Title :
Inpainting for Remotely Sensed Images With a Multichannel Nonlocal Total Variation Model
Author :
Qing Cheng ; Huanfeng Shen ; Liangpei Zhang ; Pingxiang Li
Author_Institution :
State Key Lab. of Inf. Eng. in Surveying, Mapping, & Remote Sensing, Wuhan Univ., Wuhan, China
Abstract :
Filling dead pixels or removing uninteresting objects is often desired in the applications of remotely sensed images. In this paper, an effective image inpainting technology is presented to solve this task, based on multichannel nonlocal total variation. The proposed approach takes advantage of a nonlocal method, which has a superior performance in dealing with textured images and reconstructing large-scale areas. Furthermore, it makes use of the multichannel data of remotely sensed images to achieve spectral coherence for the reconstruction result. To optimize the proposed variation model, a Bregmanized-operator-splitting algorithm is employed. The proposed inpainting algorithm was tested on simulated and real images. The experimental results verify the efficacy of this algorithm.
Keywords :
geophysical image processing; image texture; remote sensing; Bregmanized operator splitting algorithm; dead pixel filling; image inpainting technology; multichannel nonlocal total variation model; reconstructing large scale areas; remotely sensed image inpainting; textured images; uninteresting object removal; Computational complexity; Gold; Image reconstruction; Noise; Optimization; Remote sensing; TV; Inpainting; multichannel; nonlocal total variation (NLTV); remotely sensed image;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
DOI :
10.1109/TGRS.2012.2237521
