基于FPGA差分扩展的可逆水印数字化设计与流水线结构

Sudip Ghosh, N. Das, Subhajit Das, S. Maity, H. Rahaman
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引用次数: 6

摘要

在解码器处附加检索封面图像的操作是无损水印系统所必需的。考虑到这一主要问题,需要解决可逆图像水印的高效实现问题。这可以通过硬件实现来解决。本文重点研究了基于差分展开(DE)的线性、运行时间为O (n)的可逆水印算法的流水线架构的数字化设计。本文提出了三种不同的数字架构,即数据流架构、基于流水线的优化数据流架构和基于流水线的改进架构。三种设计均在基于Xilinx的FPGA上实现。据我们所知,这是文献中第一个使用差分扩展的可逆水印的数字设计和流水线架构。
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Digital Design and Pipelined Architecture for Reversible Watermarking Based on Difference Expansion Using FPGA
The additional operation of retrieval of the cover image at the decoder is necessary for lossless watermarking system. Taking into account this major issue, efficient implementation of reversible image watermarking needs to be addressed. This can be solved using hardware implementation. This paper focus on the digital design with pipelined architecture of reversible watermarking algorithm based on Difference Expansion (DE) which is linear and whose running time is O (n). There are three different digital architectures proposed in this paper namely dataflow architecture, optimized dataflow architecture using pipelining and the modified architecture using pipelining. All the three design is implemented on Xilinx based FPGA. To the best of our knowledge this is the first digital design and pipelined architecture proposed in the literature for reversible watermarking using difference expansion.
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