Title :
Novel Methods to Accelerate CS Radar Imaging by NUFFT
Author :
Shilong Sun ; Guofu Zhu ; Tian Jin
Author_Institution :
Nat. Univ. of Defense Technol., Changsha, China
Abstract :
Soon after its innovation, compressive sensing (CS) was rapidly applied to radar imaging. However, the huge computational complexity and the memory requirements have become the bottlenecks in its widespread applications to large-scale and real-time radar imaging. In this paper, two novel methods based on fast Gaussian gridding nonuniform fast Fourier transform are proposed to speed up CS radar imaging and reduce the memory requirement. By using the proposed methods, the application of CS imaging method can be extended to large-scale and real-time radar imaging with high reconstructing efficiency and small memory requirement. Theoretical analysis and numerical results from the aspects of accuracy, efficiency, and memory requirement validate the proposed methods. Simulation and real data imaging results by spectral projection gradient ℓ1-norm method are given to further demonstrate the efficiency of the proposed methods.
Keywords :
Gaussian processes; compressed sensing; computational complexity; fast Fourier transforms; gradient methods; radar computing; radar imaging; spectral analysis; storage management; CS radar imaging; Gaussian gridding; NUFFT; compressive sensing; computational complexity; data imaging; memory requirement; nonuniform fast Fourier transform; spectral projection gradient l1-norm method; Acceleration; Accuracy; Algorithm design and analysis; Computational complexity; Memory management; Radar imaging; Standards; Compressive sensing (CS); fast Gaussian gridding; nonuniform fast Fourier transform (NUFFT); spectral projection gradient $ell_{1}$-norm (SPGL1);
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
DOI :
10.1109/TGRS.2014.2325492
