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Paper ThBT15.6

Ning, Minghao (University of Waterloo), Ahmad, Alghooneh (University of Waterloo), Sun, Chen (University of Waterloo), Zhang, Ruihe (University of Waterloo), Panahandeh, Pouya (University of Waterloo), Tuer, Steven (University of Waterloo), Hashemi, Ehsan (University of Alberta), Khajepour, Amir (University of Waterloo)

An Efficient Approach to Generate Safe Drivable Space by LiDAR-Camera-HDmap Fusion

Scheduled for presentation during the Poster Session "Safety and Reliability Techniques for Autonomous Vehicles" (ThBT15), Thursday, September 26, 2024, 14:30−16:30, Foyer

2024 IEEE 27th International Conference on Intelligent Transportation Systems (ITSC), September 24- 27, 2024, Edmonton, Canada

This information is tentative and subject to change. Compiled on December 26, 2024

Keywords Sensing, Vision, and Perception, Advanced Vehicle Safety Systems, Multi-autonomous Vehicle Studies, Models, Techniques and Simulations

Abstract

In this paper, we propose an accurate and robust perception module for Autonomous Vehicles (AVs) for drivable space extraction. Perception is crucial in autonomous driving, where many deep learning-based methods, while accurate on benchmark datasets, fail to generalize effectively, especially in diverse and unpredictable environments. Our work introduces a robust easy-to-generalize perception module that leverages LiDAR, camera, and HD map data fusion to deliver a safe and reliable drivable space in all weather conditions. We present an adaptive ground removal and curb detection method integrated with HD map data for enhanced obstacle detection reliability. Additionally, we propose an adaptive DBSCAN clustering algorithm optimized for precipitation noise, and a cost-effective LiDAR-camera frustum association that is resilient to calibration discrepancies. Our comprehensive drivable space representation incorporates all perception data, ensuring compatibility with vehicle dimensions and road regulations. This approach not only improves generalization and efficiency, but also significantly enhances safety in autonomous vehicle operations. Our approach is tested on a real dataset and its reliability is verified during the daily (including harsh snowy weather) operation of our autonomous shuttle, WATonoBus.

 

 

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