Maneuver detection and tracking of a space target based on a joint filter model

Orbit maneuver of non‐cooperative space targets is difficult to detect, and thus greatly affects the accuracy of real‐time target tracking. To solve this problem, a joint filter‐based algorithm is proposed to detect and track targets with random pulse maneuvering. In the algorithm, the joint filter...

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Veröffentlicht in:Asian journal of control 2021-05, Vol.23 (3), p.1441-1453
Hauptverfasser: Ye, Liu, Hua, Zhao, Chuankai, Liu, Jianfeng, Cao, Junkui, Wang
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container_issue 3
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container_title Asian journal of control
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creator Ye, Liu
Hua, Zhao
Chuankai, Liu
Jianfeng, Cao
Junkui, Wang
description Orbit maneuver of non‐cooperative space targets is difficult to detect, and thus greatly affects the accuracy of real‐time target tracking. To solve this problem, a joint filter‐based algorithm is proposed to detect and track targets with random pulse maneuvering. In the algorithm, the joint filter is constructed using two nonlinear filters. The first is an auxiliary filter that utilizes the kinematic model to predict the target motion and estimate the target movement according to the continuity of Keplerian elements. The other is a primary filter that uses an orbit dynamic model to predict the target motion and utilize the estimated results provided as feedback by the auxiliary filter as the constraints to re‐estimate the target orbit in real time. Moreover, simulations were conducted to detect and track non‐cooperative space targets with a series of random pulse maneuvers, and thus validate the efficiency of the new algorithm.
doi_str_mv 10.1002/asjc.2297
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subjects Algorithms
Dynamic models
joint filter
maneuver detection
Movement
Nonlinear filters
Orbital maneuvers
space target
Target detection
target tracking
Tracking
title Maneuver detection and tracking of a space target based on a joint filter model
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