Title :
Performance Evaluation of Automotive Radars Using Carrier-Phase Differential GPS
Author_Institution :
R&D Center, Electr. & Controls Integration Lab., Gen. Motors, Warren, MI, USA
Abstract :
We describe a centimeter-level ground-truth system based on GPS relative positioning. One of the goals of the system is for performance evaluation of automotive radars by creating objective test procedures for the radars. In support of this goal, an effective scheme is used to handle signal attenuation or blockage that leads to the changes of satellite visible map and cycle slip. Multiplatform GPS measurements and low-cost vehicle dynamic sensor data are integrated for vehicle trajectory reconstruction. Experimental results are presented to illustrate the system´s actual centimeter-level accuracy and superior performance over Kalman smoothing. The effectiveness of the proposed ground-truth system is demonstrated by evaluating mono-pulse short-range radars whose accuracy is about submeter level.
Keywords :
Global Positioning System; Kalman filters; belief networks; driver information systems; performance evaluation; road vehicle radar; Bayesian network; Kalman smoothing; automotive radars; carrier-phase differential GPS; centimeter-level ground-truth system; cycle slip; driver assistance; intelligent transportation systems; mono-pulse short-range radars; performance evaluation; satellite visible map; signal attenuation; signal blockage; vehicle trajectory reconstruction; Attenuation; Automotive engineering; Global Positioning System; Kalman filters; Satellites; Smoothing methods; Spaceborne radar; System testing; Vehicle dynamics; Vehicles; Automotive radar performance evaluation; Bayesian network (BN); differential carrier-phase Global Positioning System (GPS); vehicle trajectory reconstruction;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
DOI :
10.1109/TIM.2010.2045272
