摘要
该文探讨了受电弓系统的结构与工作原理,以及其控制的重要性。在控制策略方面,传统方法已逐渐演进为更先进的模型预测控制和机器学习技术的应用,以提高受电弓的位置控制和系统性能。同时,高精度传感器和实时数据监测成为实现精确控制的关键,系统故障检测和容错控制策略确保了系统在面对故障或异常情况时的安全性和可靠性。这些进展共同推动了铁路电力系统的现代化和智能化,为未来的铁路交通提供了更高效、更安全和更可持续的解决方案。
This article explores the structure and working principle of the pantograph system,as well as the importance of its control.In terms of control strategies,traditional methods have gradually evolved into the application of more advanced model predictive control and machine learning techniques to improve the position control and system performance of pantographs.Meanwhile,high-precision sensors and real-time data monitoring have become the key to achieving precise control.The system fault detection and fault-tolerant control strategy ensure the safety and reliability of the system in the face of faults or abnormal situations.These advances have jointly promoted the modernization and intelligence of the railway power system,providing more efficient,safer,and sustainable solutions for future railway transportation.
作者
郭文花
GUO Wenhua(Shanxi Railway Vocational and Technical College,Taiyuan 030013,China)
出处
《数字通信世界》
2024年第5期45-47,共3页
Digital Communication World
基金
山西省教育科学“十四五”规划2022年度课题《校企共建共享生产型实训基地-轨道车辆基地建设》(课题编号:GH-220797)。
关键词
智能化铁道机车
受电弓控制
电力铁路
intelligent railway locomotives
pantograph control
electric railway
