Electric Vehicle Charging Station using Open Charge Point Protocol (OCPP) and oneM2M Platform for Enhanced Functionality

Deeksha Devendra, Shubham Mante, D. Niteesh, A. Hussain
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引用次数: 4

Abstract

A smart city is a collection of a variety of smart devices representing several disparate infrastructural verticals. The data gathered by these smart devices helps bring a strong integration of human, collective, and artificial intelligence within the city operation. With the advent and proliferation of electric vehicles (EVs), the EV charge point is a relatively new addition to this plethora of smart devices. We believe that the EV charge point can acquire enhanced functionality if it can be seamlessly integrated with the rest of the smart city infrastructure. For example, charging services can be stopped if smart grid or smart fire alarms sense an electrical overload or fire hazard in the vicinity. However, the interaction of an EV charge point with the smart city infrastructure requires seamless information exchange across various verticals. This horizontal flow of information is enabled by making the charge point complaint with the oneM2M platform. To this end, we present the design and fabrication of an EV charge point based on the OCPP communication standard and complaint with the oneM2M platform. Further, we discuss various use cases showing an increased functional capability of the EV charger due to access to data from other IoT devices.
使用开放充电点协议(OCPP)和oneM2M平台增强功能的电动汽车充电站
智慧城市是代表几个不同垂直基础设施的各种智能设备的集合。这些智能设备收集的数据有助于在城市运营中实现人类、集体和人工智能的强大整合。随着电动汽车(EV)的出现和普及,电动汽车充电点是众多智能设备中一个相对较新的补充。我们相信,如果电动汽车充电点能够与智慧城市的其他基础设施无缝集成,它可以获得增强的功能。例如,如果智能电网或智能火灾报警器检测到附近的电力过载或火灾危险,则可以停止充电服务。然而,电动汽车充电点与智慧城市基础设施的交互需要跨各个垂直领域的无缝信息交换。通过使用oneM2M平台进行充电点投诉,可以实现这种水平信息流。为此,我们提出了基于OCPP通信标准和oneM2M平台投诉的电动汽车充电点的设计和制造。此外,我们还讨论了各种用例,这些用例显示了由于访问其他物联网设备的数据而增加的电动汽车充电器的功能。
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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