Title :
A Compressed Sensing Formulation based on I/Q-dictionary: Experimental case study at millimeter-wave frequencies
Author :
Kuhnt, Markus ; Moll, Jochen ; Krozer, Viktor
Author_Institution :
Dept. of Phys., Goethe Univ. of Frankfurt, Frankfurt am Main, Germany
Abstract :
Modern radar systems demand for high data rates to enable high resolution radar imaging. Compressed Sensing (CS) has received great awareness in the last five years, because CS enables a reduction of the sampling frequency by exploiting the sparsity of the acquired signals and thereby allows to minimize the data rates. In this paper, we describe a novel CSformulation, where the dictionary is represented by the signals in-phase (I) and quadrature (Q) components. Experimental measurements from a laboratory stepped frequency radar system at W-band (78 GHz to 102 GHz) have been recorded and processed. Signal reconstruction results are shown for noisy signals as well as for on-grid and off-grid scenarios.
Keywords :
compressed sensing; millimetre wave radar; radar imaging; signal reconstruction; CS-formulation; I/Q-dictionary; compressed sensing formulation; frequency 78 GHz to 102 GHz; frequency sampling reduction; high data rates; high resolution radar imaging; laboratory stepped frequency radar system; millimeter-wave frequencies; signal reconstruction; Compressed sensing; Dictionaries; Image reconstruction; Millimeter wave radar; Radar imaging; Receivers;
Conference_Titel :
Microwave Conference (GeMiC), 2015 German
Conference_Location :
Nuremberg
DOI :
10.1109/GEMIC.2015.7107795
