基于OneNET平台的智能电表云服务系统设计
|
摘要
针对智能电表的管理和数据处理问题,基于OneNET平台设计智能电表云服务系统。该系统以智能电表作为采集终端,通过WIFI通信发送数据至云端,采用蓝牙通信方式连接手机APP,以OneNET作为云服务器代理,通过API接口连接电表并存储信息至数据库。系统中的上位机程序读取并处理数据获得电表状态、用户用电习惯曲线等信息,实现对电表的合理化管理及数据合理利用。仿真验证表明,基于OneNET平台设计的智能电表云服务系统可行有效,提高了电网的智能化程度。
For the management and data processing of smart meters, a smart meter cloud service system was designed based on the OneNET platform. The smart meter was used as the acquisition terminal to send data to the cloud through WIFI and provide bluetooth communication to connect the mobile APP. OneNET platform was used as the cloud server agent to connect the electricity meter through the API interface provided by it and store the information to the database.The upper computer program reads and processes the data to obtain information such as the state of the electricity meter and the user's electricity habit curve. This design uses the cloud platform to build the Internet of Things system from the electricity meter to the user, enhances the management of the electricity meter and the rational use of data, and improves the intelligence degree of the power grid.
For the management and data processing of smart meters, a smart meter cloud service system was designed based on the OneNET platform. The smart meter was used as the acquisition terminal to send data to the cloud through WIFI and provide bluetooth communication to connect the mobile APP. OneNET platform was used as the cloud server agent to connect the electricity meter through the API interface provided by it and store the information to the database.The upper computer program reads and processes the data to obtain information such as the state of the electricity meter and the user's electricity habit curve. This design uses the cloud platform to build the Internet of Things system from the electricity meter to the user, enhances the management of the electricity meter and the rational use of data, and improves the intelligence degree of the power grid.
引文
[1]贾海波,王帅. 智能电网对智能电表的发展需求探析[J]. 通讯世界,2018(1):245.
[2]YIP S C,WONG K S,HEW W P,et al. Detection of energy theft and defective smart meters in smart grids using linear regression[J]. International Journal of Electrical Power and Energy Systems,2017,91:230-240.
[3]聂梦君. 基于Hadoop的智能电表云服务系统设计与研发[D]. 广州:广东工业大学,2017.
[4]MAI V,KHALIL I. Design and implementation of a secure cloud-based billing model for smart meters as an Internet of things using homomorphic cryptography[J]. Future Generation Computer Systems,2017,72:327-338.
[5]郭晓利,于阳. 基于云计算的家庭智能用电策略[J]. 电力系统自动化,2015,39(17):114-119.
[6]林中爱,程富勇,王洪林. 电能量远程计量系统在电力计量中的应用分析[J]. 电子世界,2017(18):192.
[7]冯月芹,王立力,张玲. STM32F107的智能电表电能采集与远程监控设计[J]. 单片机与嵌入式系统应用,2016(1):71-74.
[8]温克欢,黄怀东,李伟华,等. 基于云平台的智能计量系统典型设计与应用[J]. 电测与仪表,2016,53(5):118-123.
[9]钜泉光电科技(上海)股份有限公司. ATT7054BU用户手册[EB/OL].(2012-04-01)[2018-07-07]. http://www.hitrendtech.com/uploadfile/2017/0929/20170929091617390.pdf.
[10]曹振民,陈年生,马强,等. 基于ESP8266的无线控制电路设计[J]. 工业控制计算机,2017,30(1): 68-69.
[11]程震晨. 基于ARM和μc/OS-Ⅲ的回路控制器研究与设计[D]. 西安:陕西科技大学,2017.
[2]YIP S C,WONG K S,HEW W P,et al. Detection of energy theft and defective smart meters in smart grids using linear regression[J]. International Journal of Electrical Power and Energy Systems,2017,91:230-240.
[3]聂梦君. 基于Hadoop的智能电表云服务系统设计与研发[D]. 广州:广东工业大学,2017.
[4]MAI V,KHALIL I. Design and implementation of a secure cloud-based billing model for smart meters as an Internet of things using homomorphic cryptography[J]. Future Generation Computer Systems,2017,72:327-338.
[5]郭晓利,于阳. 基于云计算的家庭智能用电策略[J]. 电力系统自动化,2015,39(17):114-119.
[6]林中爱,程富勇,王洪林. 电能量远程计量系统在电力计量中的应用分析[J]. 电子世界,2017(18):192.
[7]冯月芹,王立力,张玲. STM32F107的智能电表电能采集与远程监控设计[J]. 单片机与嵌入式系统应用,2016(1):71-74.
[8]温克欢,黄怀东,李伟华,等. 基于云平台的智能计量系统典型设计与应用[J]. 电测与仪表,2016,53(5):118-123.
[9]钜泉光电科技(上海)股份有限公司. ATT7054BU用户手册[EB/OL].(2012-04-01)[2018-07-07]. http://www.hitrendtech.com/uploadfile/2017/0929/20170929091617390.pdf.
[10]曹振民,陈年生,马强,等. 基于ESP8266的无线控制电路设计[J]. 工业控制计算机,2017,30(1): 68-69.
[11]程震晨. 基于ARM和μc/OS-Ⅲ的回路控制器研究与设计[D]. 西安:陕西科技大学,2017.