EUMETSAT Data Collection System Present Situation Space and Ground Configuration System Limitations Future Planning
Current Meteosat System
MSG System (from 2006) Standby Operational MSG MSG Processed Images meteorological satellites and other data Data from other Monitoring Raw & Processed Images and other data HRIT Satellite Control Data Collection Satellite Control (Back-up) System Reports LRIT E xternal S upport Satellite G round Applications S Stations Primary Ground High Rate Facilities Station ( PGS ) Back-up User Station ( SAF ) Ground Low Rate (HRUS) Station ( BGS ) Data Collection User Station Platforms (DCP) (LRUS) EUMETSAT Control & Processing Centre Darmstadt
Data Collection System Meteosat-7 located at 0° supporting the Prime DCS service 33 regional channels, close to maximum utilisation 33 international channels co-ordinated by CGMS Meteosat-5 located at 63° E supporting the IODC DCS service from the 1st March 2005 3 international channels co-ordinated by CGMS
EUMETSAT's SATELLITE COVERAGE AND INDIAN OCEAN DATA COVERAGE Meteosat-7 Prime Position 0° Longitude Meteosat-5 IODC Position 63°E 60 S 80 160 140 120 100 80 60 40 20 20 40 60 100 120 140 160 180
EARTH VIEW FROM METEOSAT-7 and METEOSAT-5
IODC DCS Three International Channels - I8, I9, I11 reserved for regional use by IODC, to be formally approved by CGMS in September 2005 Uses redundant equipment in the MTP Ground Station in Fucino, Italy to receive the data Data processed and disseminated by the EUMETSAT central site
DCP Data Dissemination For the 0° Service GTS Internet - ‘push’ and ‘pull’ EUMETCast DCPRTU For the IODC Service
EUMETCast Overview Generic, multi-mission dissemination system based on the standard DVB multicast technology Use of commercial telecommunication satellites Allowing use of off-the shelf, commercial, inexpensive equipment DVB/MPEG-2 based transport for carrying IP datagrams Use of a set of broadcast satellite forward channels (no return channel) Components: Data providers Service management provider (EUMETSAT) Uplink service provider Turn around service provider(s) Satellites (Reference) Reception stations
Components Figure
EUMETCast Ku-Band Coverage
EUMETCast C-Band Coverage
IODC DCS Applications University of Hawaii - Sea Level Centre: 8 platforms are located in the Indian Ocean, they report hourly via Met-7 They will be re-allocated to Met-5 and increase reporting frequency to every 15 minutes Data Dissemination mechanism - GTS + Internet (pull) They plan to add 1 new platform in March
UHSLC sea level stations
System Limitations Limited international channels available Five more channels could be used with CGMS agreement No ground segment redundancy until MSG-2 is successfully commissioned IODC dissemination mechanisms are currently limited to GTS and Internet
Future Planning MSG-2 launch and commissioning Space segment relocations Meteosat-7 will replace Meteosat-5 at 63°E to continue the IODC Service until the end of 2008
Met-9 drift stop Met-7 & 8 stop imaging Met-9 start imaging Met-7 drift start Met-6 to standby Met-7 drift stop Stop RSS Met-5 stop imaging Met-7 start imaging Met-5 re-orbiting
System Issues Following the successful commissioning of MSG-2, the Fucino Ground Station equipment will support the IODC DCS with redundancy Meteosat-7 has a battery problem which may mean up to a 2 hour outage during the satellite eclipse season - Mar/April and September/October - under investigation