针对传统LED灯杆在远程监控、自动巡检、实时单灯调控、故障定位处理等方面存在的问题,本文提出基于窄带物联网(narrow band internet of things,NB-IoT)技术的智能LED灯杆监控系统的研制方案,采用STM32L151单片机作为主控芯片,控制多...针对传统LED灯杆在远程监控、自动巡检、实时单灯调控、故障定位处理等方面存在的问题,本文提出基于窄带物联网(narrow band internet of things,NB-IoT)技术的智能LED灯杆监控系统的研制方案,采用STM32L151单片机作为主控芯片,控制多种传感器采集路灯信息,通过NB-IoT模块与核心网的连接,将采集到的路灯信息上传至OneNET云平台,并开发移动端应用程序(application,APP)和个人计算机(personal computer,PC)端监测界面以实现路灯故障信息的实时获取。实验结果显示:所研制的系统可以实时监测、控制路灯,快速、准确地确定故障路灯位置,实现单灯控制。展开更多
Wireless Sensor Networks (WSNs) have been applied in many different areas. Energy efficient algorithms and protocols have become one of the most challenging issues for WSN. Many researchers focused on developing energ...Wireless Sensor Networks (WSNs) have been applied in many different areas. Energy efficient algorithms and protocols have become one of the most challenging issues for WSN. Many researchers focused on developing energy efficient clustering algorithms for WSN, but less research has been concerned in the mobile User Equipment (UE) acting as a Cluster Head (CH) for data transmission between cellular networks and WSNs. In this paper, we propose a cellular-assisted UE CH selection algorithm for the WSN, which considers several parameters to choose the optimal UE gateway CH. We analyze the energy cost of data transmission from a sensor node to the next node or gateway and calculate the whole system energy cost for a WSN. Simulation results show that better system performance, in terms of system energy cost and WSNs life time, can be achieved by using interactive optimization with cellular networks.展开更多
文摘针对传统LED灯杆在远程监控、自动巡检、实时单灯调控、故障定位处理等方面存在的问题,本文提出基于窄带物联网(narrow band internet of things,NB-IoT)技术的智能LED灯杆监控系统的研制方案,采用STM32L151单片机作为主控芯片,控制多种传感器采集路灯信息,通过NB-IoT模块与核心网的连接,将采集到的路灯信息上传至OneNET云平台,并开发移动端应用程序(application,APP)和个人计算机(personal computer,PC)端监测界面以实现路灯故障信息的实时获取。实验结果显示:所研制的系统可以实时监测、控制路灯,快速、准确地确定故障路灯位置,实现单灯控制。
基金Supported by the National Science and Technology Major Projects of China (No.2011ZX03005-003-02)Shanghai Natural Science Foundation (No.11ZR-1435100)Shanghai Science and Technology Innovation Program(No.11DZ0512500, 12511503300, 12DZ2250200)
文摘Wireless Sensor Networks (WSNs) have been applied in many different areas. Energy efficient algorithms and protocols have become one of the most challenging issues for WSN. Many researchers focused on developing energy efficient clustering algorithms for WSN, but less research has been concerned in the mobile User Equipment (UE) acting as a Cluster Head (CH) for data transmission between cellular networks and WSNs. In this paper, we propose a cellular-assisted UE CH selection algorithm for the WSN, which considers several parameters to choose the optimal UE gateway CH. We analyze the energy cost of data transmission from a sensor node to the next node or gateway and calculate the whole system energy cost for a WSN. Simulation results show that better system performance, in terms of system energy cost and WSNs life time, can be achieved by using interactive optimization with cellular networks.