Litcius/Paper detail

Adaptive terahertz image super-resolution with adjustable convolutional neural network

Yade Li, Weidong Hu, Xin Zhang, Zhihao Xu, Jiaqi Ni, L.P. Ligthart

2020Optics Express60 citationsDOIOpen Access PDF

Abstract

During the real-aperture-scanning imaging process, terahertz (THz) images are often plagued with the problem of low spatial resolution. Therefore, an accommodative super-resolution framework for THz images is proposed. Specifically, the 3D degradation model for the imaging system is firstly proposed by incorporating the focused THz beam distribution, which determines the relationship between the imaging range and the corresponding image restoration level. Secondly, an adjustable CNN is introduced to cope with this range dependent super-resolution problem. By simply tuning an interpolation parameter, the network can be adjusted to produce arbitrary restoration levels between the trained fixed levels without extra training. Finally, by selecting the appropriate interpolation coefficient according to the measured imaging range, each THz image can be coped with its matched network and reach the outstanding super-resolution effect. Both the simulated and real tested data, acquired by a 160 ∼ 220 GHz imager, have been used to demonstrate the superiority of our method.

Topics & Concepts

Terahertz radiationOpticsInterpolation (computer graphics)Image resolutionComputer scienceConvolutional neural networkPoint spread functionAperture (computer memory)Image restorationImage qualityImage processingArtificial intelligenceImage (mathematics)Computer visionPhysicsAcousticsAdvanced Image Processing TechniquesTerahertz technology and applicationsImage Processing Techniques and Applications