Advanced Guidance and Control for Wide-Area Flight Under Multi-Physics Coupling (Submission Deadline: June 1, 2026)
多物理场耦合下的宽域飞行先进制导与控制
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| Yuliang Bai |
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Harbin Institute of Technology, China
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| Keywords: |
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- Multi-physics Coupling (多物理场耦合)
- Wide-Range Flight (宽域飞行)
- Intelligent control (智能控制)
- Precision Guidance (精确制导)
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| Topics: |
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- Dynamics of Wide-Range Flight Vehicles (宽域飞行器动力学)
- Intelligent Control Methods for Wide-Range Flight Vehicles (宽域飞行器智能控制方法)
- Advanced Guidance Algorithms for Wide-Range Flight Vehicles (宽域飞行器先进制导算法)
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| Summary: |
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- Wide-range flight vehicles operate over a large span of flight envelopes and experience drastic changes in flight environments, possibly accompanied by significant multi-physics coupling effects. Their flight dynamics exhibit strong nonlinearity, strong coupling, and large uncertainty characteristics. Guidance and control technology is the prerequisite and foundation for flight vehicles to achieve effective performance and precision flight. However, traditional methods struggle to accommodate the dramatic variations in dynamic characteristics under wide-range flight as well as the complex disturbances induced by multi-physics coupling. Therefore, this special topic focuses on advanced guidance law design and intelligent control methods for wide-range flight under multi-physics coupling conditions, aiming to enhance the adaptability and robustness of flight vehicles throughout the entire flight envelope.
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- 宽域飞行器工作空域跨度大、飞行环境剧烈变化,可能伴随显著的多物理场耦合效应,其飞行动力学呈现强非线性、强耦合性及大不确定性特征。制导与控制技术是飞行器发挥效能、实现精确飞行的前提和基础,但传统方法难以适应宽域飞行下动力学特性的巨大变化以及多物理场耦合带来的复杂干扰。因此,本专题重点关注多物理场耦合条件下的宽域飞行先进制导律设计与智能控制方法研究,以提升飞行器在全飞行包线内的适应性与鲁棒性。
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