MIMO system for fast imaging at 90 GHz

Abstract: A millimeter wave imaging system operating around 90 GHz with 7.5 GHz bandwidth is presented. 2D images with 20 mm resolution in range and 3.2° in azimuth are obtained with an 1×4 MIMO approach. The performance of receiver and transmitter modules driven by a Direct Digital Synthesizer is discussed. Experimental data on radar imaging between 1 and 4 m is shown and the used calibration is discussed in further detail. The system successfully achieves a dynamic range of more than 40 dB

“…Furthermore, the group velocity inside the waveguide results in a sweep-time-dependent delay and thus phase modulation φ(t) in the IF-band. While this is of less severity for narrowband applications like applications presented in this publication, for wideband measurements like radar imaging, inline production monitoring, or nondestructive testing, a calibration can be applied [24], [25] resulting in the blue curves from Fig. 16/17.…”

Versatile Dual-Receiver 94-GHz FMCW Radar System With High Output Power and 26-GHz Tuning Range for High Distance Applications

“…Furthermore, the group velocity inside the waveguide results in a sweep-time-dependent delay and thus phase modulation φ(t) in the IF-band. While this is of less severity for narrowband applications like applications presented in this publication, for wideband measurements like radar imaging, inline production monitoring, or nondestructive testing, a calibration can be applied [24], [25] resulting in the blue curves from Fig. 16/17.…”

Versatile Dual-Receiver 94-GHz FMCW Radar System With High Output Power and 26-GHz Tuning Range for High Distance Applications

Focused imaging by geometric optics for real-time passenger screening at sub-millimeter wave frequencies

Off-the-Grid Sparse Imaging by One-Dimensional Sparse MIMO Array