Narendra Singh

Work place: Jaypee University of Engineering and Technology, Electronics and Communication Engineering Department, Guna, India



Research Interests: Computational Engineering, Engineering


Narendra Singh, born at Orai in Uttar Pradesh in 1977, obtained B. Tech. (Electronics & Instrumentation Engineering) in the year 2001 from Bundelkhand University, Jhansi, M. Tech. in Digital Systems in the year 2004 from M.N.N.I.T. Allahabad (Deemed University) and obtained PhD from Jaypee University of Engineering & Technology, Guna, (M.P.) in the year 2012. Narendra Singh joined JIET, Guna, as lecturer in Electronics and Communication Engineering in 2004. Currently he is assistant professor (senior grade) in ECE department at JUET, Guna.

Author Articles
Hybrid Encryption-Compression Scheme Based on Multiple Parameter Discrete Fractional Fourier Transform with Eigen Vector Decomposition Algorithm

By Deepak Sharma Rajiv Saxena Narendra Singh

DOI:, Pub. Date: 8 Sep. 2014

Encryption along with compression is the process used to secure any multimedia content processing with minimum data storage and transmission. The transforms plays vital role for optimizing any encryption-compression systems. Earlier the original information in the existing security system based on the fractional Fourier transform (FRFT) is protected by only a certain order of FRFT. In this article, a novel method for encryption-compression scheme based on multiple parameters of discrete fractional Fourier transform (DFRFT) with random phase matrices is proposed. The multiple-parameter discrete fractional Fourier transform (MPDFRFT) possesses all the desired properties of discrete fractional Fourier transform. The MPDFRFT converts to the DFRFT when all of its order parameters are the same. We exploit the properties of multiple-parameter DFRFT and propose a novel encryption-compression scheme using the double random phase in the MPDFRFT domain for encryption and compression data. The proposed scheme with MPDFRFT significantly enhances the data security along with image quality of decompressed image compared to DFRFT and FRFT and it shows consistent performance with different images. The numerical simulations demonstrate the validity and efficiency of this scheme based on Peak signal to noise ratio (PSNR), Compression ratio (CR) and the robustness of the schemes against bruit force attack is examined.

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