在电动汽车的市场规模不断扩大的环境以及前装车联网设备渗透率持续增长的态势下,针对性开发集数据监控和远程管理功能于一体的车辆远程监控平台,是组建智能网联汽车生态圈中的重要一环。本文设计并开发了一种基于4G通信技术,并主要利用Go编程语言完成数据处理的电动汽车远程监控平台。从整体平台架构设计出发,开发过程中结合软硬件层面实施负载均衡,使平台可以有效应对大量终端的同时接入,并满足高并发数据处理及管理的需求,实现对车辆数据的远程监控。最后,经过软硬件联合测试验证,平台总体运行稳定,可对接入车辆实现远程监控,并为相关远程服务的开发提供支持。 In the context of the expanding market size of electric vehicles and the continuous increase in the penetration rate of pre-loaded connected equipment, it’s an important part of forming an intelligent connected vehicle ecosystem that targeted developing a vehicle remote monitoring platform that integrates data monitoring and remote management functions. This paper designs and develops a remote monitoring platform for electric vehicles based on 4G communication technology and mainly uses the Go programming language to complete data processing. Starting from the overall platform architecture design, load balancing is implemented in combination with the hardware and software level during the development process, so that the platform can effectively deal with the simultaneous access of a large number of terminals and highly concurrent data processing and management, and realize remote monitoring of vehicle data. Finally, after joint software and hardware testing and verification, the overall operation of the platform is stable, which can realize remote monitoring of connected vehicles and provide support for the development of related remote services.
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机译:在电动汽车的市场规模不断扩大的环境以及前装车联网设备渗透率持续增长的态势下,针对性开发集数据监控和远程管理功能于一体的车辆远程监控平台,是组建智能网联汽车生态圈中的重要一环。本文设计并开发了一种基于4G通信技术,并主要利用Go编程语言完成数据处理的电动汽车远程监控平台。从整体平台架构设计出发,开发过程中结合软硬件层面实施负载均衡,使平台可以有效应对大量终端的同时接入,并满足高并发数据处理及管理的需求,实现对车辆数据的远程监控。最后,经过软硬件联合测试验证,平台总体运行稳定,可对接入车辆实现远程监控,并为相关远程服务的开发提供支持。 In the context of the expanding market size of electric vehicles and the continuous increase in the penetration rate of pre-loaded connected equipment, it’s an important part of forming an intelligent connected vehicle ecosystem that targeted developing a vehicle remote monitoring platform that integrates data monitoring and remote management functions. This paper designs and develops a remote monitoring platform for electric vehicles based on 4G communication technology and mainly uses the Go programming language to complete data processing. Starting from the overall platform architecture design, load balancing is implemented in combination with the hardware and software level during the development process, so that the platform can effectively deal with the simultaneous access of a large number of terminals and highly concurrent data processing and management, and realize remote monitoring of vehicle data. Finally, after joint software and hardware testing and verification, the overall operation of the platform is stable, which can realize remote monitoring of connected vehicles and provide support for the development of related remote services.
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