Sudip Ghosh, N. Das, Subhajit Das, S. Maity, H. Rahaman
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引用次数: 10
摘要
提出了一种基于差分展开的菱形插值可逆水印的VLSI结构。所提出的架构已经在Xilinx Virtex-7 FPGA、Zynq SoC (System on Chip)和超大规模FPGA平台上实现和测试。该系统基于改进的菱形插值方案,对医学和军事成像应用中的版权保护进行嵌入和提取。在可逆水印中,嵌入的水印可以与原始图像一起被无损地完全提取出来。利用VIVADO 2014.2实现了所提出的可逆水印编解码体系结构的实验结果。利用MATLAB R2013a对原始图像和水印图像进行质量因子计算,并与FPGA、SoC和Ultra-scale平台上的硬件实现结果进行比较。结果表明,所提出的VLSI架构具有低成本、高速度和实时性的可行性。
FPGA and SoC based VLSI architecture of reversible watermarking using rhombus interpolation by difference expansion
This paper presents a VLSI architecture of rhombus interpolation based reversible watermarking by difference expansion. The proposed architecture have been implemented and tested on Xilinx Virtex-7 FPGA, Zynq SoC (System On Chip) and ultra-scale FPGA platforms. The system is based on the modified rhombus interpolation scheme to embed and extract the copyright protection for medical and military imaging applications. In the reversible watermarking, the embedded watermark can be completely extracted along with the original image in a lossless manner. The experimental result of the proposed architectures of the encoding and decoding process for reversible watermarking is implemented using VIVADO 2014.2. The results for quality factors of the original and watermarked image is obtained using MATLAB R2013a and compared with the result generated from hardware implementation in FPGA, SoC and Ultra-scale platform. The results show the viability of low cost, high speed and real-time use of the proposed VLSI architecture.
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