Tessamma Thomas scite author profile

Tessamma Thomas

5Publications

71Citation Statements Received

83Citation Statements Given

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Affiliations

Cochin University of Science and Technology

Publications

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Discrete wavelet transform de-noising in eukaryotic gene splicing

George

Thomas

2010

BMC Bioinformatics

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BackgroundThis paper compares the most common digital signal processing methods of exon prediction in eukaryotes, and also proposes a technique for noise suppression in exon prediction. The specimen used here which has relevance in medical research, has been taken from the public genomic database - GenBank.MethodsHere exon prediction has been done using the digital signal processing methods viz. binary method, EIIP (electron-ion interaction psuedopotential) method and filter methods. Under filter method two filter designs, and two approaches using these two designs have been tried. The discrete wavelet transform has been used for de-noising of the exon plots.ResultsResults of exon prediction based on the methods mentioned above, which give values closest to the ones found in the NCBI database are given here. The exon plot de-noised using discrete wavelet transform is also given.ConclusionAlterations to the proven methods as done by the authors, improves performance of exon prediction algorithms. Also it has been proven that the discrete wavelet transform is an effective tool for de-noising which can be used with exon prediction algorithms.

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A New Fast Fractal Modeling Approach for the Detection of Microcalcifications in Mammograms

Sankar

Thomas

2009

J Digit Imaging

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Automatic Optic Disc Boundary Extraction from Color Fundus Images

Thomas¹,

Devasia²,

Jacob³

2014

ijacsa

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Abstract-Efficient optic disc segmentation is an important task in automated retinal screening. For the same reason optic disc detection is fundamental for medical references and is important for the retinal image analysis application. The most difficult problem of optic disc extraction is to locate the region of interest. Moreover it is a time consuming task. This paper tries to overcome this barrier by presenting an automated method for optic disc boundary extraction using Fuzzy C Means combined with thresholding

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Spatially adaptive image denoising using inter‐scale dependence in directionlet domain

Sethunadh

Thomas

2015

IET Image Processing

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A neural network method for mammogram analysis ]based on statistical features

Mini

Thomas

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Tessamma Thomas

Discrete wavelet transform de-noising in eukaryotic gene splicing

A New Fast Fractal Modeling Approach for the Detection of Microcalcifications in Mammograms

Automatic Optic Disc Boundary Extraction from Color Fundus Images

Spatially adaptive image denoising using inter‐scale dependence in directionlet domain

A neural network method for mammogram analysis ]based on statistical features

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