With the increasing number of radar-equipped vehicles in dense traffic situations, millimeter wave radars are suffering from serious interference problems. Therefore, this article presents a novel bi-level $l_{1}$ optimization based approach for reducing interferences between automotive radars for range, velocity and angle measurement. Firstly, sparse difference analysis between the interfering signal and the target signal is investigated. According to the analysis results, one bi-level based signal optimization model is further derived by using $l_{1}$ -norm penalized least squares. This bi-level optimization enables a trade-off between suppressing interference and preserving radar targets. Specifically, in the first $l_{1}$ level, the interfering signal is first optimized as the “desired signal”, while the target is considered as “noise”. Meanwhile, sparse optimization is applied on the target signals in the frequency domain at the second $l_{1}$ level. Finally, the iterated soft-thresholding algorithm is used to optimize the proposed model. In real road interference suppression experiments, the proposed method improves the signal to interference plus noise ratio (SINR) for the target from 5.06 dB to 19.26 dB in the range-Doppler domain and from 6.86 dB to 22.10 dB in the azimuth spatial domain.
Bi-Level l1 Optimization-Based Interference Reduction for Millimeter Wave Radars
IEEE Transactions on Intelligent Transportation Systems ; 24 , 1 ; 728-738
01.01.2023
4378943 byte
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
Millimeter-wave radars for automotive use
Tema Archiv | 1988
|EMERGENCY STEERING SYSTEM BASED ON MILLIMETER-WAVE RADARS
Europäisches Patentamt | 2023
|Millimeter-wave automotive radars and related technology
Tema Archiv | 1996
|Europäisches Patentamt | 2022
|