Real-time collision-free motion planning of a mobile robot using a Neural Dynamics-based approach
Yang, S.X.; Meng, M.Q.-H.
Neural Networks, IEEE Transactions on
Volume 14, Issue 6, Nov. 2003 Page(s): 1541 - 1552
Digital Object Identifier   10.1109/TNN.2003.820618
Summary: A neural dynamics based approach is proposed for real-time motion planning with obstacle avoidance of a mobile robot in a nonstationary environment. The dynamics of each neuron in the topologically organized neural network is characterized by a shunting equation or an additive equation. The real-time collision-free robot motion is planned through the dynamic neural activity landscape of the neural network without any learning procedures and without any local collision-checking procedures at each step of the robot movement. Therefore the model algorithm is computationally simple. There are only local connections among neurons. The computational complexity linearly depends on the neural network size. The stability of the proposed neural network system is proved by qualitative analysis and a Lyapunov stability theory. The effectiveness and efficiency of the proposed approach are demonstrated through simulation studies.

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