Authors: Ruiheng Zhang, Tao Qu, Yuhua Du, Aili Fan, Weilin Li, Yigeng Huangfu

Date: June 2025

Published in: IEEE Transactions on Transportation Electrification

Abstract: Distributed electric propulsion (DEP) system has drawn much attention in autonomous aerial vehicle (AAV) applications, owing to its advanced performance in aerodynamic efficiency. This article proposes a novel distributed cruise control for AAV with DEP system (DEP AAV). By coordinating the motors within the DEP system in a distributed manner, the proposed control regulates the AAV’s flight speed as requested and exhibits enhanced dynamic performance in maintaining the AAV’s moment balance against external disturbances. Moreover, the proposed control improves the reliability of the DEP AAV, as it provides dissimilar redundancy against common-mode failure. Detailed controller design has been provided, and its performance in both steady state and dynamic state has been discussed. The effectiveness of the proposed control has been further validated on a controller hardware-in-the-loop (C-HIL) testbed developed for DEP AAV application.

全文链接：https://ieeexplore.ieee.org/document/10876388