Prediction-based coding with rate control for lossless region of interest in pathology imaging

IF 3.4 3区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC Signal Processing-Image Communication Pub Date : 2024-01-22 DOI:10.1016/j.image.2023.117087

Joan Bartrina-Rapesta , Miguel Hernández-Cabronero , Victor Sanchez , Joan Serra-Sagristà , Pouya Jamshidi , J. Castellani

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Abstract

Online collaborative tools for medical diagnosis produced from digital pathology images have experimented an increase in demand in recent years. Due to the large sizes of pathology images, rate control (RC) techniques that allow an accurate control of compressed file sizes are critical to meet existing bandwidth restrictions while maximizing retrieved image quality. Recently, some RC contributions to Region of Interest (RoI) coding for pathology imaging have been presented. These encode the RoI without loss and the background with some loss, and focus on providing high RC accuracy for the background area. However, none of these RC contributions deal efficiently with arbitrary RoI shapes, which hinders the accuracy of background definition and rate control. This manuscript presents a novel coding system based on prediction with a novel RC algorithm for RoI coding that allows arbitrary RoIs shapes. Compared to other methods of the state of the art, our proposed algorithm significantly improves upon their RC accuracy, while reducing the compressed data rate for the RoI by 30%. Furthermore, it offers higher quality in the reconstructed background areas, which has been linked to better clinical performance by expert pathologists. Finally, the proposed method also allows lossless compression of both the RoI and the background, producing data volumes 14% lower than coding techniques included in DICOM, such as HEVC and JPEG-LS.

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基于预测的编码与速率控制，用于病理成像中的无损感兴趣区

近年来，利用数字病理图像进行医学诊断的在线协作工具的需求不断增加。由于病理图像体积庞大，能准确控制压缩文件大小的速率控制（RC）技术对于满足现有带宽限制同时最大限度地提高检索图像质量至关重要。最近，一些针对病理成像的感兴趣区（RoI）编码的速率控制技术已经问世。这些方法对感兴趣区（RoI）进行无损编码，对背景进行有损编码，并侧重于为背景区域提供较高的 RC 精确度。然而，这些 RC 解决方案都不能有效处理任意形状的 RoI，这就妨碍了背景定义和速率控制的准确性。本手稿介绍了一种基于预测的新型编码系统，该系统采用新型 RC 算法进行 RoI 编码，允许任意形状的 RoI。与现有的其他方法相比，我们提出的算法大大提高了其 RC 精确度，同时将 RoI 的压缩数据率降低了 30%。此外，它还能提供更高质量的重建背景区域，这与病理专家更好的临床表现息息相关。最后，所提出的方法还能对RoI和背景进行无损压缩，产生的数据量比DICOM中的编码技术（如HEVC和JPEG-LS）低14%。

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来源期刊

Signal Processing-Image Communication 工程技术-工程：电子与电气

CiteScore

8.40

自引率

2.90%

发文量

138

审稿时长

5.2 months

期刊介绍： Signal Processing: Image Communication is an international journal for the development of the theory and practice of image communication. Its primary objectives are the following: To present a forum for the advancement of theory and practice of image communication. To stimulate cross-fertilization between areas similar in nature which have traditionally been separated, for example, various aspects of visual communications and information systems. To contribute to a rapid information exchange between the industrial and academic environments. The editorial policy and the technical content of the journal are the responsibility of the Editor-in-Chief, the Area Editors and the Advisory Editors. The Journal is self-supporting from subscription income and contains a minimum amount of advertisements. Advertisements are subject to the prior approval of the Editor-in-Chief. The journal welcomes contributions from every country in the world. Signal Processing: Image Communication publishes articles relating to aspects of the design, implementation and use of image communication systems. The journal features original research work, tutorial and review articles, and accounts of practical developments. Subjects of interest include image/video coding, 3D video representations and compression, 3D graphics and animation compression, HDTV and 3DTV systems, video adaptation, video over IP, peer-to-peer video networking, interactive visual communication, multi-user video conferencing, wireless video broadcasting and communication, visual surveillance, 2D and 3D image/video quality measures, pre/post processing, video restoration and super-resolution, multi-camera video analysis, motion analysis, content-based image/video indexing and retrieval, face and gesture processing, video synthesis, 2D and 3D image/video acquisition and display technologies, architectures for image/video processing and communication.