Optimizing Rate-Distortion Performance of Motion Compensated Wavelet Lifting with Denoised Prediction and Update

2020 IEEE 22nd International Workshop on Multimedia Signal Processing (MMSP) Pub Date : 2020-09-21 DOI:10.1109/MMSP48831.2020.9287070

Daniela Lanz, A. Kaup

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Abstract

Efficient lossless coding of medical volume data with temporal axis can be achieved by motion compensated wavelet lifting. As side benefit, a scalable bit stream is generated, which allows for displaying the data at different resolution layers, highly demanded for telemedicine applications. Additionally, the similarity of the temporal base layer to the input sequence is preserved by the use of motion compensated temporal filtering. However, for medical sequences the overall rate is increased due to the specific noise characteristics of the data. The use of denoising filters inside the lifting structure can improve the compression efficiency significantly without endangering the property of perfect reconstruction. However, the design of an optimum filter is a crucial task. In this paper, we present a new method for selecting the optimal filter strength for a certain denoising filter in a rate-distortion sense. This allows to minimize the required rate based on a single input parameter for the encoder to control the requested distortion of the temporal base layer.

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基于去噪预测和更新的运动补偿小波提升率失真性能优化

采用运动补偿小波提升的方法，可以实现具有时间轴的医学体数据的高效无损编码。附带的好处是，生成了一个可扩展的比特流，允许以不同的分辨率层显示数据，这是远程医疗应用非常需要的。此外，通过使用运动补偿时间滤波来保持时间基层与输入序列的相似性。然而，对于医疗序列，由于数据的特定噪声特性，总体速率增加。在提升结构内部使用去噪滤波器，可以在不影响完美重构性能的前提下显著提高压缩效率。然而，优化滤波器的设计是一项至关重要的任务。本文提出了一种在率失真情况下对某一去噪滤波器选择最优滤波强度的新方法。这允许基于编码器的单个输入参数最小化所需的速率，以控制时间基层的请求失真。

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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2020 IEEE 22nd International Workshop on Multimedia Signal Processing (MMSP)

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