有时间延迟的定时合作指导

W. Ma, W. Fu, Y. Fang, S. Liu, X. Liang
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引用次数: 2

摘要

针对具有时滞的协同制导问题,在三维空间中提出了一种两阶段时滞定时协同制导律。在第一阶段,通过引入时间尺度函数和时滞一致性,克服了时滞的负面影响,保证了理想的收敛性能;根据Lyapunov收敛分析,可以保证第一阶段的时滞稳定性,收敛时间可以描述为延迟时间与任务分配收敛时间之间的关系。然后,以规定的与时间相关的收敛时间为切换点,在合适的初始条件下开始第二阶段,所有拦截弹都采用比例导航制导。最后,通过仿真对比验证了所提时滞制导律的有效性和优越性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Prescribed-time cooperative guidance with time delay
In view of the cooperative guidance problem with time delay, this paper proposes a two-stage time-delay prescribed-time cooperative guidance law in the three-dimensional (3D) space. In the first stage, by introducing a time scaling function and time-delay consensus, the proposed cooperative guidance law can overcome the negative influence of time delay to guaranteed the desired convergence performance. Derived from the Lyapunov convergence analysis, the time-delay stability of the first stage can be ensured and the convergence time can be described as the relationship between delayed time and mission-assigned convergence time. Then, taking the prescribed-time-related convergence time as the switching point, the second stage begins with suitable initial conditions and all interceptors are governed by proportional navigation guidance. Finally, comparative simulations are performed to demonstrate the effectiveness and superiority of the proposed time-delay guidance law.
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