Abstract
Robust and accurate perception is important for modern intelligent transportation systems (ITS), which use sensors of various modalities for data fusion to create a digital twin of an intersection. Sensor calibration is an important process that creates a unified coordinate frame for the sensor output data so that it can be used for data fusion. Classical approaches for sensor calibration are time-consuming, require an overlapping field of view for feature matching, and are not feasible for ITS application as they cause disruptions in the flow of traffic. In this paper, we present a spatiotemporal automatic calibration approach to calibrate multiple infrastructure lidar, radar, and cameras installed at a traffic intersection. The approach uses global navigation satellite system (GNSS) positioning information shared by connected vehicles, and when the vehicle is detected by the sensor, we match the sensor detections with the GNSS coordinates. The proposed algorithm is evaluated with a real-world dataset utilizing detections from two radars, cameras, and lidars with a test vehicle instrumented with a post-processing kinematic (PPK)-corrected GNSS driving past the sensors installed at a four-way traffic intersection. The experimental results show that the proposed automatic calibration approach can achieve the transformation with a root mean squared error of less than 0.5 for radar and lidar and less than 2 for camera detections. The ability to rapidly calibrate sensors not only benefits initial installations, but can also be used for system health monitoring, while utilizing available connected vehicle data to test the real-time sensor fidelity and operational status.
Original language | American English |
---|---|
Number of pages | 9 |
State | Published - 2024 |
Event | 27th IEEE International Conference on Intelligent Transportation Systems - Edmonton Canada Duration: 24 Sep 2024 → 27 Sep 2024 |
Conference
Conference | 27th IEEE International Conference on Intelligent Transportation Systems |
---|---|
City | Edmonton Canada |
Period | 24/09/24 → 27/09/24 |
NREL Publication Number
- NREL/CP-5400-89785
Keywords
- connected vehicles
- GNSS
- intelligent transportation system
- perception
- sensor calibration