FRAMEWORK DESIGN FOR REMOTE HYBRID TESTING SYSTEM IN CURRENT NETWORK ENVIRONMENTS
The remote hybrid testing method is a versatile technique for evaluating the seismic performance of complex structural systems by integrating numerical modeling tools and physical models among geographically distributed laboratories. It needs robust data transmission among computers connected by the Internet. The combined pressures of tremendous growth and massive security challenges have forced the Internet to deploy numerous middleboxes, such as packet filtering firewalls and Network Address Translators (NATs), which makes end-to-end applications difficult to communicate directly between two nodes in some current network environments, particularly in China. Based on client/server model, two communication frameworks for Networked Structural Laboratories (NetSLab) have been designed to provide across middlebox communication for remote hybrid testing. Communication speed tests were carried out in various network environments and the results show that the frameworks are satisfactory for remote hybrid testing over the current network.
Framework Hybrid testing Network Middlebox
Yurong Guo Yan Xiao Qing Hu
Hunan University, China University of Southern California, USA FutureNet Technologies Corporation, USA
国际会议
上海
英文
700-707
2007-12-04(万方平台首次上网日期,不代表论文的发表时间)