Abstract
The main objective of this paper is to focus on the local minima and the GNRON issues encountered in path planning by the artificial potential field (APF) method, and propose a novel approach to plan a trajectory adaptive for the environment that the obstacles are randomly distributed. By introducing the ideas of reactive behaviors (RB), the RB-APF method is presented, which combines the efficiency of the APF with the simplicity of the RB, so it can be suitable for real-time application in mobile robots. In this algorithm (RB-APF), the switch conditions and optimal selection equations are reasonably designed with the consideration of the different circumstances of the robot located in. Simulations are presented and the results further demonstrate that the proposed approach is applicable for the environment that obstacles are randomly distributed.
Publisher
Trans Tech Publications, Ltd.
Reference7 articles.
1. O. Cetin, Establishing obstacle and collision free communication relay for UAVs with artificial potential fields, Journal of Intelligent & Robotic Systems, 69(1-4), 2013, 361-372.
2. J. Y Zhang, Optimized path planning of mobile robot based on artificial potential field, Acta Aeronautica et Astronautica Sinica, 28(SUP), 2007, 183-188.
3. T. Zhang, Real-time motion planning for mobile robots by means of artificial potential field method in unknown environment, Industrial Robot-an International Journal, 37(4), 2010, 384-400.
4. R. Jing, Modified Newton's Method Applied to Potential Field-Based Navigation for Mobile Robots, IEEE TRANSACTIONS ON ROBOTICS, 22(2), 2006, 384-391.
5. O. Khatib, Real-time Obstacle Avoidance for Manipulators and Mobile Robots International Journal of Robotics Research, 5(1), 1986, 90-98.
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