Hopfield优化块截断编码的FPGA实现

2006 6th International Workshop on System on Chip for Real Time Applications Pub Date : 2006-12-01 DOI:10.1109/IWSOC.2006.348230

S. Saif, H. M. Abbas, S. Nassar, A. Wahdan

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引用次数: 3

摘要

本文提出了在现场可编程门阵列(FPGA)上使用可变块截断编码(BTC)实现图像压缩。利用Hopfield神经网络(HNN)得到的代价函数对压缩技术进行改进，并根据代价函数对块进行高细节块和低细节块的分类。因此，不同的块以不同的比特率编码，从而获得更好的压缩比。本文阐述了在BTC算法中HNN的利用，从而产生了一个可行的FPGA实现。根据图像的均匀性，Xilinx Virtex EBTC实现的处理速度约为每秒1.113乘以106像素，压缩比在每像素1.25到2比特之间变化

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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An FPGA Implementation of a Hopfield Optimized Block Truncation Coding

This paper presents an implementation for image compression using variable block truncation coding (BTC) on a field programmable gate array (FPGA). The compression technique is improved by employing a cost function obtained using Hopfield neural network (HNN), upon which a block is classified as either a high- or a low-detail block. Accordingly, different blocks are coded with different bit rates and thus better compression ratios are achieved. The paper formulates the utilization of HNN within the BTC algorithm in such a way that a viable FPGA implementation is produced. The Xilinx Virtex EBTC implementation has shown to provide a processing speed of about 1.113 times 106 of pixels per second with a compression ratio which varies between 1.25 and 2 bits per pixel, according to the image homogeneity

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2006 6th International Workshop on System on Chip for Real Time Applications

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