5 research outputs found
Microwave Photonic Imaging Radar with a Millimeter-level Resolution
Microwave photonic radars enable fast or even real-time high-resolution
imaging thanks to its broad bandwidth. Nevertheless, the frequency range of the
radars usually overlaps with other existed radio-frequency (RF) applications,
and only a centimeter-level imaging resolution has been reported, making them
insufficient for civilian applications. Here, we propose a microwave photonic
imaging radar with a millimeter-level resolution by introducing a
frequency-stepped chirp signal based on an optical frequency shifting loop. As
compared with the conventional linear-frequency modulated (LFM) signal, the
frequency-stepped chirp signal can bring the system excellent capability of
anti-interference. In an experiment, a frequency-stepped chirp signal with a
total bandwidth of 18.2 GHz (16.9 to 35.1 GHz) is generated. Postprocessing the
radar echo, radar imaging with a two-dimensional imaging resolution of ~8.5
mm~8.3 mm is achieved. An auto-regressive algorithm is used to
reconstruct the disturbed signal when a frequency interference exists, and the
high-resolution imaging is sustained