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Hardware Implementation of a Visual Image Watermarking Scheme Using Qubit/Quantum Computation Through Reversible Methodology

Hardware Implementation of a Visual Image Watermarking Scheme Using Qubit/Quantum Computation Through Reversible Methodology

Subhrajit Sinha Roy, Abhishek Basu, Avik Chattopadhyay
Copyright: © 2018 |Pages: 46
ISBN13: 9781522552192|ISBN10: 1522552197|EISBN13: 9781522552208
DOI: 10.4018/978-1-5225-5219-2.ch004
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MLA

Roy, Subhrajit Sinha, et al. "Hardware Implementation of a Visual Image Watermarking Scheme Using Qubit/Quantum Computation Through Reversible Methodology." Quantum-Inspired Intelligent Systems for Multimedia Data Analysis, edited by Siddhartha Bhattacharyya, IGI Global, 2018, pp. 95-140. https://doi.org/10.4018/978-1-5225-5219-2.ch004

APA

Roy, S. S., Basu, A., & Chattopadhyay, A. (2018). Hardware Implementation of a Visual Image Watermarking Scheme Using Qubit/Quantum Computation Through Reversible Methodology. In S. Bhattacharyya (Ed.), Quantum-Inspired Intelligent Systems for Multimedia Data Analysis (pp. 95-140). IGI Global. https://doi.org/10.4018/978-1-5225-5219-2.ch004

Chicago

Roy, Subhrajit Sinha, Abhishek Basu, and Avik Chattopadhyay. "Hardware Implementation of a Visual Image Watermarking Scheme Using Qubit/Quantum Computation Through Reversible Methodology." In Quantum-Inspired Intelligent Systems for Multimedia Data Analysis, edited by Siddhartha Bhattacharyya, 95-140. Hershey, PA: IGI Global, 2018. https://doi.org/10.4018/978-1-5225-5219-2.ch004

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Abstract

In this chapter, hardware implementation of an LSB replacement-based digital image watermarking algorithm is introduced. The proposed scheme is developed in spatial domain. In this watermarking process, data or watermark is implanted into the cover image pixels through an adaptive last significant bit (LSB) replacement technique. The real-time execution of the watermarking logic is developed here using reversible logic. Utilization of reversible logic reduces the power dissipation by means of no information loss. The lesser power dissipation enables a faster operation as well as holds up Moore's law. The experimental results confirm that the proposed scheme offers high imperceptibility with a justified robustness.

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