面向云边端协同的系统可观测性解决方案  

System Observability Solution for Cloud-edge-end Collaboration

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作  者:易勇 谭克元[1] 王盛义[1] YI Yong;TAN Keyuan;WANG Shengyi(Shanghai Baosight Software Co.,Ltd.,Shanghai 201203,China)

机构地区:[1]上海宝信软件股份有限公司,上海201203

出  处:《现代信息科技》2025年第6期116-120,125,共6页Modern Information Technology

摘  要:随着信息技术的飞速发展,现代信息系统往往呈现规模巨大、结构复杂、分布式架构以及业务形态分布在云边端等特点,使得传统的系统监控和调试方法难以满足全面观测的需求,这给故障排查、性能优化和数据分析等任务带来了困难,“云深不可见”难题愈发突出。文章提出了一种面向云边端协同的系统可观测性解决方案。该方案结合一体化的设计理念,构建云边端的监控指标体系,实现从云端到边缘、再到终端设备的全方位监控与管理。旨在解决“云深不可见”的难题,保障系统的稳定性,并通过实际案例验证了其在提高系统可观测性方面的成效。With the rapid development of information technology,modern information systems often exhibit characteristics such as large scale,complex structure,distributed architecture,and business form distributed in the cloud-edge-end.This makes traditional system monitoring and debugging methods insufficient to meet the needs of comprehensive observation,posing challenges for tasks such as fault diagnosis,performance optimization,and data analysis.The issue of“cloud depth invisibility”has become prominent.This paper proposes a system observability solution for cloud-edge-end collaboration.The solution integrates a holistic design philosophy,constructs a monitoring metrics system for cloud-edge-end,and achieves comprehensive monitoring and management from the cloud-end to the edge and then to the end devices.It aims to address the“cloud depth invisibility”issue and ensure the system stability,and its effectiveness in enhancing system observability has been verified through practical cases.

关 键 词:云边端协同 系统可观测性 系统稳定性 

分 类 号:TP311.5[自动化与计算机技术—计算机软件与理论] TP393.0[自动化与计算机技术—计算机科学与技术]

 

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