Multitarget data association with higher-order motion models for tracking in proton CT instrumentation

2016 IEEE Nuclear Science Symposium, Medical Imaging Conference and Room-Temperature Semiconductor Detector Workshop (NSS/MIC/RTSD) Pub Date : 2016-10-01 DOI:10.1109/NSSMIC.2016.8069479

Liyun Gong, Xujiong Ye, N. Allinson

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Abstract

PRaVDA is an advanced imaging and dosimetry system for proton therapy with solid-state sensors throughout. The residual energy resolving detector (range telescope) can be composed of multiple layers of CMOS imagers. Such imagers, though operating at relatively low frame rates, can record many protons events per read cycle. The challenge is to identify the non-linear tracks of individual protons through the telescope. A multi-target data association with higher-order motion model (MDAMM) was designed for the proton events in each layer. Such algorithms focus more on motion constraints rather than appearance. We use a cost function based on Gaussian for MDAMM which is suitable for protons as they are laterally scattered. We factor in all trajectories of a protons path (through all layers) into a cost function in order to improve the quality of a candidate trajectory. Also to achieve a more efficiency and better target tracking for protons, each trajectory with its previously created tracking result is considered in the cost function.

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多目标数据关联与高阶运动模型在质子CT仪器跟踪

PRaVDA是一种先进的成像和剂量测量系统的质子治疗与固态传感器贯穿。剩余能量分辨探测器(距离望远镜)可以由多层CMOS成像仪组成。这样的成像仪虽然以相对较低的帧速率运行，但每个读取周期可以记录许多质子事件。挑战在于通过望远镜识别单个质子的非线性轨迹。与高阶运动多目标数据关联模型(MDAMM)是专为质子事件在每一层。这种算法更多地关注运动约束，而不是外观。我们使用了一个基于高斯的代价函数用于MDAMM，它适用于质子，因为它们是横向散射的。我们将质子路径的所有轨迹(通过所有层)纳入成本函数，以提高候选轨迹的质量。同样，为了实现更高效、更好的质子目标跟踪，在代价函数中考虑每个轨迹及其先前创建的跟踪结果。

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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2016 IEEE Nuclear Science Symposium, Medical Imaging Conference and Room-Temperature Semiconductor Detector Workshop (NSS/MIC/RTSD)

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