现代电子技术2018,Vol.41Issue(1):28-31,37,5.DOI:10.16652/j.issn.1004-373x.2018.01.007
恶劣环境下互联网通信接口自适应转换系统设计
Design of adaptive conversion system for Internet communication interface for severe environment
摘要
Abstract
Since the low conversion efficiency of communication interface exists in the current conversion system,a design method of the Internet communication interface conversion system is put forward. The hardware platform of the Internet communi-cation interface adaptive conversion system for sever environment is designed. In the design of the hardware platform,the inter-face between the programmable logic gate array and central processing unit is mainly responsible for the control of communica-tion conversion,the interface between the network control chip and programmable logic gate array is responsible for the conver-sion between the Ethernet data and network communication bus data,and the interface of asynchronous transceiving transmitter is responsible for the communication data conversion. The distributed area asynchronous memory with functions of communica-tion and control signal read-write is constructed. In the software platform design,the network communication conversion is ana-lyzed in the aspect of communication speed,and the constraint condition which should be satisfied in the use of the Internet communication interface adaptive conversion system is given. Under this constraint condition,the data is converted in the inter-val mode to accomplish the adaptive conversion system design of the Internet communication interface for severe environment. The experimental results show that the method can effectively improve the network communication performance of the Internet in severe environment and reduce the energy consumption of the network communication.关键词
数据转换/互联网通信接口/控制芯片/分布式/自适应转换/中央处理器Key words
data conversion/Internet communication interface/control chip/distribution/adaptive conversion/central processing unit分类
信息技术与安全科学引用本文复制引用
常青..恶劣环境下互联网通信接口自适应转换系统设计[J].现代电子技术,2018,41(1):28-31,37,5.基金项目
新乡学院科技创新基金项目(15ZB07)Project Supported by Xinxiang University of Science and Technology Innovation Fund(15ZB07). (15ZB07)
