机器学习降低工业加速器射频控制信号中的噪声

arXiv - PHYS - Accelerator Physics Pub Date : 2024-09-05 DOI:arxiv-2409.03931

M. Henderson, J. P. Edelen, J. Einstein-Curtis, C. C. Hall, J. A. Diaz Cruz, A. L. Edelen

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引用次数: 0

摘要

工业粒子加速器通常在比研究加速器更脏的环境中工作，导致射频和电子系统的噪声增加。此外，由于工业加速器是批量生产的，因此较少关注单个系统的性能优化。因此，工业加速器的性能往往低于其自身的硬件能力。改进这些机器的信号处理将提高部署的成本和时间余量，有助于满足医疗消毒、食品辐照、癌症治疗和成像对加速器日益增长的需求。我们的工作重点是利用机器学习技术降低工业加速器中用于脉冲到脉冲反馈的射频信号中的噪声。在此，我们回顾了我们的算法和对模拟射频系统的观察结果，并讨论了下一步工作，最终目标是在工业系统中进行部署。

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Machine Learning for Reducing Noise in RF Control Signals at Industrial Accelerators

Industrial particle accelerators typically operate in dirtier environments than research accelerators, leading to increased noise in RF and electronic systems. Furthermore, given that industrial accelerators are mass produced, less attention is given to optimizing the performance of individual systems. As a result, industrial accelerators tend to underperform their own hardware capabilities. Improving signal processing for these machines will improve cost and time margins for deployment, helping to meet the growing demand for accelerators for medical sterilization, food irradiation, cancer treatment, and imaging. Our work focuses on using machine learning techniques to reduce noise in RF signals used for pulse-to-pulse feedback in industrial accelerators. Here we review our algorithms and observed results for simulated RF systems, and discuss next steps with the ultimate goal of deployment on industrial systems.

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arXiv - PHYS - Accelerator Physics

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