Abstract
Terahertz time domain spectroscopy imaging systems suffer from the problems of long image acquisition time and massive data processing. Reducing the sampling rate will lead to the degradation of the imaging reconstruction quality. To solve this issue, a novel terahertz imaging model, named the dual sparsity constraints terahertz image reconstruction model (DSC-THz), is proposed in this paper. DSC-THz fuses the sparsity constraints of the terahertz image in wavelet and gradient domains into the terahertz image reconstruction model. Differing from the conventional wavelet transform, we introduce a non-linear exponentiation transform into the shift invariant wavelet coefficients, which can amplify the significant coefficients and suppress the small ones. Simultaneously, the sparsity of the terahertz image in gradient domain is used to enhance the sparsity of the image, which has the advantage of edge preserving property. The split Bregman iteration scheme is utilized to tackle the optimization problem. By using the idea of separation of variables, the optimization problem is decomposed into subproblems to solve. Compared with the conventional single sparsity constraint terahertz image reconstruction model, the experiments verified that the proposed approach can achieve higher terahertz image reconstruction quality at low sampling rates.
Highlights
Terahertz band refers to the electromagnetic spectrum region with frequency from 100 GHz to 10 THz, which is between millimeter wave and infrared light
In order to further improve the terahertz image reconstruction quality, a novel DSCTHz model based on the dual sparsity constraints of the terahertz image in wavelet and gradient domains is proposed in this paper
terahertz time domain spectroscopy (THz-TDS) imaging systems suffer from long image acquisition time and massive data processing because of their raster-scanning mechanism
Summary
Terahertz band refers to the electromagnetic spectrum region with frequency from 100 GHz to 10 THz, which is between millimeter wave and infrared light. Fast spatial domain terahertz imaging using block-based CS was proposed in [19,20] This method can shorten scan time and speed up the imaging processing of the conventional terahertz imaging systems without any hardware addition or modification. This method only uses the sparsity of the terahertz image in the frequency domain for reconstruction, and the reconstruction quality is degraded when the sampling rate is reduced. In order to solve this issue, a novel terahertz imaging method from undersampled data which fuses the dual sparsity constraints of the terahertz image in wavelet and gradient domains is proposed in this paper.
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