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Hauptverfasser: Sheibanifard, Armin, Yu, Hongchuan
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2403.08566
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author Sheibanifard, Armin
Yu, Hongchuan
author_facet Sheibanifard, Armin
Yu, Hongchuan
contents The storage of medical images is one of the challenges in the medical imaging field. There are variable works that use implicit neural representation (INR) to compress volumetric medical images. However, there is room to improve the compression rate for volumetric medical images. Most of the INR techniques need a huge amount of GPU memory and a long training time for high-quality medical volume rendering. In this paper, we present a novel implicit neural representation to compress volume data using our proposed architecture, that is, the Lanczos downsampling scheme, SIREN deep network, and SRDenseNet high-resolution scheme. Our architecture can effectively reduce training time, and gain a high compression rate while retaining the final rendering quality. Moreover, it can save GPU memory in comparison with the existing works. The experiments show that the quality of reconstructed images and training speed using our architecture is higher than current works which use the SIREN only. Besides, the GPU memory cost is evidently decreased
format Preprint
id arxiv_https___arxiv_org_abs_2403_08566
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A Novel Implicit Neural Representation for Volume Data
Sheibanifard, Armin
Yu, Hongchuan
Image and Video Processing
Computer Vision and Pattern Recognition
The storage of medical images is one of the challenges in the medical imaging field. There are variable works that use implicit neural representation (INR) to compress volumetric medical images. However, there is room to improve the compression rate for volumetric medical images. Most of the INR techniques need a huge amount of GPU memory and a long training time for high-quality medical volume rendering. In this paper, we present a novel implicit neural representation to compress volume data using our proposed architecture, that is, the Lanczos downsampling scheme, SIREN deep network, and SRDenseNet high-resolution scheme. Our architecture can effectively reduce training time, and gain a high compression rate while retaining the final rendering quality. Moreover, it can save GPU memory in comparison with the existing works. The experiments show that the quality of reconstructed images and training speed using our architecture is higher than current works which use the SIREN only. Besides, the GPU memory cost is evidently decreased
title A Novel Implicit Neural Representation for Volume Data
topic Image and Video Processing
Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2403.08566