Look angle tracking based three-dimensional impact time control guidance law with field-of-view constraint

Jianan Wang; Xiangjun Ding; Chunyan Wang; Kewei Xia; Ming Xin

doi:10.1002/rnc.6886

Look angle tracking based three-dimensional impact time control guidance law with field-of-view constraint

Jianan Wang, Xiangjun Ding, Chunyan Wang^*, Kewei Xia, Ming Xin

^*Corresponding author for this work

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

3 Citations (Scopus)

Abstract

This article proposes a three-dimensional impact time control guidance (ITCG) law without using time-to-go estimation, where the constrained field-of-view (FOV) is also considered. The guidance law design process is divided into two steps. First, the direction of the guidance command is selected to steer the look angle efficiently. Then, the desired look angle is constructed for controlling the impact time, and the guidance command magnitude is designed to track the desired look angle precisely in a prescribed time. By analyzing the look angle dynamics, the control gain is properly selected to guarantee satisfaction of the FOV constraint during the engagement. In addition, the feasible region of the desired impact time is derived. The effectiveness of the designed guidance law is validated by a series of numerical simulations.

Original language	English
Pages (from-to)	9951-9968
Number of pages	18
Journal	International Journal of Robust and Nonlinear Control
Volume	33
Issue number	16
DOIs	https://doi.org/10.1002/rnc.6886
Publication status	Published - 10 Nov 2023

Keywords

field-of-view constraint
impact time control
prescribed time control
three-dimensional guidance

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10.1002/rnc.6886

Cite this

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title = "Look angle tracking based three-dimensional impact time control guidance law with field-of-view constraint",

abstract = "This article proposes a three-dimensional impact time control guidance (ITCG) law without using time-to-go estimation, where the constrained field-of-view (FOV) is also considered. The guidance law design process is divided into two steps. First, the direction of the guidance command is selected to steer the look angle efficiently. Then, the desired look angle is constructed for controlling the impact time, and the guidance command magnitude is designed to track the desired look angle precisely in a prescribed time. By analyzing the look angle dynamics, the control gain is properly selected to guarantee satisfaction of the FOV constraint during the engagement. In addition, the feasible region of the desired impact time is derived. The effectiveness of the designed guidance law is validated by a series of numerical simulations.",

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T1 - Look angle tracking based three-dimensional impact time control guidance law with field-of-view constraint

AU - Wang, Jianan

AU - Ding, Xiangjun

AU - Wang, Chunyan

AU - Xia, Kewei

AU - Xin, Ming

PY - 2023/11/10

Y1 - 2023/11/10

N2 - This article proposes a three-dimensional impact time control guidance (ITCG) law without using time-to-go estimation, where the constrained field-of-view (FOV) is also considered. The guidance law design process is divided into two steps. First, the direction of the guidance command is selected to steer the look angle efficiently. Then, the desired look angle is constructed for controlling the impact time, and the guidance command magnitude is designed to track the desired look angle precisely in a prescribed time. By analyzing the look angle dynamics, the control gain is properly selected to guarantee satisfaction of the FOV constraint during the engagement. In addition, the feasible region of the desired impact time is derived. The effectiveness of the designed guidance law is validated by a series of numerical simulations.

AB - This article proposes a three-dimensional impact time control guidance (ITCG) law without using time-to-go estimation, where the constrained field-of-view (FOV) is also considered. The guidance law design process is divided into two steps. First, the direction of the guidance command is selected to steer the look angle efficiently. Then, the desired look angle is constructed for controlling the impact time, and the guidance command magnitude is designed to track the desired look angle precisely in a prescribed time. By analyzing the look angle dynamics, the control gain is properly selected to guarantee satisfaction of the FOV constraint during the engagement. In addition, the feasible region of the desired impact time is derived. The effectiveness of the designed guidance law is validated by a series of numerical simulations.

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KW - prescribed time control

KW - three-dimensional guidance

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Look angle tracking based three-dimensional impact time control guidance law with field-of-view constraint

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