Sustainable and smart rail transit based on advanced self-powered sensing technology

IF 4.6 2区综合性期刊 Q1 MULTIDISCIPLINARY SCIENCES iScience Pub Date : 2024-11-05 DOI:10.1016/j.isci.2024.111306

Hongjie Tang , Lingji Kong , Zheng Fang , Zutao Zhang , Jianhong Zhou , Hongyu Chen , Jiantong Sun , Xiaolong Zou

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Abstract

As rail transit continues to develop, expanding railway networks increase the demand for sustainable energy supply and intelligent infrastructure management. In recent years, advanced rail self-powered technology has rapidly progressed toward artificial intelligence and the internet of things (AIoT). This review primarily discusses the self-powered and self-sensing systems in rail transit, analyzing their current characteristics and innovative potentials in different scenarios. Based on this analysis, we further explore an IoT framework supported by sustainable self-powered sensing systems including device nodes, network communication, and platform deployment. Additionally, technologies about cloud computing and edge computing deployed in railway IoT enable more effective utilization. The deployed intelligent algorithms such as machine learning (ML) and deep learning (DL) can provide comprehensive monitoring, management, and maintenance in railway environments. Furthermore, this study explores research in other cross-disciplinary fields to investigate the potential of emerging technologies and analyze the trends for future development in rail transit.

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基于先进自供电传感技术的可持续智能轨道交通

随着轨道交通的不断发展，不断扩大的铁路网络增加了对可持续能源供应和智能基础设施管理的需求。近年来，先进的轨道自供电技术向人工智能和物联网（AIoT）方向快速发展。本综述主要讨论轨道交通中的自供电和自感应系统，分析其在不同场景下的现有特点和创新潜力。在此分析基础上，我们进一步探讨了可持续自供电传感系统支持的物联网框架，包括设备节点、网络通信和平台部署。此外，在铁路物联网中部署的云计算和边缘计算技术也能提高利用效率。部署的智能算法，如机器学习（ML）和深度学习（DL），可为铁路环境提供全面的监控、管理和维护。此外，本研究还探讨了其他交叉学科领域的研究，以研究新兴技术的潜力，分析轨道交通未来发展的趋势。

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来源期刊

iScience Multidisciplinary-Multidisciplinary

CiteScore

7.20

自引率

1.70%

发文量

1972

审稿时长

6 weeks

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