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Multichannel Regularized Iterative Restoration of Motion Compensated Image Sequences

Mun Gi Choi, N.P. Galatsanos, Aggelos K. Katsaggelos

Year
1996
Citations
16

Abstract

Restoration of image sequences is an important problem that can be encountered in many image processing applications, such as visual communications, robot guidance, and target tracking. The independent restoration of each frame in an image sequence is a suboptimal approach because the between-frame correlations are not explicitly taken into consideration. In this paper we address this problem by proposing a multichannel restoration approach. The multiple time-frames (channels) of the image sequence are restored simultaneously by using a multichannel regularized least-squares formulation of the problem. The regularization operator captures both within- and between-frame (channel) properties of the image sequence with the explicit use of the displacement vector field. We propose a number of different approaches to obtain the multichannel regularization operator, as well as an algorithm to iteratively compute the restored images. We present experiments that demonstrate the value of the proposed multichannel approach.

Keywords

Regularization (linguistics)Image restorationComputer visionArtificial intelligenceComputer scienceSequence (biology)Frame (networking)Image processingMotion estimationMathematics

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