WHAT IS NEXT IN EARTH OBSERVATION COSMO- SkyMed Mission

Index
WHAT IS NEXT IN EARTH OBSERVATION
COSMO-SkyMed Mission
Paolo Ammendola
Italian Space Agency
Florence, Sept. 19, 2001
ammendola@asi.it
Index
THE NEEDS
9 Market studies indicate that the value of the Earth Observation
data products will increase if they are as current as possible.
9 The world-wide civil protection and resource managers are under
an increasing pressure to achieve quicker and better decisions on a
day-to-day basis in fields like monitoring and surveillance, risk
management, hydrology, forestry, ecology and environmental
management, agriculture, urban planning, etc.
9 The market is demanding higher resolution, more frequent revisits
and quicker-and-easier data and product ordering and delivery to
the users (implying fast constellation re-planning, prompt data
collection and processing capability, etc.).
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Application areas classified per revisit time and spatial resol.
Year
Revisit
time
Cartography
Cartography
for final user Agriculture,
Forestry,
(telecom, Marine/Coasta,
month
utilities) Cartography
Geology,
Environmen
t
(cadastral)
day
Risk Management,
Land use
hour
monitoring, Defence
high
medium
low
Spatial
resolution
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THE NEEDS
The user need analysis has shown that generally the user requirements
are not sufficiently met by the current satellite systems in operation or
under development; in particular:
O Current satellites present some limitations with respect to the user
requirements, because:
¾ it is not possible to acquire a sufficiently large and interpretable image in
a single pass;
¾ response time and revisit time are not sufficiently adequate for many
applications (especially for wide areas);
¾ the acquisition of images is often vanished by cloud cover.
O Absence of homogeneous and comparable multi-temporal data set,
characterized by adequate spatial and spectral resolution suitable to
perform analyses at different scales of detail.
Earth observation satellite data are not directly available to the final
users; these data have to be ordered through distributor companies,
becoming sometimes available with long delays.
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Mission Definition
COSMO - SkyMed is an Italian Space Agency (ASI) program and is an
end-to-end Earth Observation System dedicated to Earth remote sensing
and data exploitation for Dual (military and civil) Use applications.
Main mission objective is the provision of data, products and services
relevant to the:
• MoD applications ;
• environmental
monitoring,
surveillance
and
risk
management applications of institutional entities;
• environmental
resources
management,
maritime
management, earth topographic mapping, law enforcement,
informative / science applications of other institutional,
scientific and commercial users.
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HOW COSMO-SKYMED SATISFIES THE
MARKED DEMAND
COSMO SkyMed has been conceived with the aim to establish a global
supplying services and products suited to the market demand and final user
requirements by a constellation of :
O4 satellites with advanced SAR in X band;
O 3 satellites with Pancromatic Multispectral, Iperspectral and Thermal
Infrared
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HOW COSMO-SKYMED SATISFIES THE
MARKED DEMAND
The answer of COSMO-SkyMed to market demand is characterized
by the following baseline:
¾
Revisit frequency of few
hours
¾ Metric resolution
¾ Spectral high resolution
¾ Penetration of cloud
¾ Simultaneous stereo pairs
¾ Low cost equipment and
images
¾ Night time sensing
¾ Complete service
¾ Rapid distribution of images
¾ Imagery intelligence
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Program heritage
Space Technologies
•X-SAR System
•Project SAR-2000
•The Italian platform "PRIMA”
•HYPSEO
Ground Technologies
•Space Geodesy Centre ASI-CGS
•X-SAR G.S. MCC (Mission Control Centre)
•I-PAF (X-SAR Ie II, SRTM, ERS, GOME,)
•I-PAC (ENVISAT)
•National pilot projects
•HW and SW development (including HPC)
Scientific activities
•National Pilot Project
•X-SAR, SRTM Italian P.I. and C.O.
•ERS, ENVISAT Italian P.I. and C.O.
COSMO-SkyMed
Space Segment
Ground Segment
Science
Users
Users Oriented
•National Pilot Projects
•ASI Company for the E.O. (E GEOS).
•Technological Transfer program
•E.O. Services
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COSMO-SkyMed Radar Component
Key Events Schedule
9 End of Phase B1
July 1998
9 Design and Bread boarding - Phase B2
1999
9 Critical technological development
1998/2001
9 Development and AIT - First sat.
2000/2003
9 Launch of the first satellite
2003
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COSMO-SkyMed: System Description
¾System Elements:
O A fully operational multi-satellite
Earth observation constellation
(satellites in SSO dawn-dusk
orbit equipped with X band SAR
and satellites in SSO near-noon
orbit equipped with optical
sensors) which may be delivered
in orbit in a staggered way.
fully operational ground
OA
infrastructure.
¾Deployment Strategy
O Reasonable performance level
achieved as soon as the first SAR
and
Optical
satellites
are
operative, improved by the
successive launches to reach the
nominal constellation performace
SAR Satellite
OpticalSatellite
(panchromatic camera
and multispectral)
Data Receiving Stationi (X band)
TT&C Station
SAR Satellite
CREDO
Data Acquisition Archiving
andProcessing Center
CCS
Satellites
Control
Center
CPCM
Mission Planning and
Control Center
Utenti
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Constellation Observation Capabilities
OBSERVATION CAPABILITIES SATISFY MILITARY NEEDS
WHICH ARE MORE DEMANDING THAN THE INSTITUTIONAL
SCIENTIFIC AND COMMERCIAL ONES
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SAR satellite main performance data
SAR Instrument Reference Modes
Modes with one polarisation selectable among
HH, VV, HV or VH:
•SPOTLIGHT
resolution: order of the m
spot area : tens of km2
•HIMAGE (Stripmap)
resolution: few meters
swath width: several tens of km
•WIDEREGION (ScanSAR)
resolution: few tens of meters
swath width: hundreds of km
•HUGEREGION (ScanSAR)
resolution: several tens of meters
swath width: few hundreds of km
Modes with two polarisation selectable among
HH, VV, HV or VH:
•PING PONG (Stripmap)
resolution: few meters
- swath width: several tens of km
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Optical Satellites Requirements
Panchromatic and Multispectral HR satellite
Sensor: push-broom type camera, which combines
co-registered pan and multispectral channels
Spectral Bands and spatial resolutions:
1: 0.44-0.71 µm (PAN)
0.7 m @ nadir
2: 0.45-0.52 µm (blue)
2.8 m @ nadir
3: 0.52-0.60 µm (green)
2.8 m @ nadir
4: 0.63-0.69 µm (red)
2.8 m @ nadir
5: 0.76-0.90 µm (NIR)
2.8 m @ nadir
20 Km
Swath :
-/+ 45° (across-track)
Access Region :
-/+ 30° (along-track)
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Optical Satellites Requirements
Hyperspectral satellite
Sensor: push broom type camera, which combines
co-registered hyperspectral, TIR and
panchromatic channels
Spectral Bands and spatial resolutions:
1: 60 ch 0.4-1.0 µm (VNIR) 20 / 300 m
150 ch 1.0-2.5 µm (SWIR) 40 / 300 m
2: 2 ch 8-13 µm (TIR)
50 / 300 m
3: 1 ch 0.5-0.90 µm (PAN)
7m
20 Km / 300 Km, 20 Km
Swath:
Access Region: -/+ 45° (across-track)
-/+ 35° (along-track)
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Utilization Scenarios
The COSMO – SkyMed shall be an operative mission
The system shall be able, on the basis of the various user requests and
their priority, to build the best plan to accomplish the user needs.
O The originated products shall be delivered, normally, to the end-user via
the COSMO - SkyMed Ground Segment.
O The data provision to the end user shall be based on data sensed both by
COSMO satellites as well as from other system and shall be reliable and
delivered with a pre-defined and well-known delivery time.
O Fast delivery products can be one or more images (compatible with the
link data rate) with a limited quality (raw images) to be delivered as
soon as possible to mobile stations co-located with the acquired site.
O The user shall receive the products in which they are interested as soon
they are available in the system (Near Real Time). Nevertheless the
system shall be tailored to accomplish user request related to already
processed data (off-line products).
O
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COSMO-SkyMed Ground Segment: conceptual schema
Military
CREDO
TT&C stations
(S-band)
SAR images
Military Users
Requests
SAR images
Requests
CCS + FDS
CPCM
Satellite Control
Center
Mission Planning
and Control
Center
Processing and
Archive Center
X-band data
reception station
CREDO
User Community
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COSMO-SkyMed
GS Architecture
for dual national use
COSMO-SkyMed
GS Architecture
SAR Space Segment
S-band
downlink
S-band
uplink
S-band TT&C station
X-band
data downlink
Satellite TC
Satellite Telemetry
X-band
data downlink
Satellite Control
Centre (CCS)
Status
Military Requests
Military CREDO
Data acquisition,
archiving and
processing centre
Mission Plan
Mission Planning
Mission
Planning
and
Control
Centre
and Control
(CPCM)Centre
(CPCM)
List of Requests
Requests SPOT,
CREDO - Data
RADARSAT,
ENVISAT,
acquisition, archiving
IKONOS ,...
and processing centre Products
Global archive access
Products
Requests
Products
Requests
Military User
High Priority Requests
(i.e., Civil Protection)
Institutional User
Commercial User
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THE DUAL ITALIAN-FRENCH
SYSTEM
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THE ITALIAN- FRENCH AGREEMENT ON A JOINT
DUAL SYSTEM (Radar and Optical)
9 On Jan.29 2001 Italy and France have signed an agreement for the
development of a Dual System composed of SAR and Optical end to
end system.
9 The Definition Phase has formally started in July 200l after the
signature of an MOA between ASI and CNES.
9 Partners in the Italian French cooperation are ASI, CNES the Italian
and French MODs.
9 Further nations are envisaged to join the system with different ways of
cooperation.
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THE ITALIAN- FRENCH AGREEMENT ON A JOINT DUAL
SYSTEM (Radar and Optical)
9 All the end to end SAR Component of COSMO SkyMed, already in
C/D phase is part of this system and provided by ASI;
9 All the end to end Optical Component(Pleiades System) will be
provided by CNES;
9 The overall I-F Dual system envisages the integration of both
Components according to the Definition Phase development. The
Overall I-F Dual System will we jointly planned and controlled.
9 On this basis ASI and CNES are continuing the activities on COSMOSkyMed (Radar Component) and Pleiades (Optical Component)
inparallel and in the framework of the Definition Phase.
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THE ITALIAN- FRENCH AGREEMENT ON A JOINT DUAL
SYSTEM (Radar and Optical)
THE RADAR COMPONENT OF THE DUAL I-F SYSTEM IS
THE RADAR COMPONENT OF COSMO SKYMED FITTED
TO THE DEFENSE NEEDS IN THE FRAME OF ONE
SYSTEM.
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HR Optical Component (2)
9 Lateral accessibility and along
track stereo
9 Extension of the swath width
thanks to colateral stripes even in
crosstrack direction
Index
Possible configuration for dual international use
Optical Space Segment
SAR Space Segment
CCS + TTCS
(SAR)
SCC + TTCS
(Optical)
Mission
Planning and
Control
(SAR)
Mission
Planning and
Control
(Optical)
CPCM
Other
Satellites
G/S
G/S
Military
Satellite
G/S
G/S
Integrated Order
Handling System
Civilian
CREDO
Italy
Military
CREDO
Italy
Civilian
CREDO
France
Military
Application
Center
France
Users
Users
Users
Users
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THE OPTICAL ASI PROGRAMM
ASI is bringing on and separately from the cooperation with France,
the demostration Hyperspectral (HypSEO) mission.
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HypSEO (HyperSpectral Earth Observer) is a demo mission in the
framework of the COSMO/SkyMed program
HypSEO is an Earth Observation mission based on an
Hyperspectral sensor
HypSEO is a low cost mission
V
Y
Z
utilization of MITA , Italian mini bus
orbit sun synchronous, circular (97.8°), H= 618 Km, 9.30 am
revisit time : ≈ 5 days
operational period 18-24 months
10 full resolution images per day
X
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the instrument : Electro-optical characteristics
CAMERA
Spectral Band
Spect. Res. N° channels
VNIR
400-1000 nm
≤ 10 (40) nm
≥60
SWIR
1000-2500 nm
≤ 10 (49) nm
≥150
PAN
500-900 nm
NA
flexible spatial (20-80 m) and spectral (20-40 resolution
Scanning technique : Pushbroom
Swath width @619 Km
PAN Spatial Resolution. @619 Km
Hyper Spatial Resolution@ 619 Km
MTF tot.@ Nyquist freq.
F.o.R
S/N
200
100
300
≥ 20 Km
≤5 m.
≤20m (80m)
≥ 0.2
±22 °
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