Aerospace, Vol. 11, Pages 376: Minimum-Data-Driven Guidance for Impact Angle Control

Aerospace, Vol. 11, Pages 376: Minimum-Data-Driven Guidance for Impact Angle Control

Aerospace doi: 10.3390/aerospace11050376

Authors: Chang Liu Jiang Wang Hongyan Li Weipeng Liu

This paper investigates the impact-angle-control guidance problem for varying-speed flight vehicles with constrained acceleration. A learning-based bias proportional navigation guidance (L-BPN) law is proposed to achieve impact-angle-constrained impact by constructing a deep neural network (DNN) for nonlinear mapping between the impact angle and the bias term. During the process of dataset establishment, the impact of state variables is evaluated by sensitivity analysis to minimize the quantity of training data. This approach also effectively accelerates sample generation and improves the training efficiency. The simulation results verify the effectiveness of the proposed L-BPN law and demonstrate its advantages over the existing algorithms.