Shubhendu Banerjee

Work place: Dept. of CSE, Narula Institute of Technology, Kolkata, West Bengal, India



Research Interests: Image Processing, Image Manipulation, Image Compression, Computer systems and computational processes


Shubhendu Banerjee, is currently working as Assistant Professor in the department of Computer Science & Engineering at Narula Institute of Technology, Kolkata, West Bengal, India. He has 1 publication in International conference proceedings. His research interest includes image and signal processing.

Author Articles
A Relook and Renovation over State-of-Art Salt and Pepper Noise Removal Techniques

By Aritra Bandyopadhyay Shubhendu Banerjee Atanu Das Rajib Bag

DOI:, Pub. Date: 8 Aug. 2015

Salt and pepper noise is a type of impulse noise, where certain amount of black and white dots appear in the image. The intensity is accumulated in 8 bit integer, giving 256 possible gray levels in the range (0 – 255).In this range salt and pepper noise takes either minimum or maximum intensity. Positive impulse appears as white (salt) points with intensity '255' and negative impulse appears as black (pepper) points with intensity '0' respectively. Salt and pepper noise removal is not an easy task mostly when noise density in the contaminated image is high and restoration of image quality is essential. Different filters like MF, SMF, AMF, PSMF, DBA, DBUTMF, and MDBUTMF and so on are noticed useful for taking away low, moderate and high density salt and pepper noise. The purpose of this paper is to present these filters first and then revise their art to enhance their performances and usefulness. The comparison shows that some of these filters are very fruitful in some particular noise density levels and hence classified applications on these situations are recommended based on the output of investigations.

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High Payload Watermarking using Residue Number System

By Shubhendu Banerjee Sayan Chakraborty Nilanjan Dey Arijit Kumar Pal Ruben Ray

DOI:, Pub. Date: 8 Feb. 2015

Information hiding or data hiding, also known as watermarking, has become a part and parcel of covert communication and copyright protection. Maximizing watermark payload is a major challenge for watermark researchers. To overcome this issue, we have proposed a new color image watermarking technique, using residue number system (RNS). RNS refers to a large integer using a set of smaller integers which relies on the Chinese remainder theorem of modular arithmetic for its operation. The proposed method takes pixel values from three watermark images and embeds them into the main cover image. Experimental results presented in this paper shows that the watermark can be successfully embedded and extracted from an image, without distorting the original image using the proposed technique. The high peak signal to noise ratio (PSNR) and payload values claims the robustness of the proposed method.

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