Title :
Multichannel restoration with limited a priori information [electron microscopy of biological macromolecules]
Author :
Vrhel, Michael J. ; Unser, Michael
Author_Institution :
Color Savvy Syst. Ltd., Springboro, OH, USA
fDate :
4/1/1999 12:00:00 AM
Abstract :
We introduce a method for multichannel restoration of images in which there is severely limited knowledge about the undegraded signal, and possibly the noise. We assume that we know the channel degradations and that there will be a significant noise reduction in a postprocessing stage in which multiple realizations are combined. This post-restoration noise reduction is often performed when working with micrographs of biological macromolecules. The restoration filters are designed to enforce a projection constraint upon the entire system. This projection constraint results in a system that provides an oblique projection of the input signal into the subspace defined by the reconstruction device in a direction orthogonal to a space defined by the channel degradations and the restoration filters. The approach achieves noise reduction without distorting the signal by exploiting the redundancy of the measurements
Keywords :
biological techniques; biology computing; electron microscopy; filtering theory; image resolution; image restoration; interference suppression; molecular biophysics; biological macromolecules; channel degradations; input signal; limited a priori information; measurements redundancy; micrographs; multichannel image restoration; oblique projection; post-restoration noise reduction; postprocessing stage; projection constraint; restoration filters; subspace; undegraded signal; Degradation; Distortion measurement; Filters; Image reconstruction; Image restoration; Molecular biophysics; Noise measurement; Noise reduction; Signal restoration; Subspace constraints;
Journal_Title :
Image Processing, IEEE Transactions on
