi-population cooperation; intelligent resample; Gaussian mutation

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This paper proposes an intelligent cost-reference particle filter algorithm based on multi-population cooperation to solve the problems of lack of particle diversity and sensitivity to the particles' initial value. By designing a multi-population cooperative resampling strategy and a cooperative strategy based on Gaussian mutation, the proposed method improves the estimation accuracy of the cost-reference particle filter.
Although the cost-reference particle filter (CRPF) has a good advantage in solving the state estimation problem with unknown noise statistical characteristics, its estimation accuracy is still affected by the lack of particle diversity and sensitivity to the particles' initial value. In order to solve these problems of the CRPF, this paper proposed an intelligent cost-reference particle filter algorithm based on multi-population cooperation. A multi-population cooperative resampling strategy based on ring structure was designed. The particles were divided into multiple independent populations upon initialization, and each population generated particles with a different initial distribution. The particles in each population were divided into three different particle sets with high, medium and low weights by the golden section ratio according to the weight. The particle sets with high and medium weights were retained. Then, a cooperative strategy based on Gaussian mutation was designed to resample the low-weight particle set of each population. The high-weight particles of the previous population in the ring structure were randomly selected for Gaussian mutation to replace the low-weight particles in the current population. The low-weight particles of all populations were resampled in turn. The simulation results show that the intelligent CRPF based on multi-population cooperation proposed in this paper can reduce the sensitivity of the CRPF to the particles' initial value and improve the particle diversity in resampling. Compared with the general CRPF and intelligent CRPF with adaptive MH resampling (MH-CRPF), the RMSE and MAE of the proposed method are lower.

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