Optimal Encirclement Guidance

Hongyan Li; Shaoming He; Jiang Wang; Chang Hun Lee

doi:10.1109/TAES.2022.3160408

Optimal Encirclement Guidance

Hongyan Li, Shaoming He^*, Jiang Wang, Chang Hun Lee

^*Corresponding author for this work

School of Aerospace Engineering

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

4 Citations (Scopus)

Abstract

This article investigates the cooperative guidance problem for multiple missiles to intercept a maneuvering target. We propose an optimal encirclement guidance, which is known to be suitable for improving the observability and limiting the evasive probability of the target. By formulating the optimization problem in a reference frame, the optimal guidance solution can be obtained without any linearization and explicit cooperation can be ensured in regulating the relative line-of-sight angles to achieve encirclement. The main advantage of the proposed approach lies in its nonlinear nature and hence it is more tolerable to disadvantageous initial homing conditions than the linear laws. The working principles and characteristics of the encirclement guidance law are analyzed to support its application. Extensive numerical simulations are performed to validate the proposed approach and demonstrate its advantages.

Original language	English
Pages (from-to)	4327-4341
Number of pages	15
Journal	IEEE Transactions on Aerospace and Electronic Systems
Volume	58
Issue number	5
DOIs	https://doi.org/10.1109/TAES.2022.3160408
Publication status	Published - 1 Oct 2022

Keywords

Explicit cooperation
Missile guidance
Nonlinear optimal control
Relative line-of-sight (LOS) constraint

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10.1109/TAES.2022.3160408

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title = "Optimal Encirclement Guidance",

abstract = "This article investigates the cooperative guidance problem for multiple missiles to intercept a maneuvering target. We propose an optimal encirclement guidance, which is known to be suitable for improving the observability and limiting the evasive probability of the target. By formulating the optimization problem in a reference frame, the optimal guidance solution can be obtained without any linearization and explicit cooperation can be ensured in regulating the relative line-of-sight angles to achieve encirclement. The main advantage of the proposed approach lies in its nonlinear nature and hence it is more tolerable to disadvantageous initial homing conditions than the linear laws. The working principles and characteristics of the encirclement guidance law are analyzed to support its application. Extensive numerical simulations are performed to validate the proposed approach and demonstrate its advantages.",

keywords = "Explicit cooperation, Missile guidance, Nonlinear optimal control, Relative line-of-sight (LOS) constraint",

author = "Hongyan Li and Shaoming He and Jiang Wang and Lee, {Chang Hun}",

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T1 - Optimal Encirclement Guidance

AU - Li, Hongyan

AU - He, Shaoming

AU - Wang, Jiang

AU - Lee, Chang Hun

PY - 2022/10/1

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N2 - This article investigates the cooperative guidance problem for multiple missiles to intercept a maneuvering target. We propose an optimal encirclement guidance, which is known to be suitable for improving the observability and limiting the evasive probability of the target. By formulating the optimization problem in a reference frame, the optimal guidance solution can be obtained without any linearization and explicit cooperation can be ensured in regulating the relative line-of-sight angles to achieve encirclement. The main advantage of the proposed approach lies in its nonlinear nature and hence it is more tolerable to disadvantageous initial homing conditions than the linear laws. The working principles and characteristics of the encirclement guidance law are analyzed to support its application. Extensive numerical simulations are performed to validate the proposed approach and demonstrate its advantages.

AB - This article investigates the cooperative guidance problem for multiple missiles to intercept a maneuvering target. We propose an optimal encirclement guidance, which is known to be suitable for improving the observability and limiting the evasive probability of the target. By formulating the optimization problem in a reference frame, the optimal guidance solution can be obtained without any linearization and explicit cooperation can be ensured in regulating the relative line-of-sight angles to achieve encirclement. The main advantage of the proposed approach lies in its nonlinear nature and hence it is more tolerable to disadvantageous initial homing conditions than the linear laws. The working principles and characteristics of the encirclement guidance law are analyzed to support its application. Extensive numerical simulations are performed to validate the proposed approach and demonstrate its advantages.

KW - Explicit cooperation

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KW - Nonlinear optimal control

KW - Relative line-of-sight (LOS) constraint

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Optimal Encirclement Guidance

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