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CEOS WGISS 22 Meeting, Annapolis September, 2006
BNSC Agency Report
Wyn CudlipBNSC/QinetiQ
toWGISS22
Annapolis, September 2006
CEOS WGISS 22 Meeting, Annapolis September, 2006
BNSC Instruments/Missions• Current Instruments
– ATSR2 on ERS-2 http://www.atsr.rl.ac.uk/
– AATSR on Envisat http://envisat.estec.esa.nl/instruments/aatsr/
– CHRIS on Proba http://www.chris-proba.org.uk/
– Disaster Management Constellation http://www.sstl.co.uk/
• Small Satellites
– TopSat – launched October 2005.– http://www.qinetiq.com/industries/space/spacecraft_technology/case_study_topsat/
• Planned Medium Satellites– TerraSAR L-Band http://www.infoterra-global.com/terrasar.html
CEOS WGISS 22 Meeting, Annapolis September, 2006
PROBA
• Project for On-Board Autonomy
• ESA mission (on Indian Launcher in 2000)
• Platform technology demonstrator
• 615 km sun synchronous orbit.
• Free ride for:
– CHRIS - Compact High-Resolution Imaging Spectrometer
– SREM - Radiation measurement sensor
– DDEBIE - debris measurement sensor
– Wide angle Earth pointing camera
– Star tracker and gyroscope
CEOS WGISS 22 Meeting, Annapolis September, 2006
CHRIS
• Compact High-Resolution Imaging Spectrometer
• operates from 400 nm to 1050 nm
• 14km swath
• 63 bands at 36m resolution
– or
• 18 bands at 18m resolution
• Science Team include:
– University of Swansea
– ESSC, University of Reading
– University of Plymouth
CEOS WGISS 22 Meeting, Annapolis September, 2006
Disaster Management Constellation (DMC)
• 32m res., 600km swath.
• 5 satellites in orbit; can provide daily coverage– UK, Algeria, Turkey, Nigeria, China
• Surrey Satellite (SSTL) Platform.
CEOS WGISS 22 Meeting, Annapolis September, 2006
TerraSAR L-Band
• Working in tandem with German TerraSAR X-Band
• X-band: 1-3 m res.; twin polarisation.
• L-Band: 5m res.; multi-pol – (HH, HV, VH, VV).
• Launch 2007 - 5 year mission
• 25 Products Feed into InfoTerra – to satisfy wide-ranging commercial market place.
• Possible ESA involvement
CEOS WGISS 22 Meeting, Annapolis September, 2006
TopSat Summary• Optical imagery (at Nadir) with
Ground Sampling Distance of– 2.8m pan (17 x 17 km)– 5.6m multi-spectral (12 x 12 km)
• Sun-synchronous orbit (686km)
• Low cost demonstrator (20M$)
• Launched 27 October– All main technical objectives
achieved
• Data download to mobile antenna
CEOS WGISS 22 Meeting, Annapolis September, 2006
Trailer
• TopSat tracking and data reception
• 2.7m antenna
• 2 hours set up time
• Very rapid downlinking to user – data on ground within 2 minutes of imaging
RAPIDS
The trailer towed by a Land Rover, which contains local image processing and visualisation facilities. RAPIDS has already been demonstrated with ERS and SPOT.
CEOS WGISS 22 Meeting, Annapolis September, 2006
CEOS WGISS 22 Meeting, Annapolis September, 2006
• Launched successfully on a Cosmos rocket 27 October 2005. [07:52 BST]
• Telemetry received on 1st UK pass
• Orbit altitude 686km, 1045 LTAN
• Commissioning complete – all main functionality proven
• Ops underway – delivering images to users
Current Status
CEOS WGISS 22 Meeting, Annapolis September, 2006
Atlantic City, New Jersey
CEOS WGISS 22 Meeting, Annapolis September, 2006
Atlantic City, New Jersey
CEOS WGISS 22 Meeting, Annapolis September, 2006
Central London
CEOS WGISS 22 Meeting, Annapolis September, 2006
Central London
CEOS WGISS 22 Meeting, Annapolis September, 2006
TopSat Follow-on Concepts
• TopSat Plus: Similar resolution to TopSat demonstrator; greater imaging size, capacity, accuracy & greater lifetime
• TopSat Enhanced: Pushing towards limit of current camera design, and lowering altitude to achieve 1.65m resolution (pan).
• TopSat One Metre: Aspiration to achieve 1m resolution with low cost spacecraft – subject to developments in lightweight optics and structures
• Low costs supports constellations to give high timeliness