Testing Scenario Library Generation for Connected and Automated Vehicles, Part II: Case Studies
May 09, 2019 Β· Declared Dead Β· π IEEE transactions on intelligent transportation systems (Print)
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Authors
Shuo Feng, Yiheng Feng, Haowei Sun, Shao Bao, Yi Zhang, Henry X. Liu
arXiv ID
1905.03428
Category
cs.RO: Robotics
Cross-listed
cs.AI
Citations
100
Venue
IEEE transactions on intelligent transportation systems (Print)
Last Checked
4 months ago
Abstract
Testing scenario library generation (TSLG) is a critical step for the development and deployment of connected and automated vehicles (CAVs). In Part I of this study, a general methodology for TSLG is proposed, and theoretical properties are investigated regarding the accuracy and efficiency of CAV evaluation. This paper aims to provide implementation examples and guidelines, and to enhance the proposed methodology under high-dimensional scenarios. Three typical cases, including cut-in, highway-exit, and car-following, are designed and studied in this paper. For each case, the process of library generation and CAV evaluation is elaborated. To address the challenges brought by high dimensions, the proposed methodology is further enhanced by reinforcement learning technique. For all three cases, results show that the proposed methods can accelerate the CAV evaluation process by multiple magnitudes with same evaluation accuracy, if compared with the on-road test method.
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