Abstract
In this paper, an urban-based path planning algorithm that considered multiple obstacles and road constraints in a university campus environment with an autonomous micro electric vehicle (micro-EV) is studied. Typical path planning algorithms, such as A*, particle swarm optimization (PSO), and rapidly exploring random tree* (RRT*), take a single arrival point, resulting in a lane departure situation on the high curved roads. Further, these could not consider urban-constraints to set collision-free obstacles. These problems cause dangerous obstacle collisions. Additionally, for drive stability, real-time operation should be guaranteed. Therefore, an urban-based online path planning algorithm, which is robust in terms of a curved-path with multiple obstacles, is proposed. The algorithm is constructed using two methods, A* and an artificial potential field (APF). To validate and evaluate the performance in a campus environment, autonomous driving systems, such as vehicle localization, object recognition, vehicle control, are implemented in the micro-EV. Moreover, to confirm the algorithm stability in the complex campus environment, hazard scenarios that complex obstacles can cause are constructed. These are implemented in the form of a delivery service using an autonomous driving simulator, which mimics the Chungbuk National University (CBNU) campus.
Highlights
Research on autonomous driving vehicles is actively carried out, and a considerable number of commercial companies and research institutes are participating in such a study.Autonomous driving is typically composed of recognition, judgment, and control, and there are path planning techniques used for judgment
As an initial step for the urbanbased path planning research, we studied urban-based local path planning on the Chungbuk National University (CBNU)
The path planning algorithm applied to the campus environment, MGPF-Hybrid A*, was proposed to ensure collision-free driving by considering road constraints and multiple obstacles
Summary
Research on autonomous driving vehicles is actively carried out, and a considerable number of commercial companies and research institutes are participating in such a study. The campus road environment is similar to that of the urban environment, but the complexity of dangerous variables is low. Due to these advantages, a commercial company, Baemin, located in South Korea, which delivers food to customers, is currently developing a mobile robot that performs unmanned delivery services on the walkway of Konkuk University [1], which road for people only. As an initial step for the urbanbased path planning research, we studied urban-based local path planning on the CBNU campus road environment, not on the walkway, with an autonomous delivery micro-EV.
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