Hybrid Beam-Steering OFDM-MIMO Radar: High 3-D Resolution With Reduced Channel Count

We report on the realization of a multichannel imaging radar that achieves uniform 2-D cross-range resolution by means of a linear array of a special form of leaky-wave antennas. The presented aperture concept enables a tradeoff between the available range resolution and a reduction in the number of channels required for a given angular resolution. The antenna front end is integrated within a multichannel radar based on stepped-carrier orthogonal frequency-division modulation, and the advantages and challenges specific to this combination are analyzed with respect to signal processing and a newly developed calibration routine. The system concept is fully implemented and verified in the form of a mobile demonstrator capable of soft real-time 3-D processing. By combining radio frequency (RF) components operating in the W-band (85-105 GHz) with the presented aperture, a 3-D resolution of less than 1.5 degrees x 1.5 degrees x 15 cm is demonstrated using only eight transmitters and eight receivers.

Automated summary

This study presents a multichannel imaging radar that achieves uniform 2-D cross-range resolution using a linear array of leaky-wave antennas, enabling a tradeoff between range resolution and the number of channels required for a given angular resolution. By combining W-band RF components with the presented aperture, a high 3-D resolution is achieved using only eight transmitters and receivers.