Gurbuz, A. C.Teke, O.Arıkan, Orhan2016-02-082016-02-0820131017-9909http://hdl.handle.net/11693/21023Spatial sparsity of the target space in subsurface or through-the-wall imaging applications has been successfully used within the compressive-sensing framework to decrease the data acquisition load in practical systems, while also generating highresolution images. The developed techniques in this area mainly discretize the continuous target space into grid points and generate a dictionary of model data that is used in image-reconstructing optimization problems. However, for targets that do not coincide with the computation grid, imaging performance degrades considerably. This phenomenon is known as the off-grid problem. This paper presents a novel sparse ground-penetrating radar imaging method that is robust for off-grid targets. The proposed technique is an iterative orthogonal matching pursuit-based method that uses gradientbased steepest ascent-type iterations to locate the off-grid target. Simulations show that robust results with much smaller reconstruction errors are obtained for multiple off-grid targets compared to standard sparse reconstruction techniques. © 2013 SPIE and IS&T.EnglishGround Penetrating RadarHigh resolution imageImaging performanceOptimization problemsPractical systemsReconstruction errorSparse reconstructionThrough the wall imagingGeological surveysRadar imagingIterative methodsArticle10.1117/1.JEI.22.2.021007