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Path Planning for Autonomous Vehicle Based on a Two-Layered Planning Model in Complex Environment

Jiajia Chen, Rui Zhang, Wei Han, Wuhua Jiang, Jinfang Hu, Xiaoshan Lu, Xingtao Liu, Pan Zhao

2020Journal of Advanced Transportation26 citationsDOIOpen Access PDF

Abstract

The autonomous vehicle consists of perception, decision-making, and control system. The study of path planning method has always been a core and difficult problem, especially in complex environment, due to the effect of dynamic environment, the safety, smoothness, and real-time requirement, and the nonholonomic constraints of vehicle. To address the problem of travelling in complex environments which consists of lots of obstacles, a two-layered path planning model is presented in this paper. This method includes a high-level model that produces a rough path and a low-level model that provides precise navigation. In the high-level model, the improved Bidirectional Rapidly-exploring Random Tree (Bi-RRT) based on the steering constraint is used to generate an obstacle-free path while satisfying the nonholonomic constraints of vehicle. In low-level model, a Vector Field Histogram- (VFH-) guided polynomial planning algorithm in Frenet coordinates is introduced. Based on the result of VFH, the aim point chosen from improved Bi-RRT path is moved to the most suitable location on the basis of evaluation function. By applying quintic polynomial in Frenet coordinates, a real-time local path that is safe and smooth is generated based on the improved Bi-RRT path. To verify the effectiveness of the proposed planning model, the real autonomous vehicle has been placed in several driving scenarios with different amounts of obstacles. The two-layered real-time planning model produces flexible, smooth, and safe paths that enable the vehicle to travel in complex environment.

Topics & Concepts

Motion planningNonholonomic systemSmoothnessPath (computing)Computer scienceObstacle avoidanceMathematical optimizationAny-angle path planningSimulationControl theory (sociology)Artificial intelligenceRobotMathematicsMobile robotControl (management)Mathematical analysisProgramming languageRobotic Path Planning AlgorithmsAutonomous Vehicle Technology and SafetyRobotics and Sensor-Based Localization