Title: A robust approach for denoising and enhancement of mammographic images contaminated with high density impulse noise
Authors: Akshat Jain; Sonam Singh; Vikrant Bhateja
Addresses: Department of Electronics and Communication Engineering, SRMGPC, Tewariganj, Faizabad Road, Lucknow (U.P.), India ' Department of Electronics and Communication Engineering, SRMGPC, Tewariganj, Faizabad Road, Lucknow (U.P.), India ' Department of Electronics and Communication Engineering, SRMGPC, Tewariganj, Faizabad Road, Lucknow (U.P.), India
Abstract: The categorisation of breast lesions as either benign or malignant if done accurately; would greatly reduce the mortality rate due to breast cancer all around the world. But the process is very challenging as the noise particles are generally detected as false positives which can be minimised only by the selective enhancement of the features of the mammogram indicative of cancer. This paper presents a combined approach for the suppression of high density impulse noise followed by the contrast enhancement of mammographic breast lesions. The application of the proposed denoising method is done iteratively to effectively remove the impulse noise. The non-linear enhancement operator with multistate adaptive gain is then passed over the denoised image for mammographic feature enhancement. Results of simulation show a marked improvement in the restoration quality of the contaminated images, preserving the finer features at high noise densities requiring not more than three iterations. With the optimal tuning of parameters, the enhancement of the targeted region of interest (ROI) is obtained with reasonable suppression of the background.
Keywords: contrast improvement index; CII; high density impulse noise; multistate gain; peak signal to noise ratio; PSNR; robust estimation; sigmoid function; image denoising; image enhancement; mammographic images; mammograms; medical imaging; breast lesions; breast cancer; simulation.
DOI: 10.1504/IJCONVC.2013.054659
International Journal of Convergence Computing, 2013 Vol.1 No.1, pp.38 - 49
Received: 07 Apr 2012
Accepted: 03 Jun 2012
Published online: 19 Jul 2014 *