基于自编码器的多功能雷达工作状态切换点检测方法

Jiadi Bao; Yiying Fang; Ziwei Zhang; Mengtao Zhu; Yunjie Li

doi:10.15918/j.tbit1001-0645.2023.205

基于自编码器的多功能雷达工作状态切换点检测方法

Translated title of the contribution: Change Points Detection Method of Multi-Function Radar Work Modes Based on Autoencoder

Jiadi Bao, Yiying Fang, Ziwei Zhang, Mengtao Zhu^*, Yunjie Li

^*Corresponding author for this work

School of Information and Electronics

Beijing Institute of Technology

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

1 Citation (Scopus)

Abstract

Advanced multi-function radars can generate various modulated and flexible parameterized work modes and can perform multiple different tasks simultaneously on the timeline, thus posing huge challenges to the electronic support system. This paper proposes a change point detection method for the “symbol-pulse” layer work mode in the multi-functional radar hierarchical model. This method is based on an autoencoder and is designed for the non-ideal observation situation. This method can detect work mode change points accurately not only in an unsupervised manner, but also free of parametric model assumptions. The simulation experiment verified the effectiveness and superiority of the algorithm proposed in this paper compared with the change point detection algorithm, it also has the best performance under non-ideal observations including 0～20% missing pulse ratios.

Translated title of the contribution	Change Points Detection Method of Multi-Function Radar Work Modes Based on Autoencoder
Original language	Chinese (Traditional)
Pages (from-to)	761-770
Number of pages	10
Journal	Beijing Ligong Daxue Xuebao/Transaction of Beijing Institute of Technology
Volume	44
Issue number	7
DOIs	https://doi.org/10.15918/j.tbit1001-0645.2023.205
Publication status	Published - Jul 2024

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title = "基于自编码器的多功能雷达工作状态切换点检测方法",

abstract = "Advanced multi-function radars can generate various modulated and flexible parameterized work modes and can perform multiple different tasks simultaneously on the timeline, thus posing huge challenges to the electronic support system. This paper proposes a change point detection method for the “symbol-pulse” layer work mode in the multi-functional radar hierarchical model. This method is based on an autoencoder and is designed for the non-ideal observation situation. This method can detect work mode change points accurately not only in an unsupervised manner, but also free of parametric model assumptions. The simulation experiment verified the effectiveness and superiority of the algorithm proposed in this paper compared with the change point detection algorithm, it also has the best performance under non-ideal observations including 0～20\% missing pulse ratios.",

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author = "Jiadi Bao and Yiying Fang and Ziwei Zhang and Mengtao Zhu and Yunjie Li",

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AU - Zhang, Ziwei

AU - Zhu, Mengtao

AU - Li, Yunjie

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AB - Advanced multi-function radars can generate various modulated and flexible parameterized work modes and can perform multiple different tasks simultaneously on the timeline, thus posing huge challenges to the electronic support system. This paper proposes a change point detection method for the “symbol-pulse” layer work mode in the multi-functional radar hierarchical model. This method is based on an autoencoder and is designed for the non-ideal observation situation. This method can detect work mode change points accurately not only in an unsupervised manner, but also free of parametric model assumptions. The simulation experiment verified the effectiveness and superiority of the algorithm proposed in this paper compared with the change point detection algorithm, it also has the best performance under non-ideal observations including 0～20% missing pulse ratios.

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基于自编码器的多功能雷达工作状态切换点检测方法

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