What question did this study set out to answer?

The aim is to develop an efficient flight control system for a distributed tiltrotor UAV.

January 23, 2026Open Access

Flight Control of a Novel Distributed Tiltrotor UAV With Experiments

Key Points

The aim is to develop an efficient flight control system for a distributed tiltrotor UAV.
Develop a fixed-time control scheme for stability improvement.
Derive the dynamic model and control allocation for redundant actuator management.
Design a fast fixed-time sliding mode attitude controller for responsiveness.
Create a smooth mode transition strategy for converting between flight modes.
Conduct experiments to evaluate the control scheme effectiveness.
The proposed controller significantly enhances flight stability compared to traditional methods.
Experiments validate improved responsiveness during mode transitions.
The system demonstrates robust performance across various flight conditions.

Abstract

ABSTRACT Tiltrotor UAV is a hybrid aircraft that enjoys the advantages of both the conventional fixed‐wing and helicopter in a single platform. The design of a practical and efficient flight control system for this novel aircraft with a complex configuration is still a challenge. This paper proposes a practical fixed‐time control scheme for a novel distributed tiltrotor UAV to improve flight stability. Based on the analysis of the control principle, the dynamic model and control allocation are derived to address the coordinated control problems with redundant actuators. A fast fixed‐time sliding mode attitude controller is subsequently designed to improve the response speed and robustness of the control system. Furthermore, a smooth mode transition strategy is developed to guarantee the stable conversion between fixed‐wing and helicopter modes. Experiments are conducted under different modes to investigate the effectiveness of the proposed flight control scheme.

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