Zhenpeng Du scite author profile

Zhenpeng Du

3Publications

26Citation Statements Received

81Citation Statements Given

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Affiliations

China University of Petroleum, East China

Publications

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A Neural Network Based Landing Method for an Unmanned Aerial Vehicle with Soft Landing Gears

Luo

Wang

et al. 2019

Applied Sciences

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This paper presents the design, implementation, and testing of a soft landing gear together with a neural network-based control method for replicating avian landing behavior on non-flat surfaces. With full consideration of unmanned aerial vehicles and landing gear requirements, a quadrotor helicopter, comprised of one flying unit and one landing assistance unit, is employed. Considering the touchdown speed and posture, a novel design of a soft mechanism for non-flat surfaces is proposed, in order to absorb the remaining landing impact. The framework of the control strategy is designed based on a derived dynamic model. A neural network-based backstepping controller is applied to achieve the desired trajectory. The simulation and outdoor testing results attest to the effectiveness and reliability of the proposed control method.

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Neural Network Control Design for an Unmanned Aerial Vehicle with a Suspended Payload

Luo

2019

Electronics

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Unmanned aerial vehicles (UAVs) demonstrate excellent manoeuvrability in cluttered environments, which makes them a suitable platform as a data collection and parcel delivering system. In this work, the attitude and position control challenges for a drone with a package connected by a wire is analysed. During the delivering task, it is very difficult to eliminate the external unpredictable disturbances. A robust neural network-based backstepping sliding mode control method is designed, which is capable of monitoring the drone’s flight path and desired attitude with a suspended cable attached. The convergence of the position and attitude errors together with the Lyapunov function are employed to attest to the robustness of the nonlinear transportation platform. The proposed control system is tested with a simulation and in an outdoor environment. The simulation and open field test results for the UAV transportation platform verify the controllers’ reliability.

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Evolution of UAV Landing Structures in the Bistable Space of Kresling Origami Structures

Luo

2023

IEEE Robot. Autom. Lett.

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Zhenpeng Du

A Neural Network Based Landing Method for an Unmanned Aerial Vehicle with Soft Landing Gears

Neural Network Control Design for an Unmanned Aerial Vehicle with a Suspended Payload

Evolution of UAV Landing Structures in the Bistable Space of Kresling Origami Structures

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