Abstract To accomplish a large-scale experiment, such as large helical device (LHD) experiment, effective cooperation among institutes is necessary. In order to establish such cooperation, the NIFS provides the following remote participation facilities for the LHD experiments. (1) Remote access: The user can use a virtual private network (VPN) to connect to the LAN. This is the most flexible technique to participate in the experiments. The users who are not familiar with the experiments can log into the remote server running MetaFrame and Linux. In these computers, the required software is already installed. Therefore, the user need not be concerned with installing software. (2) Remote data reference: A mirror server exists to provide physical data to remote users. Moreover, the users can retrieve summarized data via a web server, which provides summarized information of each discharge experiment and graphs of the principal physical data. These graphs are useful for finding the required data quickly. (3) Remote communication and monitoring: For effective remote cooperation, communication between researchers is very important. For this purpose, a video conferencing system and a video streaming service are available. In addition to these facilities, the NIFS introduced Super SINET in 2002. This is an optical-fiber-based network. The backbone speed of this network is 10 Gbps, and the speed is 1 Gbps for direct connections.
[1]
A. Portas,et al.
Design of the TJ-II remote participation system
,
2003
.
[2]
Haruhiko Okumura,et al.
Unification of ultra-wideband data acquisition and real-time monitoring in LHD steady-state experiments
,
2006
.
[3]
Kozo Yamazaki,et al.
Recent advances in the LHD experiment
,
2003
.
[4]
H. Nakanishi,et al.
Distributed processing and network of data acquisition and diagnostics control for large helical device (LHD)
,
1999
.
[5]
V. Schmidt,et al.
The technical infrastructure for Remote Participation in the European Fusion Programme
,
2002
.