基于提升的离散小波正反变换的有效结构

2005 IEEE International Conference on Multimedia and Expo Pub Date : 2005-07-06 DOI:10.1109/ICME.2005.1521548

S. Aroutchelvame, K. Raahemifar

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引用次数: 17

摘要

在本研究中，提出了一种同时进行正、逆升力离散小波变换的结构。该架构通过利用DWT计算中涉及的算术运算中的冗余，降低了对硬件的要求。所提出的体系结构不需要任何额外的内存来存储中间结果。该体系结构由预测模块、更新模块、地址生成模块、控制单元和一组寄存器组成，用于在预测模块和更新模块之间建立数据通信。在JPEG2000中，我们提出了在边界处对称扩展图像以减少图像失真的架构。在RTL级别用VHDL描述了该体系结构，并使用ModelSim仿真环境对其进行了成功的仿真

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An Efficient Architecture for Lifting-Based Forward and Inverse Discrete Wavelet Transform

In this research, an architecture that performs both forward and inverse lifting-based discrete wavelet transform is proposed. The proposed architecture reduces the hardware requirement by exploiting the redundancy in the arithmetic operation involved in DWT computation. The proposed architecture does not require any extra memory to store intermediate results. The proposed architecture consists of predict module, update module, address generation module, control unit and a set of registers to establish data communication between predict and update modules. The symmetrical extension of images at the boundary to reduce distorted images has been incorporated in our proposed architecture as mentioned in JPEG2000. This architecture has been described in VHDL at the RTL level and simulated successfully using ModelSim simulation environment

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2005 IEEE International Conference on Multimedia and Expo

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