Quaternion-based non-singular nonlinear impact angle guidance for three-dimensional engagements

IF 5 1区工程技术 Q1 ENGINEERING, AEROSPACE

Aerospace Science and Technology Pub Date : 2024-10-18 DOI:10.1016/j.ast.2024.109657

Prajakta Surve, Arnab Maity, Shashi Ranjan Kumar

引用次数: 0

Abstract

This paper proposes a three-dimensional impact angle-constrained nonlinear guidance strategy against different types of targets. To avoid the occurrence of singularities, in Euler angle-based approaches, the development of this guidance strategy is solely based on quaternion dynamics. An explicit relationship between the quaternions representing impact orientation and line-of-sight orientation at the time of collision is derived. Based on the obtained relation, a guidance law is derived using a sliding mode control technique to track the desired line-of-sight orientation for target interception. The performance of the proposed guidance strategy is evaluated for constant-speed and different time-varying-speed interceptor models accounting for the effect of varying aerodynamic parameters on interceptor speed. The numerical simulations performed show satisfactory results for all engagements, validating the efficacy and robustness of the proposed guidance law.

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基于四元数的三维交战非矢量非线性撞击角制导

本文提出了一种针对不同类型目标的三维冲击角约束非线性制导策略。为避免出现基于欧拉角的方法中的奇异点，该制导策略的开发完全基于四元数动力学。代表碰撞方位的四元数与碰撞时的视线方位之间存在明确的关系。根据所获得的关系，利用滑模控制技术推导出制导法则，以跟踪目标拦截所需的视线方向。考虑到气动参数变化对拦截器速度的影响，对恒速拦截器模型和不同时变速度拦截器模型评估了所提出的制导策略的性能。进行的数值模拟显示，所有交战的结果都令人满意，验证了拟议制导法则的有效性和稳健性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Aerospace Science and Technology 工程技术-工程：宇航

CiteScore

10.30

自引率

28.60%

发文量

654

审稿时长

54 days

期刊介绍： Aerospace Science and Technology publishes articles of outstanding scientific quality. Each article is reviewed by two referees. The journal welcomes papers from a wide range of countries. This journal publishes original papers, review articles and short communications related to all fields of aerospace research, fundamental and applied, potential applications of which are clearly related to: • The design and the manufacture of aircraft, helicopters, missiles, launchers and satellites • The control of their environment • The study of various systems they are involved in, as supports or as targets. Authors are invited to submit papers on new advances in the following topics to aerospace applications: • Fluid dynamics • Energetics and propulsion • Materials and structures • Flight mechanics • Navigation, guidance and control • Acoustics • Optics • Electromagnetism and radar • Signal and image processing • Information processing • Data fusion • Decision aid • Human behaviour • Robotics and intelligent systems • Complex system engineering. Etc.