TITLE:
A novel vague set approach for selective contrast enhancement of mammograms using multiresolution
AUTHORS:
Arpita Das, Mahua Bhattacharya
KEYWORDS:
Multiresolution; Vague Set Approach; True- membership Functions; False-Membership Functions
JOURNAL NAME:
Journal of Biomedical Science and Engineering,
Vol.2 No.8,
December
15,
2009
ABSTRACT: The proposed algorithm introduces a novel vague set approach to develop a selective but robust, flexible and intelligent contrast enhancement technique for mammograms. Wavelet based filtering analysis can produce Low Frequency (LF) and High Frequency (HF) subbands of the original input images. The extremely small size microcalcifications become visible under multiresolution techniques. LF subband is then fuzzified by conventional fuzzy c-means clustering (FCM) algorithm with justified number of clusters. HF components, representing the narrow protrusions and other fine details are also fuzzified by FCM with justified number of clusters. Vague set approach captures the hesitancies and uncertainties of truly affected masses/other breast abnormalities with normal glandular tissues. After highlighting the masses/microcalcifications accurately, both LF and HF subbands are transformed back to the original resolution by inverse wavelet transform. The results show that the proposed method can successfully enhance the selected regions of mammograms and provide better contrast images for visual interpretation.