Infrastructure-Based Cooperative Perception at a Traffic Intersection: Overview and Challenges: Preprint

Research output: Contribution to conferencePaper

Abstract

Recent advancement in autonomous driving vehicles and V2X communication has attracted increasing attention towards Intelligent Transportation Systems to build a safe and reliable traffic intersection. However, most of the systems are still at the initial stages and require significant progress to become a reality. This paper presents an overview of NREL Infrastructure Perception and Control (IPC) framework which is an open-source track-data fusion engine which takes input from infrastructure-based perception sensors and cooperatively shared messages from Connected Autonomous Vehicles (CAVs) and Connected Vehicle (CVs) and the challenges associated with deploying such cooperative perception framework at a four-way traffic intersection in the city of Colorado Springs, CO, USA. The sensor data is collected by deploying two radars and two LiDAR sensors on the IPC mobile lab and two radars on diagonally opposite traffic poles at the proposed intersection. The sensor output results imply the need for rapid sensor calibration to bring the collective perception to a common coordinate frame, the importance of time synchronization between the sensors in order to capture accurate spatial and temporal alignment of the objects, and the need for a health monitoring system with fail safe closed-loop detection model for real-time deployment.
Original languageAmerican English
Number of pages9
StatePublished - 2024
EventTransportation Research Board Annual Meeting 2025 - Washington D.C
Duration: 5 Jan 20259 Jan 2025

Conference

ConferenceTransportation Research Board Annual Meeting 2025
CityWashington D.C
Period5/01/259/01/25

NREL Publication Number

  • NREL/CP-5400-92133

Keywords

  • camera
  • clock synchronization
  • cooperative perception
  • infrastructure perception and control
  • intelligent transportation system
  • lidar
  • radar
  • sensor calibration

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