Student T-Based Maximum Correntropy Unscented Kalman Filter for UAV Target Tracking

Xiaoxue Feng; Shuhui Li; Yue Wen; Feng Pan

doi:10.1142/S2301385023500127

Student T-Based Maximum Correntropy Unscented Kalman Filter for UAV Target Tracking

Xiaoxue Feng, Shuhui Li, Yue Wen, Feng Pan

School of Automation

Research output: Contribution to journal › Article › peer-review

4 Citations (Scopus)

Abstract

Considering that the Student T distribution has heavy-tailed non-Gaussian property, the heavy-tailed non-Gaussian noises induced by strong maneuvering target are modeled as the Student T distribution, and a cost function based on the Student T distribution as the kernel function is designed. On this basis, the Student T-based Maximum Correntropy Unscented Kalman filter (TMCUKF) is proposed based on the designed Student T distribution cost function together with the maximum correntropy criterion. In addition, the convergence condition and proof of the proposed method are also given. This algorithm has strong suppression ability to the heavy-tailed non-Gaussian noise, and has the ability to improve the tracking accuracy.

Original language	English
Pages (from-to)	287-300
Number of pages	14
Journal	Unmanned Systems
Volume	11
Issue number	4
DOIs	https://doi.org/10.1142/S2301385023500127
Publication status	Published - 1 Oct 2023

Keywords

Student T distribution
maximum correntropy
mix Gaussian noise
non-Gaussian noise

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10.1142/S2301385023500127

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title = "Student T-Based Maximum Correntropy Unscented Kalman Filter for UAV Target Tracking",

abstract = "Considering that the Student T distribution has heavy-tailed non-Gaussian property, the heavy-tailed non-Gaussian noises induced by strong maneuvering target are modeled as the Student T distribution, and a cost function based on the Student T distribution as the kernel function is designed. On this basis, the Student T-based Maximum Correntropy Unscented Kalman filter (TMCUKF) is proposed based on the designed Student T distribution cost function together with the maximum correntropy criterion. In addition, the convergence condition and proof of the proposed method are also given. This algorithm has strong suppression ability to the heavy-tailed non-Gaussian noise, and has the ability to improve the tracking accuracy.",

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author = "Xiaoxue Feng and Shuhui Li and Yue Wen and Feng Pan",

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T1 - Student T-Based Maximum Correntropy Unscented Kalman Filter for UAV Target Tracking

AU - Feng, Xiaoxue

AU - Li, Shuhui

AU - Wen, Yue

AU - Pan, Feng

PY - 2023/10/1

Y1 - 2023/10/1

N2 - Considering that the Student T distribution has heavy-tailed non-Gaussian property, the heavy-tailed non-Gaussian noises induced by strong maneuvering target are modeled as the Student T distribution, and a cost function based on the Student T distribution as the kernel function is designed. On this basis, the Student T-based Maximum Correntropy Unscented Kalman filter (TMCUKF) is proposed based on the designed Student T distribution cost function together with the maximum correntropy criterion. In addition, the convergence condition and proof of the proposed method are also given. This algorithm has strong suppression ability to the heavy-tailed non-Gaussian noise, and has the ability to improve the tracking accuracy.

AB - Considering that the Student T distribution has heavy-tailed non-Gaussian property, the heavy-tailed non-Gaussian noises induced by strong maneuvering target are modeled as the Student T distribution, and a cost function based on the Student T distribution as the kernel function is designed. On this basis, the Student T-based Maximum Correntropy Unscented Kalman filter (TMCUKF) is proposed based on the designed Student T distribution cost function together with the maximum correntropy criterion. In addition, the convergence condition and proof of the proposed method are also given. This algorithm has strong suppression ability to the heavy-tailed non-Gaussian noise, and has the ability to improve the tracking accuracy.

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KW - maximum correntropy

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DO - 10.1142/S2301385023500127

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JO - Unmanned Systems

JF - Unmanned Systems

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ER -

Student T-Based Maximum Correntropy Unscented Kalman Filter for UAV Target Tracking

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Keywords

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