Zhenyu Ma scite author profile

Zhenyu Ma

5Publications

2Citation Statements Received

22Citation Statements Given

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Affiliations

Northwestern Polytechnical University

Publications

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A Lateral-Directional Control Method for High Aspect Ratio Full-Wing UAV and Flight Tests

Zhu

Zhou

et al. 2019

Applied Sciences

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To solve the lateral-directional control problem of the high aspect ratio full-wing unmanned aerial vehicle (UAV) without an aileron and rudder, a control method is proposed that uses the differential thrust of propellers as the control output and the yaw angle as the controlled attitude angle. Meanwhile, simulation analysis and experimental verification are carried out. First, a lateral-direction mathematical model and a differential thrust of propeller model of the full-wing drone are established. The influence of the aerodynamic derivative C Y β on the lateral-direction mode is analyzed. Second, based on nonlinear dynamic inversion (NDI) and active disturbance rejection control (ADRC) theories, a yaw angle controller that uses the differential thrust of propellers as the control output is designed. Finally, the vector field (VF) method is improved to obtain the straight-line trajectory tracking method satisfying different speeds, and the logic of waypoint switching is given. The research shows that C Y β has a great influence on the dutch roll damping of the drone. For the full-wing configuration, it is feasible to use the yaw angle as the controlled attitude angle without considering the roll angle. The simulation and experimental results show that the designed lateral-directional control method for the high aspect ratio full-wing UAV has a good control effect and disturbance rejection ability. Meanwhile, the control method has less parameters to adjust and less calculation, which is very suitable for engineering applications.

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Taxiing Characteristic Analysis and Control for Full-Wing Solar-Powered Unmanned Aerial Vehicle

Zhu

Zhou

2019

西北工业大学学报

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To solve the taxiing control problem of the full-wing solar-powered unmanned aerial vehicle (UAV) without front wheel steering servo and rudder, a control approach using differential propeller thrust to control the taxiing is proposed in this paper. Firstly, the taxiing mathematical models of two kinds of full-wing solar-powered UAVs with the front wheels turning freely or fixed are established. Meanwhile, the taxiing characteristics of full-wing solar-powered UAV in different taxiing speeds are analyzed. Secondly, based on the linear active disturbance rejection control (LADRC) theory, a yaw angle controller is designed by using differential propeller thrust as the control output. Finally, a straight line trajectory tracking scheme which is suitable for take-off and landing taxiing is designed on the base of improved vector field theory. Simulation results show that the designed controller has a good control effect on full-wing solar-powered UAV's take-off and landing taxiing periods, and better robustness.

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Longitudinal Control Method for Full-Wing UAVs Based on Vector Field and Active Disturbance Rejection Control Method

Ma¹,

Wang²,

Luo³

et al. 2023

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Research on the Taxiing Control Method of a Small Full-Wing UAV under the Sensor Constraints

Ma¹,

Wang

Luo³

et al. 2022

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Taxiing Control of Full-wing Solar-powered UAV by Using Differential Propeller Thrust

Zhu

Zhou

2018

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Zhenyu Ma

A Lateral-Directional Control Method for High Aspect Ratio Full-Wing UAV and Flight Tests

Taxiing Characteristic Analysis and Control for Full-Wing Solar-Powered Unmanned Aerial Vehicle

Longitudinal Control Method for Full-Wing UAVs Based on Vector Field and Active Disturbance Rejection Control Method

Research on the Taxiing Control Method of a Small Full-Wing UAV under the Sensor Constraints

Taxiing Control of Full-wing Solar-powered UAV by Using Differential Propeller Thrust

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