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Hyper-dense GNSS receiver network station at Sakura Elementary School

ResourceID
spase://IUGONET/Observatory/RISH/HyperDenseGNSSRN/SKRA

Description

This station is one of the hyper-dense Global Navigation Satellite System (GNSS) receiver network observatories located near Uji, Kyoto Prefecture, Japan (34.87N, 135.70E, 36.5 m MSL) in the middle latitude. In this station, the GPS receiver has been installed in order to monitor the variation of precipitable water vapor (PWV) associated with sever rain. The Hyper-dense GNSS receiver network stations consist of 17 dual-frequency GNSS observatories with a horizontal spacing of 1-2 km. The GNSS stations can receive the signals from both the GPS and QZSS satellites. Moreover, automatic weather stations which measure the pressure and temperature are also installed. These atmospheric parameters are required to estimate the PWV. Details of the GNSS stations have been descrobed in the paper [Sato et al., A high-resolution, precipitable water vapor monitoring system using a dense network of GNSS receivers, J. Disaster Res., 8, 37-47, 2013].

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Details

Version:2.5.0

Observatory

ResourceID
spase://IUGONET/Observatory/RISH/HyperDenseGNSSRN/SKRA
ResourceHeader
ResourceName
Hyper-dense GNSS receiver network station at Sakura Elementary School
ReleaseDate
2016-07-21 00:50:00
Description

This station is one of the hyper-dense Global Navigation Satellite System (GNSS) receiver network observatories located near Uji, Kyoto Prefecture, Japan (34.87N, 135.70E, 36.5 m MSL) in the middle latitude. In this station, the GPS receiver has been installed in order to monitor the variation of precipitable water vapor (PWV) associated with sever rain. The Hyper-dense GNSS receiver network stations consist of 17 dual-frequency GNSS observatories with a horizontal spacing of 1-2 km. The GNSS stations can receive the signals from both the GPS and QZSS satellites. Moreover, automatic weather stations which measure the pressure and temperature are also installed. These atmospheric parameters are required to estimate the PWV. Details of the GNSS stations have been descrobed in the paper [Sato et al., A high-resolution, precipitable water vapor monitoring system using a dense network of GNSS receivers, J. Disaster Res., 8, 37-47, 2013].

Contacts
RolePersonStartDateStopDateNote
1.PrincipalInvestigatorspase://IUGONET/Person/Toshitaka.Tsuda
2.MetadataContactspase://IUGONET/Person/RISH.Metadata.Management.Group
Location
ObservatoryRegion
Earth.Surface
CoordinateSystemName
WGS84
Latitude
34.86526
Longitude
135.69918
Elevation
36.512
OperatingSpan
StartDate
2000-01-01 00:00:00