Manisha Sharma

Work place: Bhilai Institute of Technology Durg (C.G.), India

E-mail: manishasharma1@rediffmail.com

Website:

Research Interests: Network Security, Network Architecture, Image Manipulation, Image Compression, Image Processing

Biography

Prof. Manisha Sharma received the B.E. degree in Electronics Engineering from MACET Bhopal, Madhya Pradesh, India in 1993 and the M.E. degree in Electronics Engineering in Government College of Engineering and Technology, Jabalpur, Madhya Pradesh, India in 1997. She has completed the Ph.D. degree in CSVTU, Bhilai (C.G.) University in Electronics Telecommunication and currently working as Professor and Head in the department of Electronics Telecommunication. She has a total teaching experience of about 20 years. She has published 20 papers in the reputed international journals, 20 papers in the national conferences and 18 papers in the international forums. Her research area includes Secure Communication, Signal Processing, Digital Image Processing and Network Security and Watermarking. She is an active member of CSI also a life time member of ISTE.

Author Articles
Review of Segmentation Methods for Brain Tissue with Magnetic Resonance Images

By Ritu Agrawal Manisha Sharma

DOI: https://doi.org/10.5815/ijcnis.2014.04.07, Pub. Date: 8 Mar. 2014

Medical Magnetic Resonance Images (MRI) is characterized by a composition of small differences in signal intensities between different tissues types. Thus ambiguities and uncertainties are introduced in image formation. In this paper, review of the current approaches in the tissue segmentation of MR Brain Images has been presented. The segmentation algorithms has been divided into four categories which is able to deal with different intensity non-uniformity as adaptive spatial Fuzzy C - means, Markov Random Field, Fuzzy connectedness method and atlas based re-fuzzy connectedness. The performance of these segmentation methods have been compared in terms of validation metric as dice similarity coefficient, overlap ratio and Jaccard coefficient. The comparison of all validation metric at different levels of intensity non-uniformity shows that adaptive Fuzzy C - means clustering segmentation method give better result in segmentation of brain tissue.

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Semifragile Watermarking Schemes for Image Authentication- A Survey

By Archana Tiwari Manisha Sharma

DOI: https://doi.org/10.5815/ijcnis.2012.02.07, Pub. Date: 8 Mar. 2012

Digital images are very easy to manipulate, store, publish and secondary creation this juggle will lead to serious consequence in some applications such as military image, medical image. So, integrity of digital image must be authenticated. Tools that help us establish the authenticity and integrity of digital media are thus essential and can prove vital whenever questions are raised about the origin of an image and its content. To project authenticity of images semi fragile watermarking is very concerned by researchers because of its important function in content authentication. Semifragile watermarking aim to monitor contents of images not its representations. In present paper various semi fragile water marking algorithm are studied using some image quality matrices, insertion methods used, verification method. Finally some observations are given based on literature survey of algorithms and techniques of semifragile watermarking techniques.

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