Mirroring the Parking Target: An Optimal-Control-Based Parking Motion Planner with Strengthened Parking Reliability and Faster Parking Completion

TL;DR

This paper introduces an optimal-control-based parking motion planner that mirrors the parking target, significantly improving parking success, efficiency, and reliability across various scenarios, suitable for real-time use.

Contribution

The paper presents a novel parking motion planner using a mirroring control logic, enhancing reliability, speed, and applicability in narrow and complex parking situations.

Findings

Parking success rate increased by 40.6%

Parking completion efficiency improved by 18.0%

Operation Design Domain expanded by 86.1%

Abstract

Automated Parking Assist (APA) systems are now facing great challenges of low adoption in applications, due to users' concerns about parking capability, reliability, and completion efficiency. To upgrade the conventional APA planners and enhance user's acceptance, this research proposes an optimal-control-based parking motion planner. Its highlight lies in its control logic: planning trajectories by mirroring the parking target. This method enables: i) parking capability in narrow spaces; ii) better parking reliability by expanding Operation Design Domain (ODD); iii) faster completion of parking process; iv) enhanced computational efficiency; v) universal to all types of parking. A comprehensive evaluation is conducted. Results demonstrate the proposed planner does enhance parking success rate by 40.6%, improve parking completion efficiency by 18.0%, and expand ODD by 86.1%. It shows its superiority in difficult parking cases, such as the parallel parking scenario and narrow spaces. Moreover, the average computation time of the proposed planner is 74 milliseconds. Results indicate that the proposed planner is ready for real-time commercial applications.