This paper presents a multi-interface embedded server architecture for remote real-time monitoring system and distributed monitoring applications. In the scheme,an embedded microprocessor( LPC3250 from NXP) is chosen ...This paper presents a multi-interface embedded server architecture for remote real-time monitoring system and distributed monitoring applications. In the scheme,an embedded microprocessor( LPC3250 from NXP) is chosen as the CPU of the embedded server with a linux operation system( OS) environment. The embedded server provides multiple interfaces for supporting various application scenarios. The whole network is based on local area network and adopts the Browser / Server( B / S) model. The monitoring and control node is as a browser endpoint and the remote node with an embedded server is as a server endpoint. Users can easily acquire various sensors information through writing Internet protocol address of remote node on the computer browser. Compared with client / server( C / S) mode,B / S model needs less maintain and can be applicable to large user group. In addition,a simple network management protocol( SNMP) is used for management of devices in Internet protocol( IP) networks. The results of the demonstration experiment show that the proposed system gives good support to manage the network from different user terminals and allows the users to better interact with the ambient environment.展开更多
A compact hybrid subsystem of 16channel optical demultiplexer, 2x2 switches, optical power monitors and control circuit board is developed. The subsystem is able to add or drop arbitrary optical channels and monitor t...A compact hybrid subsystem of 16channel optical demultiplexer, 2x2 switches, optical power monitors and control circuit board is developed. The subsystem is able to add or drop arbitrary optical channels and monitor the optical power level by software commands. The size of the subsystem is 170x200x30(mm).展开更多
In order to fit the different demands for the internet of things system of greenhouse environment monitoring and control,the greenhouse environment monitoring and control management system based on Google Web Toolkit(...In order to fit the different demands for the internet of things system of greenhouse environment monitoring and control,the greenhouse environment monitoring and control management system based on Google Web Toolkit(GWT)was developed.Using remote method call(RPC)AJAX as the communication method between browser and web server,the system realized the functions such as:configuration of acquisition and control parameters,the adaptive match of database between gateway and server,the adaptive diagnosis of monitoring parameters,the warning of monitoring parameters,the adaptive generation of interface,and so on.The functions of the system was tested the results shows that the WEB browser application and Android App can adaptively realize the greenhouse environment monitoring and control according to the information configuration.展开更多
基金Sponsored by the National High Technology Research and Development Program(Grant No.2012AA02A604)
文摘This paper presents a multi-interface embedded server architecture for remote real-time monitoring system and distributed monitoring applications. In the scheme,an embedded microprocessor( LPC3250 from NXP) is chosen as the CPU of the embedded server with a linux operation system( OS) environment. The embedded server provides multiple interfaces for supporting various application scenarios. The whole network is based on local area network and adopts the Browser / Server( B / S) model. The monitoring and control node is as a browser endpoint and the remote node with an embedded server is as a server endpoint. Users can easily acquire various sensors information through writing Internet protocol address of remote node on the computer browser. Compared with client / server( C / S) mode,B / S model needs less maintain and can be applicable to large user group. In addition,a simple network management protocol( SNMP) is used for management of devices in Internet protocol( IP) networks. The results of the demonstration experiment show that the proposed system gives good support to manage the network from different user terminals and allows the users to better interact with the ambient environment.
文摘A compact hybrid subsystem of 16channel optical demultiplexer, 2x2 switches, optical power monitors and control circuit board is developed. The subsystem is able to add or drop arbitrary optical channels and monitor the optical power level by software commands. The size of the subsystem is 170x200x30(mm).
基金supported by the Jiangsu Province Agricultural Science and Technology Innovation Project(CX(15)1015)the Natural Science Foundation of Jiangsu Provincial Department of Education(17KJA416002)+2 种基金the China Postdoctoral Science Foundation funded project(2015M580400)the Jiangsu Province Postdoctoral Science Foundation(1501112B)the Priority Academic Program Development of Jiangsu Higher Education Institutions(2014-37).
文摘In order to fit the different demands for the internet of things system of greenhouse environment monitoring and control,the greenhouse environment monitoring and control management system based on Google Web Toolkit(GWT)was developed.Using remote method call(RPC)AJAX as the communication method between browser and web server,the system realized the functions such as:configuration of acquisition and control parameters,the adaptive match of database between gateway and server,the adaptive diagnosis of monitoring parameters,the warning of monitoring parameters,the adaptive generation of interface,and so on.The functions of the system was tested the results shows that the WEB browser application and Android App can adaptively realize the greenhouse environment monitoring and control according to the information configuration.
