Abstract
A report is given about the application of a synchronizing system using clock signals from GPS satellites to a remote reference method which is a technique to reject noise from the MT method. This system uses the C/A code out of the L1 band waves from NAVSTAR/GPS satellites. The new system was operated in MT method-using investigations conducted at China Peninsula, Aichi Prefecture, and Izu Peninsula, Shizuoka Prefecture, with the reference points placed several 100km away in Iwate Prefecture on both occasions. It was found as the result that it is basically possible to catch signals from the GPS at any place, that the signals are accurate enough to be applied to time synchronization for the MT method, and that the signals assure a far remote reference method with a separation of several 100km between the sites involved. The referencing process at high frequencies whose feasibility had been doubted proved a success when highly correlated signals were exchanged between two stations over a distance of several 100km. 5 refs., 9 figs.
Yamane, K;
Inoue, J;
Takasugi, S;
[1]
Kosuge, S
[2]
- Geothermal Energy Research and Development Co. Ltd., Tokyo (Japan)
- DRICO Co. Ltd., Tokyo (Japan)
Citation Formats
Yamane, K, Inoue, J, Takasugi, S, and Kosuge, S.
Remote reference processing in MT survey using GPS clock; MT ho ni okeru GPS wo mochiita jikoku doki system.
Japan: N. p.,
1996.
Web.
Yamane, K, Inoue, J, Takasugi, S, & Kosuge, S.
Remote reference processing in MT survey using GPS clock; MT ho ni okeru GPS wo mochiita jikoku doki system.
Japan.
Yamane, K, Inoue, J, Takasugi, S, and Kosuge, S.
1996.
"Remote reference processing in MT survey using GPS clock; MT ho ni okeru GPS wo mochiita jikoku doki system."
Japan.
@misc{etde_395527,
title = {Remote reference processing in MT survey using GPS clock; MT ho ni okeru GPS wo mochiita jikoku doki system}
author = {Yamane, K, Inoue, J, Takasugi, S, and Kosuge, S}
abstractNote = {A report is given about the application of a synchronizing system using clock signals from GPS satellites to a remote reference method which is a technique to reject noise from the MT method. This system uses the C/A code out of the L1 band waves from NAVSTAR/GPS satellites. The new system was operated in MT method-using investigations conducted at China Peninsula, Aichi Prefecture, and Izu Peninsula, Shizuoka Prefecture, with the reference points placed several 100km away in Iwate Prefecture on both occasions. It was found as the result that it is basically possible to catch signals from the GPS at any place, that the signals are accurate enough to be applied to time synchronization for the MT method, and that the signals assure a far remote reference method with a separation of several 100km between the sites involved. The referencing process at high frequencies whose feasibility had been doubted proved a success when highly correlated signals were exchanged between two stations over a distance of several 100km. 5 refs., 9 figs.}
place = {Japan}
year = {1996}
month = {May}
}
title = {Remote reference processing in MT survey using GPS clock; MT ho ni okeru GPS wo mochiita jikoku doki system}
author = {Yamane, K, Inoue, J, Takasugi, S, and Kosuge, S}
abstractNote = {A report is given about the application of a synchronizing system using clock signals from GPS satellites to a remote reference method which is a technique to reject noise from the MT method. This system uses the C/A code out of the L1 band waves from NAVSTAR/GPS satellites. The new system was operated in MT method-using investigations conducted at China Peninsula, Aichi Prefecture, and Izu Peninsula, Shizuoka Prefecture, with the reference points placed several 100km away in Iwate Prefecture on both occasions. It was found as the result that it is basically possible to catch signals from the GPS at any place, that the signals are accurate enough to be applied to time synchronization for the MT method, and that the signals assure a far remote reference method with a separation of several 100km between the sites involved. The referencing process at high frequencies whose feasibility had been doubted proved a success when highly correlated signals were exchanged between two stations over a distance of several 100km. 5 refs., 9 figs.}
place = {Japan}
year = {1996}
month = {May}
}