Title of presentation runs here on two lines / Arial Regular 30 pt

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1 Title of presentation runs here on two lines / Arial Regular 30 pt Subtitle goes here / Arial Regular 20 pt Airbus Defense and Space Geo-Intelligence PIONEERING THE FUTURE TOGETHER Name Here / Arial Regular 15 pt DD Month YEAR / Arial Regular 15 pt Brian Cutler Program Director Presentation to Harvard University s ABCD-GIS Working Group

2 Overview Airbus DS Organization Airbus DS Satellite Constellation Airbus DS Imagery Product Portfolio Airbus DS Ground Segment

3 A legacy of Expertise CNES found SPOT Image Creation of Infoterra Full integration and re-branding: Airbus DS GEO-Information Services Fusion with Cassidian and Airbus Military and re-branding: AIRBUS DS GEO-Intelligence SPOT 5 Launch of SPOT 5, 2,5 m resolution PLÉIADES 1A & 1B 2011 & 2012: launch of Pléiades very high resolution satellites SPOT 1 Launch of SPOT 1 TerraSAR-X & TanDEM-X 2007: launch of TerraSAR- X radar satellite 2011: launch of TanDEM-X allowing WorldDEM SPOT 6 & & 2014: launch of SPOT 6 and SPOT 7 3

4 Commercial Aircraft Passenger Freighter Corporate Transport & Mission Patrol Civil & Military Helicopters Utility & Patrol Search & Rescue Law Enforcement Commercial Space Systems Satellite & Secure Land Communications Integrated Systems Electronics Cyber Security Geo-Intelligence

5 Airbus Defense and Space Geo-Intelligence Satellite Imagery Mosaics & DEMs Geospatial Solutions Optical & Radar Satellite Constellations Multi-Resolution Sensors Premium Reactivity Reliable Tasking Services Fresh & Extensive Archive SPOTMaps Radar Mosaics GEO Elevation WorldDEM Value-Added Datasets global and local Monitoring & Surveillance Data Management Services Cloud Services Direct Receiving Stations Advanced Image Processing

6 Geo-Intelligence. Who We Are Satellite Imagery & Geo-Data Solutions billion 40 Over 100 billion km² Customers in more than 100 countries Earth observation satellites, 2 radar and 8 optical + 2 to come in 2015 Resellers worldwide People using our imagery around the Globe every year Direct receiving station partners Worldwide of satellite imagery, archived since 1986 Smarter decision-making for a better life on Earth

7 Airbus DS Direct Receiving Stations Fort Collins, CO Chantilly, VA Leicester Newcastle Farnborough Friedrichshafen Potsdam Budapest Beijing Paris Toulouse Sophia Antipolis Barcelona Madrid Tokyo Singapore Sao Paulo Canberra Our offices Direct Receiving Stations

8 Geo-Intelligence. Meet Our Satellite Constellations Formosat-2 TerraSAR-X TanDEM-X DEIMOS-1 UK-DMC-2 Pléiades 1A Pléiades 1B SPOT 6 SPOT 7 PAZ NovaSAR A NEW ERA FOR CONSTELLATION SERVICES Multi-source and multi-resolution satellite imagery Daily coverage anywhere, weather-independent acquisitions Sophisticated range of products & services Constellation provides resolutions from 25cm to 40m

9 Optical Imagery Constillation Pléiades & SPOT Constellation

10 Pléiades and SPOT Coverage vs. Resolution Pléiades 20 km swath SPOT 6 & 7 SPOT 6 Pléiades 60 km swath

11 Airbus DS Satellite Pléiades & SPOT Constellation Parameter Pléiades 1A Pléiades 1B SPOT 6 SPOT 7 Launch Altitude 694 km 694 km 694 km 694 km Orbit Sun-synchronous Sun-synchronous Sun-synchronous Sun-synchronous Swath Width 20 km 20 km 60 km 60 km PAN Resolution 0.5m 0.5m 1.5m 1.5m MSI Resolution 2m 2m 6m 6m Spectral Bands PAN + R,G,B,NIR PAN + R,G,B,NIR PAN + R,G,B,NIR PAN + R,G,B,NIR Geometric Accuracy Horizontal 8.5m CE90* 8.5m CE90* 11.9m CE90* 11.9m CE90* Geometric Accuracy Vertical 1.2m LE90* 1.2m LE90* 4m LE90* 4m LE90* Revisit 1-3 days (Daily with both) 1-3 days (Daily with both) 1-3 days (Daily with both) 1-3 days (Daily with both) Stereo Capability Stereo/ Tri-Stereo Stereo/ Tri-Stereo Stereo/ Tri-Stereo Stereo/ Tri-Stereo Collection Capacity 1M km²/day 1M km²/day 3M km²/ day 3M km²/day

12 Pléiades and SPOT Sensor & Product Specification Sensors Products Spectral Bands 12 bits Color Bundle North-South oriented 1 Panchromatic 4 Multispectral (R,G,B,NIR) Dynamic range per pixel at acquisition Standard mode acquisition For standard acquisitions 50cm Pléiades 1.5m Spot 6 & 7 Ortho rectified Per sq.km JPEG 2000 Fully automatic ortho processing Pricing model, Pléiades and SPOT 6 & 7 For smarter data storage, handling and streaming Date

13 Pléiades and SPOT - Product Processing Levels Primary Level (Sensor Geometry) Ortho Level (Georeferenced) Radiometric corrections Geometric corrections restoring perfect linear conditions of acquisition Primary level corrections Terrain corrections Projected Band Combinations Panchromatic Only Pan-Sharpened 4-band Color Pan-Sharpened 3-band (False Color or Natural Color) Multispectral 4-band Only Bundle: Panchromatic + Multispectral 4-band Color Date - 13

14 Pléiades and SPOT - Reliable and Timely Tasking Constellation 2X day Twins Phased orbit Revisit time with 4 satellites Operations Multiple Tasking plans per day 2 x 2 IDENTICAL satellites 90 one from each other, Same sun-synchronous orbit Image Processing 30 min 2-3 hr Date - 14 Pléiades 50cm color ortho production of a 20 x 20 km area for a 60 x 60km monopass mosaic < 1 hr Spot 6 & 7 1.5m color ortho production of a 60 x 60 km area

15 From customer needs to delivery Training Perusat Revisit Revisit Pléiades 1A and SPOT 7 corridor of visibility for 1 day With 30 viewing angle

16 From customer needs to delivery Training Perusat Revisit Pléiades 1B and SPOT 6 corridor of visibility for 1 day With 30 viewing angle

17 From customer needs to delivery Training Perusat Revisit 4 Sat corridor of visibility for 1 day 1 day revisit above 40 lat at 30 angle 2 day revisit between equator and 40 lat, 1 day with increased angle (45 ) With 30 viewing angle

18 Pléiades and SPOT Acquisition Capabilities Pléiades and SPOT are equipped with Control Moment Gyroscopes (CMGs) which enable the satellites to collect twice as many images Increases acquisition opportunities Typically images over a 1000 km² area

19 State-of-the-Art Agility Acquisition capacity 6M sq.km Agility Effective daily acquisition capacity for 4 satellites 20 km Widest swath on VHR market 60 km Maintaining swath of the SPOT series Collection Scenarios Multi-target, Mosaic, Stereo, Tristereo, Border / Coastal / Corridor

20 Pléiades and SPOT - Acquisition Capabilities Mapping Targeting Intelligence Border Surveillance 1 square degree automatically orthorectified and mosaicked Stereo pairs and Stereo triplets for accurate 3D modelling Typically 20 targets over 1,000 km within a +/-30 corridor To follow linear targets such as coasts, borders, roads, pipelines, rivers

21 Pléiades and SPOT - Stereo Acquisition High Resolution Color 3-D Applications: DEM extraction 3D feature extraction Geomorphic visualization Stereo images collected with separation of 15 to 20º viewing angle (convergence angle)

22 Pléiades Collection Capabilities E/W Acquisition 100% of the Tunisia coastline covered in 3 months Tunisia Corridor Acquisition (1000 km) Agility

23 Pléiades Collection Capabilities Australia (pipeline) Pipeline monitoring in Corridor Mode Area collected in 12 image segments only

24 Pléiades Collection Capabilities Transco Pipeline 11 pump stations collected along the Transco pipeline in eastern Pennsylvania and New Jersey. Order received Friday 10 of the 11 areas were delivered by Monday morning (less than 2 days).

25 Pléiades Collection Capabilities Kaduna, Nigeria 47,519 km² collected in 2 months at 20 (<10% cc)

26 Pléiades Coverage Update: Last 12 Months Pléiades 1A & 1B (<15%cc) 50-cm products PAN, R, G, B and NIR

27 SPOT 6/7 Collection Capabilities Large Area

28 SPOT 6/7 Collection Capabilities Corridor Acquisition 900 km 200 km 400 km

29 SPOT 6/7 Large Area Coverage - California Entire state covered with less than 10% cloud cover in just one month.

30 SPOT Coverage Update: Last 12 Months SPOT 6 (<15% cloud cover) 1.5 m products PAN, R, G, B and NIR

31 Radar Imagery TerraSAR-X & TanDEM-X Constellation

32 Our Products: TerraSAR-X Focus on the Essential. TerraSAR-X dependably acquires high-resolution and widearea radar images regardless of weather and lighting conditions. The satellite features a unique geolocation accuracy that is unmatched by any other spaceborn sensor. Versatility. TerraSAR-X features six versatile imaging modes with resolutions down to 25 cm and scene sizes up to 400,000km². Quality. TerraSAR-X offers a unique geolocation accuracy below 1m and a high-level radiometric quality with long term stability. Reactivity and Reliability. TerraSAR-X (even more so together with PAZ) is particularly valuable for reliable change detection or monitoring needs.

33 Our Products: TanDEM-X A Unique Formation. TerraSAR-X and its twin satellite TanDEM-X fly in a unique formation with distances down to only a few hundred meters. The missions are implemented in the frame of a Public Private Partnership (PPP) between the German Aerospace Centre (DLR) and Airbus Defense and Space. Unique Mission. TerraSAR-X and TanDEM-X are acquiring the data basis for WorldDEM - a homogenous global DEM of unrivalled quality, accuracy and coverage. New Global Standard. WorldDEM TM will be the new standard of global elevation models and will be available for the Earth s entire land surface - pole to pole.

34 Optical vs. Radar Imagery

35 TerraSAR-X Image Modes Wide ScanSAR ScanSAR StripMap SpotLight Staring Spotlight Wide ScanSAR 40 m x 200 km Large area maritime monitoring of vessel traffic, oil spills, sea ice,.. 18 m 100 x 150 km Detailed maritime monitoring & detection 3 m 30 x 50 km Detection & classification of vessels, infrastructure, etc. 1 m 10 x 5 km Recognition of objects (airplanes, hangars, vessels,..) ~25 cm 4 x 3.7 km or 2.5 x 7.5 km, Identification of objects Monitoring Detection Recognition & Classification Identification

36 TerraSAR-X Coverage Update: Last 12 Months Radar All Modes (excluding WorldDEM acquisitions) 1.5 m products PAN, R, G, B and NIR

37 Mixing Optical and Radar Pléiades Full Range of Resolutions Optical: 0.5m 22m, Radar: 0.25m 40m From Detection to Classification to Identification Frequent Revisit Annual to Intra-daily revisit Optical imaging time from 10-11AM local time Radar satellite passing time morning and evening Wide Coverage Capability Targeting Widen the monitoring area using SPOT sensors Dedicating Pléiades sensor to specific areas for more detail Detection & Identification Radar can see when/when optical sensors cannot Ground characterization Pléiades 0.5m TerraSAR-X

38 SPOT 6 and SPOT 7 1.5m - 60km swath Pléiades 1A and 1B 0.5m - 20km swath TerraSAR-X Staring SpotLight 0.25m 4km swath

39 Quick & Detailed Large Area Coverage Pléiades Coverage of Delaware Entire state covered in three Pléiades passes Acquired on Jan. 9, 10 & 11 One image at the same viewing angle Ready for order within a few hours 50cm (~19 1/2 in.) resolution Can be used for: Frequent, high-resolution map updates Detailed damage assessment from natural and manmade disasters Logistics & route planning Construction planning & monitoring

40 Quick Large Area Coverage SPOT 6 Coverage of Delaware Entire state covered in one SPOT 6/7 pass Acquired on 10 Jan 2015 One image at the same viewing angle Ready for order within a few hours 1.5m (~5ft) resolution Multiple coverages per year Can be used for: More frequent statewide map updates Assessing damage from large scale natural disasters Logistics planning

41 A Complete Picture SPOT image (1.5m) Example: Bridge Construction SPOT 6: statewide coverage Pléiades image (50cm) Pléiades: close-ups over areas where more detail is needed Imagery + your propriety data = Complete picture

42 Geo-Intelligence. Our Products & Services Optical Imagery Pléiades SPOT DEIMOS-1 / UK-DMC-2 FORMOSAT-2 Radar Imagery TerraSAR-X TanDEM-X PAZ Monitoring Services GO Monitor GO Monitor Forest Global Seeps Change Detection Surface Movement Monitoring Reference Layers SPOTMaps TM (2.5/1.5) GEO Elevation (30/10/8/4/1) WorldDEM TM Ground Control Points Foundation Layers Geological Studies Platforms & Software I4D: Intelligence for Decision Pixel & Street Factory TM SAFEcommand Easy Access to Data GeoStore TM Direct Reception Services ArcGIS Toolbar ArcGIS Marketplace DataDoors TM Cloud Services

43 Ordering Principles and Acquisition Loop

44 Defining The Need Archive & Tasking Requests Where? Area Of Interest? What? Which Application? How? With which constraints? When? Acquisition window? For When? Delivery Time / Constraints? net

45 Translate The Need Into A Tasking Request The Need Tasking Satellites

46 Defining the need Tasking Requests Mapping Urban Agri. Forest Monitoring Emergency DEM Maritime Extension of Period of Acquisition Postponing of Period of Acquisition Increasing Viewing Angles Increasing Priority level Reducing the Area of Interest Increasing the accepted % of clouds, snow, haze.

47 Collection Priorities Background / Archive Large area requests Build archive No active management Speculative / Anticipation Usually reserved for Resellers with potential sale opportunity No defined sale, build archive No active management Standard Regular priority level for paying customers Actively managed Priority Greater need to collect Used when conflicts are known Short collection window Actively managed Dedicated Emergency need Short collection window Closely managed

48 Understanding The Ordering Process I would like to order Archive Imagery Requests for standard products 24/7 Autonomy Quick delivery BEST FOR BEST FOR Non standard archive products & Tailored Tasking Requests Tailored needs Customized answers Quotation with approval process Order is Launched into Production using Information System Confirmed Reviewed Quotation Tailored Tasking Activation Production Management Delivery Canceled Invoicing

49 Understanding the Acquisition Loop Satellite Satellite Tasking Mission Control Centre Telemetry Download End-user Acquisition & Production Image delivery on FTP Programming Request Virtual Receiving Station New Data Request New Data Delivery

50 Understanding The Acquisition Loop Satellite Satellite Tasking Mission Control Centre Telemetry Download End-user Programming Request New Data Request Direct Receiving Station New Data Delivery Acquisition & Production

51 From customer needs to delivery Training Perusat Understanding the Acquisition Loop Satellites Mission Plan Uplink (S band) Mission Control Centre Image Telemetry Downlink (X band) Operation Center Mission Plan Transmission Feasibility study Mission Plan Computation Programming Request Programming Proposal Loop Tracking data Catalog Update Image Validation Direct Receiving Station Ingestion Archiving Cataloging Data Processing End User

52 Timeline for Pléiades Up to two hours before satellite enters into a new tasking area: Take into account last-minute customer requests Fine-tune tasking plan according to the most recent weather forecast for increased success rate

53 Timeline for SPOT6/7

54 From customer needs to delivery Training Perusat Example of timeline for Emergency request Working days May 05 th May 06 th 2h33 min 15:07 the order is placed through Cust. Care over the Area of Interest. Confirmation 15 later, 15:22. 06:18 08:53 the the Pléiades Emergency satellite Tasking collects the request is target integrated in the satellite s plan. 10:46 Catalogue update 10:51 Acquisition Notification sent to the customer (kml file including Quick-look) 10:51 the production is automatically launched 11:26 the product is available on the network (FTP delivery notification)

55 Recap Airbus DS Organization Airbus DS Satellite Constellation Airbus DS Imagery Product Portfolio Airbus DS Ground Segment

56 Questions? For more Information please visit: Questions? Airbus Defence and Space, Geo-Intelligence Avion Parkway, Suite 500 Chantilly, Virginia Phone: (703)