Chunwang Jiang scite author profile

This study presents a novel integrated guidance and control method for near space interceptor, considering the coupling among different channels of the missile dynamics, which makes the most of the overall performance of guidance and control system. Initially, three-dimensional integrated guidance and control model is employed by combining the interceptor-target relative motion model with the nonlinear dynamics of the interceptor, which establishes a direct relationship between the interceptor-target relative motion and the deflections of aerodynamic fins. Subsequently, regarding the acceleration of the target as bounded uncertainty of the system, an integrated guidance and control algorithm is designed based on robust adaptive backstepping method, with the upper bound of the uncertainties unknown. Moreover, a nonlinear tracking differentiator is introduced to reduce the “compute explosion” caused by backstepping method. It is proved that tracking errors of the state and the upper bound of the uncertainties converge to the neighborhoods of the origin exponentially. Finally, simulations results show that, compared to the conventional guidance and control design, the algorithm proposed in this paper has greater advantages in miss distance, required normal overload, and flight stability, especially when attacking high-maneuvering targets.

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Nonlinear reentry guidance law guaranteeing convergence before attainment of desired line-of-sight range

Jiang

Zhou

Gao

et al. 2019

Aerospace Science and Technology

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A Guidance Method for Small Solid-Rocket Launch Vehicles

Song

et al. 2018

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Chunwang Jiang

The research on infrared seeker with disturbance rejection effect parasitic

Optimization of projectile state and trajectory of reentry body considering attainment of carrying aircraft

Three-Dimensional Integrated Guidance and Control for Near Space Interceptor Based on Robust Adaptive Backstepping Approach

Nonlinear reentry guidance law guaranteeing convergence before attainment of desired line-of-sight range

A Guidance Method for Small Solid-Rocket Launch Vehicles

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