LOQUAT: Low-Rank Quaternion Reconstruction for Photon-Counting CT.

Zefan Lin, Guotao Quan, Haixian Qu, Yanfeng Du, Jun Zhao
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Abstract

Photon-counting computed tomography (PCCT) may dramatically benefit clinical practice due to its versatility such as dose reduction and material characterization. However, the limited number of photons detected in each individual energy bin can induce severe noise contamination in the reconstructed image. Fortunately, the notable low-rank prior inherent in the PCCT image can guide the reconstruction to a denoised outcome. To fully excavate and leverage the intrinsic low-rankness, we propose a novel reconstruction algorithm based on quaternion representation (QR), called low-rank quaternion reconstruction (LOQUAT). First, we organize a group of nonlocal similar patches into a quaternion matrix. Then, an adjusted weighted Schatten-p norm (AWSN) is introduced and imposed on the matrix to enforce its low-rank nature. Subsequently, we formulate an AWSN-regularized model and devise an alternating direction method of multipliers (ADMM) framework to solve it. Experiments on simulated and real-world data substantiate the superiority of the LOQUAT technique over several state-of-the-art competitors in terms of both visual inspection and quantitative metrics. Moreover, our QR-based method exhibits lower computational complexity than some popular tensor representation (TR) based counterparts. Besides, the global convergence of LOQUAT is theoretically established under a mild condition. These properties bolster the robustness and practicality of LOQUAT, facilitating its application in PCCT clinical scenarios. The source code will be available at https://github.com/linzf23/LOQUAT.

LOQUAT:用于光子计数 CT 的低函数四元数重建。
光子计数计算机断层扫描(PCCT)因其多功能性(如减少剂量和材料表征),可极大地改善临床实践。然而,在每个单独的能量仓中检测到的光子数量有限,会在重建图像中产生严重的噪声污染。幸运的是,PCCT 图像中固有的显著低秩先验可以引导重建获得去噪结果。为了充分挖掘和利用固有的低秩性,我们提出了一种基于四元数表示(QR)的新型重建算法,称为低秩四元数重建(LOQUAT)。首先,我们将一组非局部相似斑块组织成一个四元数矩阵。然后,引入调整加权沙顿-p 准则(AWSN)并施加于矩阵,以强化其低秩性质。随后,我们提出了一个 AWSN 规则化模型,并设计了一个交替乘法(ADMM)框架来解决这个问题。在模拟和真实世界数据上进行的实验证明,LOQUAT 技术在目测和定量指标方面都优于几种最先进的竞争对手。此外,与一些流行的基于张量表示(TR)的方法相比,我们基于 QR 的方法具有更低的计算复杂度。此外,LOQUAT 的全局收敛性是在一个温和的条件下从理论上确定的。这些特性增强了 LOQUAT 的稳健性和实用性,有助于其在 PCCT 临床场景中的应用。源代码可在 https://github.com/linzf23/LOQUAT 上获取。
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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