Date of Publication

4-2004

Document Type

Master's Thesis

Degree Name

Master of Science in Physics

Subject Categories

Physics

College

College of Science

Department/Unit

Physics

Thesis Adviser

Romeric F. Pobre

Defense Panel Chair

Robert C. Roleda

Defense Panel Member

Maricor Soriano
Edgar A. Vallar

Abstract/Summary

A technique to de-noise images, based from the research of Piz urica, Philips, Lemahieu and Acheroy, was developed and tested on a synthetic test image and a medical phantom image with added Gaussian, Salt and Pepper and Speckle noise. It was also applied to a synthetic aperture radar image, to a flourescence image, to a metaphase spread image and to a Landsat7 image. The standard deviation instead of the median absolute deviation was utilized and the adaptive shrinkage function was empirically derived instead of estimating it. A two-dimensional discrete stationary wavelet transform was performed on the input images using the Haar wavelet. Image quality measures, namely the mean squared error (MSE), the root mean squared error (RMSE), the peak signal to noise ratio (PSNR), Linfoot's criteria of fidelity (F), structural content (S), and correlation quality (Q) and the equivalent number of looks (ENL) were calculated before and after image de-noising. The noise structures in the images were estimated and the effect of varying the local spatial neighborhood importance parameter (y) of the shrinkage function was investigated. For the synthetic test image, the medical phantom image and the synthetic aperture radar image optimum results were obtained when y is equal to 0.2. However, a trend outside of the norms was obtained for the fluorescence image, for the Landsat7 image and especially for the metaphase spread image. The local spatial neighborhood importance parameter for the metaphase spread image was further varied to 0.025, 0.05, and 0.075 and 0.1 and optimum results occurred when y is equal to 0.05. The study showed that the effectiveness of the emperically-derived shrinkage function depended on the signal and noise distribution in the image.

Abstract Format

html

Language

English

Format

Electronic

Accession Number

CDTG003663

Shelf Location

Archives, The Learning Commons, 12F Henry Sy Sr. Hall

Physical Description

1 computer optical disc ; 4 3/4 in.

Keywords

Wavelets (Mathematics); Harmonic analysis; Functions; Mathematical analysis

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