Yingchong Ma scite author profile

Yingchong Ma

3Publications

18Citation Statements Received

98Citation Statements Given

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Affiliations

Laboratoire d'Automatique, Génie Informatique et Signal, École Centrale de Lille

Publications

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Local path planning for mobile robots based on intermediate objectives

Zheng

Perruquetti

et al. 2014

Robotica

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International audienceThis paper presents a path planning algorithm for autonomous navigation of non-holonomic mobile robots in complex environments. The irregular contour of obstacles is represented by segments. The goal of the robot is to move towards a known target while avoiding obstacles. The velocity constraints, robot kinematic model and non-holonomic constraint are considered in the problem. The optimal path planning problem is formulated as a constrained receding horizon planning problem and the trajectory is obtained by solving an optimal control problem with constraints. Local minima are avoided by choosing intermediate objectives based on the real time environment

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Real-time local path planning for mobile robots

Zheng

Perruquetti

2013

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Ahstract-This paper presents a path planning algorithm for autonomous navigation of nonholonomic mobile robots in complex environment. The irregular contour of obstacles is represented by segments. The goal of the robot is to move towards a known target while avoiding obstacles. The velocity constraints, kinematic robot model and nonholonomic constraint are considered in the problem. The optimal path planning problem is formulated as a constrained receding horizon planning problem and the trajectory is obtained by solving an optimal control problem with constraints. Local minima are avoided by choosing intermediate objectives based on the real time environment.

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Motion planning for non-holonomic mobile robots using the i-PID controller and potential field

Zheng²,

Perruquetti

et al. 2014

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This paper proposes a motion planning approach for non-holonomic mobile robots. Firstly, motion planning using i-PID controller is presented. Then we improve the old potential field function to produce smooth repulsive force. Finally a new repulsive function of robot orientation and angular velocity is proposed to improve the performance of obstacle avoidance. The effectiveness and the robustness of the proposed method are shown thereafter via several simulations.

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Yingchong Ma

Local path planning for mobile robots based on intermediate objectives

Real-time local path planning for mobile robots

Motion planning for non-holonomic mobile robots using the i-PID controller and potential field

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