BETTER FINGERPRINT IMAGE COMPRESSION AT LOWER BIT-RATES: AN APPROACH USING MULTIWAVELETS WITH OPTIMISED PREFILTER COEFFICIENTS

ICTACT Journal on Image and Video Processing Pub Date : 2017-08-01 DOI:10.21917/IJIVP.2017.0224

N. Remac, K. T. Shanavaz, P. Mythili

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引用次数: 1

Abstract

In this paper, a multiwavelet based fingerprint compression technique using set partitioning in hierarchical trees (SPIHT) algorithm with optimised prefilter coefficients is proposed. While wavelet based progressive compression techniques give a blurred image at lower bit rates due to lack of high frequency information, multiwavelets can be used efficiently to represent high frequency information. SA4 (Symmetric Antisymmetric) multiwavelet when combined with SPIHT reduces the number of nodes during initialization to 1/4 compared to SPIHT with wavelet. This reduction in nodes leads to improvement in PSNR at lower bit rates. The PSNR can be further improved by optimizing the prefilter coefficients. In this work genetic algorithm (GA) is used for optimizing prefilter coefficients. Using the proposed technique, there is a considerable improvement in PSNR at lower bit rates, compared to existing techniques in literature. An overall average improvement of 4.23dB and 2.52dB for bit rates in between 0.01 to 1 has been achieved for the images in the databases FVC 2000 DB1 and FVC 2002 DB3 respectively. The quality of the reconstructed image is better even at higher compression ratios like 80:1 and 100:1. The level of decomposition required for a multiwavelet is lesser compared to a wavelet.

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在低比特率下更好的指纹图像压缩:一种使用优化预滤波系数的多小波的方法

本文提出了一种基于多小波的指纹压缩技术，该技术使用具有优化预滤波器系数的分层树集合划分（SPIHT）算法。虽然基于小波的渐进压缩技术由于缺乏高频信息而以较低的比特率给出模糊图像，但多小波可以有效地用于表示高频信息。SA4（对称-反对称）多小波与SPIHT相结合时，与具有小波的SPIHT相比，将初始化期间的节点数量减少到1/4。节点的这种减少导致在较低比特率下PSNR的改善。可以通过优化前置滤波器系数来进一步提高PSNR。本文采用遗传算法对前置滤波器系数进行优化。与文献中的现有技术相比，使用所提出的技术，在较低比特率下的PSNR有相当大的改进。对于数据库FVC 2000 DB1和FVC 2002 DB3中的图像，对于在0.01到1之间的比特率，已经分别实现了4.23dB和2.52dB的总体平均改善。即使在80:1和100:1这样的较高压缩比下，重建图像的质量也更好。与小波相比，多小波所需的分解级别更低。

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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来源期刊

ICTACT Journal on Image and Video Processing

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审稿时长

8 weeks