Patch-based Medical Image Segmentation using Matrix Product State Tensor Networks

The journal of machine learning for biomedical imaging Pub Date : 2021-09-15 DOI:10.59275/j.melba.2022-d1f5

Raghavendra Selvan, E. Dam, Soren Alexander Flensborg, Jens Petersen

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引用次数: 1

Abstract

Tensor networks are efficient factorisations of high dimensional tensors into network of lower order tensors. They have been most commonly used to model entanglement in quantum many-body systems and more recently are witnessing increased applications in supervised machine learning. In this work, we formulate image segmentation in a supervised setting with tensor networks. The key idea is to first lift the pixels in image patches to exponentially high dimensional feature spaces and using a linear decision hyper-plane to classify the input pixels into foreground and background classes. The high dimensional linear model itself is approximated using the matrix product state (MPS) tensor network. The MPS is weight-shared between the non-overlapping image patches resulting in our strided tensor network model. The performance of the proposed model is evaluated on three three 2D- and one 3D- biomedical imaging datasets. The performance of the proposed tensor network segmentation model is compared with relevant baseline methods. In the 2D experiments, the tensor network model yeilds competitive performance compared to the baseline methods while being more resource efficient.

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基于矩阵积状态张量网络的医学图像分割

张量网络是将高维张量有效分解为低阶张量网络。它们最常用于模拟量子多体系统中的纠缠，最近在监督机器学习中的应用越来越多。在这项工作中，我们用张量网络在监督设置中制定图像分割。关键思想是首先将图像块中的像素提升到指数高维特征空间，并使用线性决策超平面将输入像素分为前景和背景类。高维线性模型本身是用矩阵积态张量网络逼近的。MPS在不重叠的图像补丁之间进行权重共享，从而形成我们的跨行张量网络模型。在三个二维和一个三维生物医学成像数据集上对该模型的性能进行了评估。将所提出的张量网络分割模型的性能与相关基线方法进行了比较。在二维实验中，与基线方法相比，张量网络模型的性能具有竞争力，同时资源效率更高。

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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The journal of machine learning for biomedical imaging

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