Affiliation of Author(s):航空学院

Journal:JOURNAL OF GUIDANCE CONTROL AND DYNAMICS

Key Words:QUALITY ANALYSIS SIMULATION TURBULENCE MODEL DYNAMICS DESIGN

Abstract:This paper presents an integrated flight control system with rotor-state feedback for helicopter approaching to the ship deck. First, a high-order nonlinear flight dynamics model coupled with the reconstructed ship airwake turbulence is developed. Then, a rotor-state feedback control law is developed and integrated into the baseline explicit model-following control system to form an integrated control system. The feedback gains of body and rotor states are designed together to improve the disturbance rejection over the ship airwake frequencies (1 to 12 rad/s). A feedforward compensator is introduced to improve aircraft response bandwidth. Furthermore, a method to adjust the command model is developed for further improvement of the response bandwidth. Finally, the effectiveness of the integrated control system is demonstrated with linear analysis, and pilot workload is evaluated with nonlinear simulation. In comparison to the baseline control system, the integrated control system improves both the disturbance rejection over the ship airwake frequencies and attitude response bandwidths of rolling and pitching motions. The pilot workload for the roll and pitch attitude regulation in ship airwake turbulence is reduced by 45 and 26%, respectively.

ISSN No.:0731-5090

Translation or Not:no

Date of Publication:2017-12-01

Co-author:Ji, Honglei,LIPAN

Correspondence Author:crl