Oscar Montiel scite author profile

A hybrid path planning algorithm based on membrane pseudo-bacterial potential field (MemPBPF) is proposed. Membrane-inspired algorithms can reach an evolutionary behavior based on biochemical processes to find the best parameters for generating a feasible and safe path. The proposed MemPBPF algorithm uses a combination of the structure and rules of membrane computing. In that sense, the proposed MemPBPF algorithm contains dynamic membranes that include a pseudo-bacterial genetic algorithm for evolving the required parameters in the artificial potential field method. This hybridization between membrane computing, the pseudo-bacterial genetic algorithm, and the artificial potential field method provides an outperforming path planning algorithm for autonomous mobile robots. Computer simulation results demonstrate the effectiveness of the proposed MemPBPF algorithm in terms of path length considering collision avoidance and smoothness. Comparisons with two different versions employing a different number of elementary membranes and with other artificial potential field based algorithms are presented. The proposed MemPBPF algorithm yields improved performance in terms of time execution by using a parallel implementation on a multi-core computer. Therefore, the MemPBPF algorithm achieves high performance yielding competitive results for autonomous mobile robot navigation in complex and real scenarios. INDEX TERMS Artificial potential field, autonomous mobile robots, membrane computing, path planning, pseudo-bacterial genetic algorithm.

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Oscar Montiel

Path planning for autonomous mobile robot navigation with ant colony optimization and fuzzy cost function evaluation

Path planning for mobile robots using Bacterial Potential Field for avoiding static and dynamic obstacles

Mobile robot path planning using membrane evolutionary artificial potential field

Experimental study of intelligent controllers under uncertainty using type-1 and type-2 fuzzy logic

Hybrid Path Planning Algorithm Based on Membrane Pseudo-Bacterial Potential Field for Autonomous Mobile Robots

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