用于高能物理的奇异物理信息支持向量机

arXiv - PHYS - Data Analysis, Statistics and Probability Pub Date : 2024-07-03 DOI:arxiv-2407.03538

A. Ramirez-Morales, A. Gutiérrez-Rodríguez, T. Cisneros-Pérez, H. Garcia-Tecocoatzi, A. Dávila-Rivera

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摘要

在本文中，我们通过两种新方法探索了使用支持向量机的机器学习技术：异域支持向量机和物理信息支持向量机。外来支持向量机采用非常规技术，如遗传算法和提升技术。物理信息支持向量机以直观的方式整合了给定高能物理过程的物理动态。我们的目标是有效区分高能物理碰撞数据中的信号和背景事件。为了测试我们的算法，我们对质子-质子碰撞中的模拟德雷尔-扬事件进行了计算实验。我们的结果凸显了物理信息支持向量机的优越性，强调了其在高能物理领域的潜力，并促进了将物理信息纳入机器学习算法的未来研究。

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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Exotic and physics-informed support vector machines for high energy physics

In this article, we explore machine learning techniques using support vector machines with two novel approaches: exotic and physics-informed support vector machines. Exotic support vector machines employ unconventional techniques such as genetic algorithms and boosting. Physics-informed support vector machines integrate the physics dynamics of a given high-energy physics process in a straightforward manner. The goal is to efficiently distinguish signal and background events in high-energy physics collision data. To test our algorithms, we perform computational experiments with simulated Drell-Yan events in proton-proton collisions. Our results highlight the superiority of the physics-informed support vector machines, emphasizing their potential in high-energy physics and promoting the inclusion of physics information in machine learning algorithms for future research.

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arXiv - PHYS - Data Analysis, Statistics and Probability

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