Capturability Analysis of TPN Guidance Law for Circular Orbital Pursuit-Evasion

This work analyzes the capturability of the true proportional navigation (TPN) guidance law applied in circular orbital pursuit-evasion, which is a new view compared to the prior method used in orbital pursuit-evasion. The saddle point is a rather difficult problem to resolve when the orbital pursui...

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Veröffentlicht in:	TRANSACTIONS OF THE JAPAN SOCIETY FOR AERONAUTICAL AND SPACE SCIENCES 2017, Vol.60(6), pp.347-354
Hauptverfasser:	YU, Dateng, WANG, Hua, ZHOU, Jianping, LI, Kebo
Format:	Artikel
Sprache:	eng
Schlagworte:	Capturability Capture Region Evasion Maneuver Guidance (motion) Line of sight Mathematical analysis Proportional navigation Pursuit-Evasion Pursuit-evasion games Saddle points True Proportional Navigation (TPN)
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creator	YU, Dateng WANG, Hua ZHOU, Jianping LI, Kebo
description	This work analyzes the capturability of the true proportional navigation (TPN) guidance law applied in circular orbital pursuit-evasion, which is a new view compared to the prior method used in orbital pursuit-evasion. The saddle point is a rather difficult problem to resolve when the orbital pursuit-evasion problem is formulated as a zero-sum differential game. The research in this paper focuses on analyzing the capture capability of the pursuer and the escape capability of the evader. The relative motion equations for the line-of-sight (LOS) coordinate and the modified polar coordinate (MPC) system are united. Then, nonlinear transformation is used in the dynamic equations so as to acquire the relative motion equation. The optimal strategies of both satellites are determined and expression of the analytical capture-escape equation is proposed. The capture-escape region of an orbital pursuit-evasion game is defined. The simulation clearly shows the capture region of the pursuer, and the results are in agreement with the analysis. The results of the analytic capturability method proposed in this paper are visual and understandable, which means that it will be very convenient to use in analyzing capturability in orbital pursuit-evasion problems.
doi_str_mv	10.2322/tjsass.60.347
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The saddle point is a rather difficult problem to resolve when the orbital pursuit-evasion problem is formulated as a zero-sum differential game. The research in this paper focuses on analyzing the capture capability of the pursuer and the escape capability of the evader. The relative motion equations for the line-of-sight (LOS) coordinate and the modified polar coordinate (MPC) system are united. Then, nonlinear transformation is used in the dynamic equations so as to acquire the relative motion equation. The optimal strategies of both satellites are determined and expression of the analytical capture-escape equation is proposed. The capture-escape region of an orbital pursuit-evasion game is defined. The simulation clearly shows the capture region of the pursuer, and the results are in agreement with the analysis. 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subjects	Capturability Capture Region Evasion Maneuver Guidance (motion) Line of sight Mathematical analysis Proportional navigation Pursuit-Evasion Pursuit-evasion games Saddle points True Proportional Navigation (TPN)
title	Capturability Analysis of TPN Guidance Law for Circular Orbital Pursuit-Evasion
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