DOCUMENT. esrin. Copernicus Space Component Data Access Portfolio: Data Warehouse ESA UNCLASSIFIED - For Official Use

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1 DOCUMENT esrin Via Galileo Galilei Casella Postale Frascati Italy Copernicus Space Component Data Access Portfolio: Data Warehouse Prepared by B. Hoersch, V. Amans Reference COPE-PMAN-EOPG-TN Issue/Revision 2.1 Date of Issue 01/08/2016 Status Approved

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3 Amended mission names contributing to EUR_HR2_MULTITEMP dataset. Removed SRTM specification, still to be clarified in HR_IMAGE_2015 and MR_IMAGE_ /05/ Table 3 15/05/ , and Reformatting of VHR_IMAGE_2015 information 15/05/ Replaced EEA38 by EEA39 in MR_IMAGE_ /05/ Added resolution type to paragraph and title of SAR_SEA_ICE detailed description Removal of Spotlight HS 300 MHz dual polarisation offer upon request by Airbus Defence and Space (DE) Corrections applied to VHR2 Optical portfolio for SPOT-5 Editorial corrections of Emergency datasets IDs for Optical MR1 datasets SATCEN: quota reshuffling to support creation of new dataset 009a 15/05/ /05/ Table 8 15/05/ Table 9 15/05/ Table 15 15/05/ Table 21 Changed Service Code for EEAS to CSEA 15/05/ Table 23 Added dataset 011b and quota for Local Land upon EC request 15/05/ Table 24 Changes to Advanced SAR quotas allocation 15/05/ Table 26 ERMES: amended dataset title for ADD_016b to be VHR2 and upgraded quotas 15/05/ Table 29 EU FAST quota upgrades 15/05/ Table 30 Addition of Copernicus Masters Overall winner 2013 and 2014 and Best Service 2014 quota allocations 15/05/ Table 31 ITACA quota upgrade 15/05/ Table 32 RASOR quota upgrade 15/05/ Table 36 SPACE NAV quotas updated 15/05/ Table 38 Correction of Datasets IDs for PREFER 15/05/ Table 39 Issue Number 2 Revision Number 0 Reason for change Date Pages Paragraph(s) Introduction of new Union Research Projects 15/01/ Update of quotas as per EC input for /01/ Addition of RISAT mission to SAR VHR, HR and MR ADDitional datasets Sentinel-2 added to optical HR1 and HR2 ADDitional datasets Sentinel-2 CORE dataset added (HR1/HR2_OPTICAL_GLOBAL) Update of missions availability (SMOS, Sentinel-2, Sentinel-3, OceanSat-2, RISAT) 15/01/2016 Tables 8,10,12,14 15/01/2016 Tables 11,13 15/01/ /01/2016 Table 2 Addition of 2 new Radarsat-2 modes to ADDitional 15/01/2016 Table 14, 17 Page 3/84

4 datasets Issue Number 2 Revision Number 1 Reason for change Date Pages Paragraph(s) Addition of Frontex new Security Service and relevant quotas New quotas for EONAV, Co-Re-SyF, EO4wildlife and SEN3APP Addition of Dubaisat-2, TH constellation and Kompsat-2, 3 and 5 to relevant datasets Quota reshuffling applied since 15 January to: EMS Risk and Recovery, ADVANCED SAR, SpaceNav and Copernicus Masters Best Service /07/2016 Table 23 31/07/2016 Table 31,33,35 and 39 31/07/2016 Table 6-9, 11 and 12 31/07/2016 Table 20,28,30 and 40 Quota corrections applied to EOMonDis 31/07/2016 Table 34 Addition of two new Copernicus Masters : Satellite Image Automatic Mapper - Through-Time Challenge Winner 2015 Catapult Challenge Winner 2015 Removed quota allocations for DECUMANUS, ITACA, PHAROS, POLAR ICE, RASOR projects which have ended during the first half of 2016 Change of company name from BlackBridge to Planet following a rebranding 31/07/2016 Table 30 31/07/2016 N/A 31/07/2016 Table 17,18 and 44 Addition of FAST24 delivery option for Archive orders 31/07/ DISTRIBUTION Name/Organisational Unit Page 4/84

5 Table of contents: 1 INTRODUCTION Reference documents Abbreviations Document overview USER CATEGORIES AND LICENSING SCHEME Copernicus Services [Copernicus_Services] Institutions and bodies of the Union [Union_Inst] Participants to a research project financed under the Union research programmes space [Union_Research_Projects_space] Participants to a research project financed under the Union research programmes non space [Union_Research_Projects_non-space] Public Authority [Public_Auth] International Organisations and NGOs [INT_ORG_NGO] Public [Public] Licensing scheme COPERNICUS SPACE COMPONENT Resolution Classes Copernicus Dedicated Sentinel Missions Sentinel Sentinel Sentinel Copernicus Contributing Missions CORE DATASETS Overview of CORE datasets Detailed description of CORE datasets Optical HR Pan Europe coverages (HR_IMAGE_2015) Optical VHR multispectral and panchromatic coverage over Europe (VHR_IMAGE_2015) European Optical MR1 composites (MR_IMAGE_2015) HR1/HR2 Optical Worldwide coverage (HR1/HR2_OPTICAL_GLOBAL) Optical MR2 worldwide coverage (MR_OPTICAL_GLOBAL) Optical LR worldwide coverage (LR_OPTICAL_GLOBAL) European HR2 Multitemporal Coverages (EUR_HR2_MULTITEMP) VHR1-2 Urban Atlas SAR HR2/MR1 Worldwide coverage (HR2-MR1_SAR_GLOBAL) Sea Ice Monitoring HR2/MR1 SAR (SAR_SEA_ICE) Atmospheric datasets Other datasets ADDITIONAL DATASETS List of ADDitional datasets Detailed description of ADDitional datasets VHR1 SAR and Optical VHR2 SAR and Optical HR1 SAR and Optical HR2 SAR and Optical Page 5/84

6 5.2.5 MR1 SAR and Optical EO DATA ORDERING WITHIN ADDITIONAL DATASETS Order parameters Size of Minimum Orderable Area Satellite Tasking lead time Processing Options Cloud Coverage Classes SAR Polarisation Delivery timeliness Quota allocation, consumption and reshuffling Quota consumption Quota exhaustion and reshuffling Quota allocations per Project CSCDA SERVICES Copernicus Space Component Data Access (CSCDA) infrastructure Rapid Emergency Activation Satellite Tasking Rush tasking schemes CCMEs emergency service support Registration and Signature of ESA-User Licence Sentinel data access ESA and ESA TPM data access Contributing Missions data access EO data ordering Subscription Request Discovery and download Direct access to CCMEs or CDS on-line repositories USER SUPPORT SERVICES Web Portal Day-to-day support for enquiries and ordering Specific support regarding the data offer ANNEX 1: EEA39 AREA OF INTEREST ANNEX 2: ACQUISITION WINDOWS FOR HR/VHR _IMAGE_ ANNEX 3: MAP OF LARGE REGIONS & CLOUD COVER ZONES ANNEX 4: CLOUD COVER AND HAZE Page 6/84

7 List of tables Table 1 Datasets licensing scheme (D = Download, V= View) Table 2 Missions made available in Data Warehouse Phase Table 3 CORE datasets, DWH phase 2 ( ) Table 4 CORE datasets generated in previous phases and available in DWH phase 2 ( ) Table 5 List of ADDitional datasets available in DWH Phase Table 6 SAR VHR1/Rush/Standard/Archive/New Acquisition Table 7 Optical VHR1/Rush/Standard/Archive/New Acquisition Table 8 SAR VHR2/Rush/Standard/Archive/New Acquisition Table 9 Optical VHR2/Rush/Standard/Archive/New Acquisition Table 10 SAR HR1/Rush/Standard/Archive/New Acquisition Table 11 Optical HR1/Rush/Standard/Archive/New Acquisition Table 12 SAR HR2/Rush/Standard/Archive/New Acquisition Table 13 Optical HR2/Rush/Standard/Archive/New Acquisition Table 14 SAR MR1/Rush/Standard/Archive/New Acquisition Table 15 Optical MR1/Rush/Standard/Archive/New Acquisition Table 16 Baseline options and ADD Ons options Table 17 Add-ons per CCME Table 18 CCMEs minimum order size and incremental Table 19 Copernicus EMS Rapid Mapping Table 20 Copernicus EMS Risk and Recovery Mapping Table 21 Copernicus EMS Validation Mapping Table 22 Copernicus Security Service-SATCEN Table 23 Copernicus Security Service-FRONTEX Table 24 Copernicus Security Service-DG-ENERGY Table 25 Copernicus Security Service-CSEA Table 26 Copernicus Land Service-Local Land Table 27 Copernicus Land Service-Global Land Table 28 ADVANCED SAR-Union Research Project Table 29 APHORISM-Union Research Project Table 30 Copernicus Masters-Union Research Project Table 31 Co-ReSyF-Union Research Project Table 32 EGSIEM-Union Research Project Table 33 EO4wildlife-Union Research Project Table 34 EOMonDis-Union Research Project Table 35 EONav-Union Research Project Table 36 ERMES-Union Research Project Table 37 EU FAST-Union Research Project Table 38 NORTH STATE-Union Research Project Table 39 SEN3APP-Union Research Project Table 40 SPACE NAV-Union Research Project Table 41 SPICES-Union Research Project Table 42 SWARP-Union Research Project Table 43 URBANFLUXES-Union Research Project Page 7/84

8 1 INTRODUCTION The Data Access Portfolio Document (DAP) defines the datasets that are made available to the Copernicus Users in response to their Earth Observation data requirements, for a certain period of time, and the conditions (i.e. data licensing, product types available, delivery timelines, data access mechanisms) under which they are accessible. It is therefore the baseline for implementation of the Copernicus Space Component Data Access (CSCDA) Services. This data and services (including licensing) offer is based on agreements with the Copernicus Contributing Mission Entities (CCMEs). In case of a Mission failure or temporary unavailability, ESA will provide backup solutions or temporary replacements where feasible. Up-to-date information and operational Mission news is available on the CSCDA web site at This version of the DAP informs the Copernicus users about the CORE datasets that are being procured under Data Warehouse phase 2 and the envelope of quota per dataset allocated to authorised users within ADDitional Datasets in The document also addresses access to the datasets already procured under the previous Data Access phases. Information on the implementation status of all datasets, updated on a monthly basis, is available on the CSCDA web site. 1.1 Reference documents [RD - 1] [RD - 2] [RD - 3] Page 8/84 Copernicus Data Access:ESA-User Licence Data Warehouse Requirements V2.0 Copernicus Data Access Specifications of the space-based Earth Observation needs for the period Copernicus Space Component Data Access Portfolio: Data Warehouse Abbreviations ADD AOI ACP BRM CCM CCME CDS CDS-CI CDS-SCI CET CQC CSC ADDitional datasets Area of Interest Acquisition Coverage Plan Background Regional Mission Copernicus Contributing Mission Copernicus Contributing Mission Entity Coordinated Data Access System CDS Core Infrastructure CDS Services Coordinated Interface Central European Time Coordinated Quality Control Copernicus Space Component

9 CSCDA CRS DAM DAP DEM DFAIT DWH EEA EC EMS EO EOLI ESA EU EUSI FTP GCL GCP GRD GSD HR IW LLT LR LUZ KML KMZ MR N/A ND NRT ONA Ortho Pan Pansharp Pol PST REACT SAR SHP SLT SPERF Copernicus Space Component Data Access Coordinate Reference System Data Access Portfolio Management Data Access Portfolio Digital Elevation Model Department of Foreign Affairs and International Trade (Canada) Data Warehouse European Environment Agency European Commission Emergency Mapping Service Earth Observation Earthnet On-Line Interactive European Space Agency European Union European Space Imaging File Transfer Protocol GMES/Copernicus Client Ground Control Point Ground Range Detected Ground Sample Distance High Resolution Interferometric Wide Swath Mode Long Lead Time tasking Low Resolution Larger Urban Zones Keyhole Mark-up Language Keyhole Markup Language, Zipped Medium Resolution Not Applicable Normal Delivery Near Real Time Off-Nadir Angle Orthorectified Panchromatic Pansharpened Polarisation Pacific Standard Time Rapid Emergency Activation for Copernicus Tasking Synthetic Aperture Radar Shape file Short Lead Time Services Provider Emergency Request Form Page 9/84

10 SRTM SST UTC VHR Shuttle Radar Topography Mission Sea Surface Temperature Universal Time Coordinated Very High Resolution 1.3 Document overview The present document is divided into the following sections: Section 1: Introduction, describing the purpose of the document, reference documentation and the list of acronyms used within the document. Section 2: User Categories and Licensing scheme, introducing user categories as well as access rights defined per user category and datasets type. Section 3: Copernicus Space component, defining the missions contributing to the Copernicus Portfolio. Section 4: CORE Datasets, describing the detailed specifications of the predefined datasets. Section 5: ADDitional Datasets, listing on-demand datasets and the relevant portfolios of missions for both Emergency and Standard mode. Section 6: Data Ordering within ADDitional datasets is described. Section 7: CSCDA Services, describing the CDS infrastructure, Rapid Emergency Activation Satellite Tasking, registration, ESA-User Licence, data ordering and Data Access. Section 8: User Support Services, outlining the channels of support offered to users. ANNEXES: supporting documentation for the implementation of CORE datasets. 2 USER CATEGORIES AND LICENSING SCHEME The categories of Copernicus Users eligible for accessing data from the Copernicus Space Component are defined and maintained by the European Commission (EC) in the Data Warehouse requirements document [RD-2]. Seven categories for which the legally binding definitions are part of the ESA-User Licence have been identified. Their respective access rights are described in section Copernicus Services [Copernicus_Services] This category includes the Copernicus Services first established under the Regulation (EU) No 911/2010 and then under Regulation (EU) No 377/2014 establishing the Copernicus Programme and repealing Regulation (EU) No 911/ Institutions and bodies of the Union [Union_Inst] This category includes: - The European Institutions set up under the EU Treaties; - Agencies and other Union Bodies set up under the EU Treaties; Page 10/84

11 - Contractors of such entities. 2.3 Participants to a research project financed under the Union research programmes space [Union_Research_Projects_space] This category includes any natural or legal person officially registered as participant of a project funded under the space themes of EU research framework programmes. Participants to very limited activities closely linked to Copernicus like Copernicus Masters may be eligible to this user category on a case by case basis upon confirmation by the European Commission. 2.4 Participants to a research project financed under the Union research programmes non space [Union_Research_Projects_non-space] This category includes any natural or legal person officially registered as participant of a project funded under EU research framework programmes outside the Space themes. 2.5 Public Authority [Public_Auth] This category includes: - Any government or other public administration of States participating in the Copernicus Programme including public advisory bodies, at national, regional or local level; - Any natural or legal person performing public administrative functions under national law, including specific duties, activities or services in relation to an EU policy; - Any natural or legal person having public responsibilities or functions, or providing public services relating to an EU policy under the control of a body or person falling within (1) or (2), such as a contractor of a public authority; - Any research and academic organisation; - Contractors of such entities. 2.6 International Organisations and NGOs [INT_ORG_NGO] This category includes: - Any international governmental organisation created by an international treaty which can be looked up in the UN online database of treaties. Specialised agencies of the UN are included; - Any international non-governmental organisation specialised in humanitarian development or environmental activities. 2.7 Public [Public] This category includes any natural or legal person. Page 11/84

12 2.8 Licensing scheme The access rights of each user category are part of the agreements with all Contributing Missions Entities negotiated by ESA; they are reported in table 1 below for both CORE and ADDitional datasets, procured in the previous or the current Data Access Phases. Download and View rights are defined where they apply for a dataset or dataset type (CORE, ADD), per user category. Discovery is instead open to all Copernicus Users Categories for all datasets and is not reported in the table below. User categories Dataset [Copernic us_ Services] [Union_ Inst] [Union_Research _Projects_ space] [Union_Research _Projects_ non-space] [Public_ Auth] [Int_Org_ NGO] [Public] New CORE Datasets HR_IMAGE_2015 D D D D D V - VHR_IMAGE_2015 D D D D D V V HR1/HR2_OPT_ GLOBAL (Sentinel-2) D D D D D D D MR_IMAGE_2015 D D D - D - - MR_OPT_GLOBAL D D D D D - - LR_OPT_GLOBAL D D D D D D 1 D 2 HR2- MR1_SAR_GLOBAL (Sentinel-1) LR_SAR_GLOBAL (Sentinel-1) D D D D D D D D D D D D D D HR2-MR1_SAR_Sea_Ice D D D D 3 D EUR_HR2_ MULTITEMP VHR1-2_ Urban_Atlas_2012 D D D D D D V D D D D D V V CORE Datasets from previous phases IMAGE2006 Optical HR Pan EU coverages D D D D km Proba-V only 2 1 km Proba-V only 3 Excluding Radarsat-2 Mission 4 TerraSAR-X only Page 12/84

13 User categories Dataset IMAGE2009 Optical HR Pan EU coverages DWH_MG2_CORE_01 Optical HR Pan EU coverages (Image2012) DWH_MG2b_CORE_03 Optical VHR2 coverage EU and Riparian zones DWH_MG2-3_ CORE_08 Monthly composites EU DWH_MG2_CORE_09 Sub-Saharan Optical coverage HR DWH_MG1_CORE_11 Sea Ice monitoring DWH_MG2b_CORE_30 Urban Atlas (2006, 2009) Altimetry and Atmospheric datasets All ADDitional datasets [Copernic us_ Services] [Union_ Inst] [Union_Research _Projects_ space] [Union_Research _Projects_ non-space] [Public_ Auth] [Int_Org_ NGO] D D D D - - D D D - D - - D D D - D V V D D D - D - - D D D D D D V D D D - D - - D D D D - - D D D D D D D New ADDitional datasets D D D D D - - [Public] ADDitional datasets from DWH phase 1 ( ) All ADDitional datasets D D D of DWH phase 1 Table 1 Datasets licensing scheme (D = Download, V= View) 3 COPERNICUS SPACE COMPONENT The Copernicus Space Component (CSC), operated by ESA, represents the main geospatial resource for the Copernicus programme; it relies on a constellation of dedicated missions - the Sentinels - as well as on a set of EO space missions not dedicated to Copernicus but contributing to it according to agreed operational scenarios and service levels for a harmonised data provision to the Copernicus users. Since 2015, access to data from 60 European and international space missions operated by national agencies or commercial entities are granted to eligible Copernicus users. In parallel, Sentinel-1, Sentinel-2 and Sentinel-3 missions, developed by ESA, have enlarged significantly the overall operational Earth Observation capability needed to support the Copernicus users. Page 13/84

14 3.1 Resolution Classes All missions of the Space Component are classified primarily by sensor type (SAR or Optical) but also by resolution classes defined as follows: - VHR1 Very High Resolution 1 where resolution <=1m - VHR2 Very High Resolution 2 where 1m < resolution <=4m - HR1 High Resolution 1 where 4m <resolution<=10m - HR2 High Resolution 1 where 10m <resolution<=30m - MR1 Medium Resolution where 30m <resolution<=100m - MR2 Medium Resolution where 100m <resolution<=300m - LR Low Resolution where resolution >=300m 3.2 Copernicus Dedicated Sentinel Missions Sentinel-1 Sentinel-1 was the first of the six dedicated satellite mission families that ESA developed for the Copernicus programme. It comprises a constellation of two polarorbiting satellites, performing C-band SAR imaging. Sentinel-1A is in routine phase since June 2015 while Sentinel-1B has been launched in April The mission routine operations with both satellites is planned by end Sentinel-1 predefined observation scenario supporting Copernicus monitoring services, aims at producing a consistent long-term data archive built for applications based on long time series. It is published at Data processing is systematic and the data are made available online. Sentinel-1A data are available as follows: - Systematic processing of acquisitions over Copernicus Marine Environment Monitoring Service (CMEMS) areas of interest and delivery in a dedicated repository (NRT3h for agreed priority areas); - Contribution to emergency activations requiring SAR HR2 data; - Fast24 production worldwide in the Sentinels Scientific data hub ( and Copernicus Services data hub ( for contribution to the HR2-MR1_SAR_GLOBAL CORE dataset and to HR2/MR1 ADDitional datasets. On-line registration is required for all users. Sentinel-1B data will complement the above data offer after IOCR planned mid- September Sentinel-2 Sentinel-2 comprises a constellation of two Land Monitoring optical satellites on a sunsynchronous orbit. The mission provides a global coverage of the Earth's land surface every 10 days at the equator with one satellite and 5 days with 2 satellites. Sentinel-2A was launched on 23 rd June 2015 and Sentinel-2B is scheduled for launch in Q1-Q Page 14/84

15 Sentinel-2 Mission Planning activities are routinely carried out on a weekly basis covering a planning period of 10 days. Every week, a Google Earth KML file is published at with detailed information on the image segments. Data processing is systematic and the data are made available online in the Sentinels Scientific data hub ( and Copernicus Services data hub ( nominally within 24h from sensing. Sentinel-2 contributes to HR1/HR2_OPTICAL_GLOBAL and HR_IMAGE_2015/2018 datasets Sentinel-3 Sentinel-3 is a multi-instrument mission to measure sea surface topography, sea and land surface temperature and ocean and land surface colour with high accuracy and reliability to support ocean forecasting systems, environmental monitoring and climate monitoring. Sentinel-3A was launched on 16 February 2016 and is jointly operated by ESA and EUMETSAT to deliver operational ocean and land observation services. Sentinel-3B is scheduled for launch in Sentinel-3 observation scenario is predefined to answer the observation requirements of the Copernicus Services. The instruments perform the sensing of the data autonomously on-board the spacecraft on the basis of predefined geo-coordinates and observation modes depending on the surface being overflown. The predefined observation scenario foresees the following modes, per instrument: - The OLCI instrument, in observation mode, acquires data over the daylight part of the orbit (i.e. for a sun zenith angle below 80 deg). - The SLSTR instrument, in observation mode, operates the infra-red and SWIR channels over the whole orbit, and the visible channels out of eclipse only. - The SRAL instrument acquires data over the whole orbit in 100% SAR mode. - The MWR instrument operates over the whole orbit. More information on OLCI and SLSTR coverages can be found at Copernicus Contributing Missions The table below presents the list of Data Warehouse Phase 2 Copernicus Contributing Missions, divided per mission group and resolution type (1=SAR VHR1-MR2, 2b=Optical VHR1/2= Optical HR1/2, 3=Optical MR1/2 and 4/5= Atmospheric Missions). The missions in italic bold will be available at a later stage, when launched or integrated into the CSCDA. Page 15/84

16 Mission Group 1 - SAR VHR1- MR2 Mission Group 2b Optical VHR1/2 Mission Group 2 Optical HR1/2 Mission Group 3 Optical MR1/2 Mission Group 4/5 Atmospheric missions Others ALOS-PALSAR AURIGA ALOS-AVNIR-2 Proba-V ERS-1/2 CryoSat COSMO-SkyMed Constellation BLACKSKY constellation Deimos-1 Resourcesat-1, Resourcesat-2 Envisat SMOS Envisat Deimos-2 INGENIO Oceansat-2 GOSAT ERS-1/2 ERS-1/2 Dubaisat-2 Landsat-5 Landsat-7 Sentinel-3 * ODIN Envisat Landsat-8 Kompsat-5* GeoEye-1 PERSEUS Sentinel- 3 * PAZ INGENIO Proba RADARSAT-2 RISAT-1 Sentinel-1 TerraSAR-X, TanDEM-X IRS-P5 CartoSat Ikonos-2 KHALIFASAT Kompsat-2* Kompsat-3* Pleiades-1A/1B QuickBird-2 SPOT-5, SPOT-6/7 SkySat TH constellation WorldView-1, WorldView-2 WorldView-3 Worldview-4 RapidEye Constellation ResourceSat-1, ResourceSat-2 SPOT-4, SPOT-5, SPOT-6-7 Sentinel-2 TH constellation UK-DMC2 (*Available during Q3 2016) Table 2 Missions made available in Data Warehouse Phase 2 4 CORE DATASETS They are the fixed part of the data offer, typically pre-defined large coverages, identified to cover the needs of the Copernicus services and other activities requesting Earth Observation data, like Union financed research projects and the activities of Union agencies (EEA, EMSA, SatCen, etc.). CORE datasets are characterised by fixed tasking, Page 16/84

17 systematic or not, data processing and delivery timeliness parameters defined in the dataset description below. 4.1 Overview of CORE datasets Table 3 provides the list of the CORE datasets to be delivered by the Copernicus Missions within Data Warehouse phase 2 ( ). Dataset ID Dataset short description Missions HR_IMAGE_ high-resolution coverages of EEA-39 within vegetation season Spot-5, Resourcesat-2 Sentinel-2A HR_IMAGE_2018 High-resolution coverages of EEA-39 Systematic Sentinel-2 within VHR_IMAGE_ very high resolution coverage (<=1m pan, ±2-4 m MS) VHR_IMAGE_ very high resolution coverage Not yet procured MR_IMAGE_ MR1 monthly coverages of Europe from Resourcesat-2 March to October 2014 MR_IMAGE_2018 Systematic Sentinel-2/-3 data supply PleiadesA/B,GE-1, WV-2, WV-3, Deimos-2, Dubaisat-2 HR1/HR2_OPT_GLOBAL Systematic Sentinel-2 data supply MR_OPT_GLOBAL Optical MR2 worldwide coverage Proba-V 100m LR_OPT_GLOBAL Optical LR worldwide coverage Proba-V 333m and 1km HR2-MR1_SAR_GLOBAL Systematic Sentinel-1 data supply LR_SAR_GLOBAL Systematic Sentinel-1 data supply HR2-MR1_SAR_Sea_Ice EUR_HR2_MULTITEMP VHR1-2_ Urban_Atlas_2012 Systematic daily SAR data over ice covered areas Systematic Sentinel-1 data supply, complemented by Radarsat-2, TerraSar-X, Cosmo Skymed Deimos-1 and UK-DMC2 7 monthly coverages of Europe Apr-Oct LUZ WorldView-2 Table 3 CORE datasets, DWH phase 2 ( ) In addition to the newly procured datasets, the large coverages generated during the previous phases listed in table 4 are also available to authorised users, as per access rights defined in section 2.8. Their detailed description can be found in [RD-3]. Dataset ID Dataset Title DWH_MG2_CORE_01 2 Optical HR Pan EU coverages (Image2012) DWH_MG2_CORE_02 2 Optical HR Pan EU coverages each (Image2006 and Image2009) DWH_MG2b_CORE_03 Optical VHR2 coverage EU and Riparian zones (gap filling from DWH phase 2) DWH_MG2-3_CORE_08 Monthly composites EU Page 17/84

18 DWH_MG2_CORE_09 Sub-Saharan Optical coverage HR DWH_MG1_CORE_11 Sea Ice monitoring DWH_MG2b_CORE_30 Urban Atlas (2006, 2009) Table 4 CORE datasets generated in previous phases and available in DWH phase 2 ( ) 4.2 Detailed description of CORE datasets The tables below describe the predefined characteristics of the CORE datasets Optical HR Pan Europe coverages (HR_IMAGE_2015) FIELD Title DWH-ID Applications Selected missions Spatial Resolution/ Spectral bands Processing levels / Product quality VALUE Optical HR Pan Europe coverages HR_IMAGE_2015 Continuation of pan-european land services, including Corine Land Cover (CLC) and the production of High Resolution Layers (HRL) on land cover characteristics by the Union, EEA and Member States. This dataset could also partially meet EFFIS requirements. SPOT-5, Resourcesat-2, Sentinel-2A SPOT-5, HRVIR, 10m Resourcesat-2, LISS-III, 23.5m (GSD) Spectral bands: Pan (only SPOT-5), Green, Red, NIR, SWIR Sentinel-2, MSI, 10m/20m, VIS, NIR, SWIR - Level 1 and Level 3, National and European projection Spot-5: All data delivered in level 1A and level 3 (Ortho) with the following specifications: - Level 1A, 10m: o System corrected, at-sensor radiometric and geometric calibrated data. o Calibration parameters enabling the conversion of DN into spectral radiance as well as the solar spectral radiance. - Level 3, 10m: o EU projection (ETRS89-LAEA, EPSG code 3035) for EEA39 countries. o National projection for EEA39 countries: CRS table available on the CSCDA web site. DOMS delivered only in national projection. o Reference 3D DEM; where Reference 3D is not available, the SRTM DEM will be used. o Resampling using cubic convolution method. o GCP file available in CDS archive. -Metadata: o o DIMAP V1 for both L1A and L3 data. INSPIRE compliant metadata for data delivered as of July See compliance per mission on the CSCDA web site. -File Format: o GeoTIFF v6 Page 18/84 Resourcesat-2: No acquisition over DOMs All data delivered in level 1A and level 3 (Ortho) with the following specifications: - Level 1, resampled to 20m:

19 o System corrected, at-sensor radiometric and geometric calibrated data. o Calibration parameters enabling the conversion of DN into spectral radiance as well as the solar spectral radiance. o RPC files -Level 3, resampled to 20m: o EU projection (ETRS89-LAEA, EPSG code 3035) for EEA39 countries. o National projection for EEA39 countries: CRS table available on the CSCDA web site. o Reference: CORE_001 COV#1 of DWH V1 (IMAGE 2012), supplemented by IMAGE 2009 data, CORE_003 and other references where required o Ortho-rectification makes use of RPC functions and is based on the following DEMs: SRTM, DEMs of national land surveying offices of Finland, Norway, Sweden, ASTER GDEM and where required other DEMs. o Resampling using cubic convolution method at native resolution of 20 m o GCP file with respect to reference data set -Metadata: o INSPIRE compliant metadata for all processing levels once developments are completed. See compliance per mission on the CSCDA web site. -File format: o GeoTIFF fully compliant with TIFF version 6. However, products for some national projections may have to be delivered in ESRI Header (EHdr) format (BIL format, no compression) when the projections cannot be handled properly in GeoTIFF Product Quality Spot-5: o Radiometric resolution: 8 bit o Presence of perennial snow and glaciers is to be expected in products. o Haze: acceptability assessed by EEA (see Annex 4) o The sun elevation angle is higher than 20 to ensure sufficient illumination and to minimize the effect of shadows o The off-nadir viewing angle is less than 25. o Grid alignment: GeoTIFF key (GTRasterTypeGeoKey" shall have the value 1, corresponding to "RasterPixelIsArea") o Pixel alignment: the values of the coordinates for the upper-left corner (x and y) of the upper-left pixel of an image dataset shall be an integer multiple of the pixel size (resolution) in the corresponding direction (x and y) o Geo-location relative accuracy: HR_IMAGE_2015 will be processed on Airbus DS Geo SA own DEM (see above). Product Quality Resourcesat-2: o Radiometric resolution: 10 bit o Presence of perennial snow and glaciers is to be expected in products o The sun elevation angle is higher than 20 to ensure sufficient illumination and to minimize the effect of shadows o The off-nadir viewing angle is 0 o Grid alignment: GeoTIFF key (GTRasterTypeGeoKey" shall have the value 1, corresponding to "RasterPixelIsArea") o Pixel alignment: The values of the coordinates for the upper-left corner (x and y) of the upper-left pixel of an image dataset shall be an integer multiple of the pixel size (resolution) in the corresponding direction (x and y) o Geo-location relative accuracy: less than 1 pixel difference to the reference dataset (see above) o TOA reflectance values are provided for orthorectified products. Page 19/84

20 Product Quality Sentinel-2: Product quality is evolving along the ramp-up, the latest quality report is to be found at: Surface Area of interest Reference year/acquisitions &Tasking Strategy/ Acquisition windows & constraints ~6 M km² 39 European states (EEA39, see Annex 1) including all islands of those countries plus French Overseas Department [French Guiana, Martinique, Guadeloupe, Mayotte, Reunion] but excluding French Overseas Territories. o Reference Year is o Coverages are composed from the following data sources: o Spot-5 data, available from the full vegetation period of 2014 o Systematic tasking in 2014 and 2015 for Resourcesat-2 over Europe within the extended windows. Resulting data are proposed for two coverages. o Sentinel-2 data can be made available to complement the coverage o Acquisition windows are defined in Annex 2 Delivery o Spot archive delivery in o Resourcesat-2 data delivery following CSP data assessment in 2016 o Sentinel-2 data available in the Sentinels Data Hubs (see section 3.2). Upon selection by CSP, the Sentinel-2 contributions to the coverages will be also available in the CDS Delivery mechanism FTP@CDS: data available at the Core Infrastructure (CDS) Backup RapidEye constellation Additional Information Licence - Copernicus_Services : DOWNLOAD - Union_Inst: DOWNLOAD - Union_Research_Projects_Space: DOWNLOAD - [Union_Research_Projects_nonspace]: DOWNLOAD - Public_Auth: DOWNLOAD - INT_ORG_NGO: VIEW [DOWNLOAD for S2] - Public: DISCOVERY [DOWNLOAD for S2] Optical VHR multispectral and panchromatic coverage over Europe (VHR_IMAGE_2015) FIELD Title DWH-ID Applications Selected missions VALUE Optical VHR multispectral and panchromatic coverage over Europe VHR_IMAGE_2015 Land local component applications for hotspots, i.e. specific areas of interest at pan-european level (EEA39) (land cover over riparian zones for the purpose of biodiversity monitoring, monitoring of coastal areas, risk areas, protected areas (Natura 2000 sites, Land Parcel Identification) and at national level. Pléiades 1A & 1B, WorldView-2, WorldView-3, GeoEye-1, Deimos-2 and Dubaisat- Page 20/84

21 Spatial Resolution Spectral resolution 2. The AOI has been allocated as follows: o Pléiades 1A & 1B, 89 large regions o Deimos-2, Dubaisat-2, 17 large regions o WorldView-2, WorldView-3, GeoEye-1, 31 large regions - VHR1 panchromatic/vhr2 multispectral (bundle products) - Spectral bands: o GeoEye-1: Pan, Blue, Green, Red, NIR o WorldView-2: Pan, Coastal, Blue, Green, Yellow, Red, Red Edge, NIR-1 and NIR-2 o WorldView-3: Pan, Coastal, Blue, Green, Yellow, Red, Red Edge, NIR-1 and NIR-2 o Pleiades: Pan, Blue, Green, Red, NIR o Deimos-2 and Dubaisat-2: Pan, Blue, Green, Red, NIR L1 (system corrected), L3 (Ortho) bundle products: o EU projection (ETRS89-LAEA, EPSG code 3035) for EEA39 countries. o National projection for EEA39 countries: CRS table available on the CSCDA web site o Presence of perennial snow/glaciers is to be expected in products. o Sun elevation angle higher than 20. o Off-nadir viewing angle less than 30. o Reference: CORE_003 delivered during DWH phase 1, GCP file with respect to reference data set o Cloud coverage: 5%, 10% or 20% per production unit/delivered product according to cloud cover zones (see Annex 3) o Haze: acceptability assessed by EEA (see Annex 4) Processing levels / Product quality GeoEye-1, WorldView-2, WorldView-3: o Radiometrically corrected and sensor corrected o Calibration parameters enabling the conversion of DN into spectral radiance + solar spectral radiance -Level 1 (Ortho Ready Standard): o Radiometric resolution: 16 bits. o Geometric resolution: 40 cm PAN and 160 cm Multispectral 4 band Bundle. o Dynamic Range Adjustment: OFF. o Projection: UTM. o Datum: WGS84. o Tiling: 16k. - Level 3 (ortho): o Radiometric resolution: 16 bits o Geometric resolution: 40 cm PAN and 160 cm Multispectral 4 band Bundle o Dynamic Range Adjustment: OFF o Tiling 16K o Ortho-rectification full-parametric or making use of RPC functions o Grid alignment: GeoTIFF key ("GTRasterTypeGeoKey" will have the value 1, corresponding to "RasterPixelIsArea") o Pixel alignment: the values of the coordinates for the upper-left corner (x and y) of the upper-left pixel of an image dataset will be an integer multiple of the pixel size (resolution) in the corresponding direction (x and y) o Ortho-rectification accuracy: Relative accuracy less than 1 pixel difference from DWH phase 1 CORE_003 - Metadata: o INSPIRE compliant metadata for all processing levels once developments are completed. See compliance per mission on the CSCDA Page 21/84

22 web site. - File Format: o GeoTIFF (fully compliant with TIFF version 6.0). Pleiades 1A/1B: - Level 1A: o System corrected at-sensor radiometric and geometric calibrated data - Level 3 (Ortho): o Reference 3D DEM (on areas on which Reference 3D is not available, SRTM DEM will be used) o Resampling/Native resolution =0.50m o Resampling using cubic convolution method o GCP file with reference dataset: available in CDS o Radiometric correction: o Calibration parameters enabling the conversion of DN into spectral radiance+ solar spectral radiance - Orthocorrection: o Ortho ready processing includes basic corrections such as rectilinear geometry, radiometric distortion o Grid alignment: GeoTIFF key o Pixel alignment: the values of the coordinates for the upper-left corner (x and y) of the upper-left pixel of an image dataset shall be an integer multiple of the pixel size (resolution) in the corresponding direction (x and y) o Geo-location relative accuracy less than 1 pixel wrt. CORE_03 (same DEM which is Reference 3D). - Metadata: o DIMAP V2 for all processing levels. o INSPIRE compliant metadata for all processing levels once developments are completed. See compliance per mission on the CSCDA web site. - File format: o GeoTIFF v6 or JPG2000 optimized. Deimos-2 and Dubaisat-2 - Level 1B: o system corrected at-sensor radiometric and geometric calibrated data; Ortho layer (i.e. x, y coordinates (ETRS89). - Level 3: o Reference: CORE_003 delivered under DWH V1. o Ortho-rectified at-sensor radiance values (resampled using cubic convolution method). o GCP file with respect to reference data set. - Radiometric resolution: o Both Deimos-2 and Dubaisat-2 have a bit depth of 10-bits signal dynamic range. - Radiometric correction: o Radiometric calibrated data with calibration parameters enabling the conversion of image digital numbers (DN) into spectral radiance (W/m2/sr/um). Solar spectral irradiances within each spectral band and the solar elevation for each scene are provided to convert the image DNs into TOA (Top Of Atmosphere) radiances values. - Ortho-correction: Page 22/84

23 Surface Area of interest o Ortho-rectification making use of RPC. Default DEM is SRTM V3. Ortho-rectification accuracy: less than 1 pixel difference from DWH Phase1 CORE_03. - Metadata: o DIMAP V1 for all processing levels. o INSPIRE compliant metadata for all processing levels only once developments are completed. See compliance per mission on the CSCDA web site. - File Format: GeoTIFF fully compliant with TIFF version 6 ~6 M km² 39 European states (EEA39, see Annex 1) including all islands of those countries plus French Overseas Department [French Guiana, Martinique, Guadeloupe, Mayotte, Reunion] but excluding French Overseas Territories. The overall AOI is extended by a 2 nautical miles buffer. Reference year/acquisitions &Tasking Strategy/ Acquisition windows & constraints Delivery Delivery mechanism Licence The overall AOI is divided into 137 Large Regions (see Annex 3) Reference year: /-1 year. The objective is to provide one cloud-free coverage over EEA-39 during the vegetation season in 2014, 2015 or Acquisition windows are defined in Annex 2. The starting and ending dates of these windows can be subject to modifications from CSP to ESA only in case of late onset of vegetation, so that ESA can inform CCMs with a ten day advance notice for any change of either an earlier start and/or later end. It is assumed that such changes shall be the exception and take place on country basis. Delivery at the end of each acquisition window, per large regions and no later than 90 days after acceptance, assuming progressive production approval by CSP. FTP@CDS: data available at the Core Infrastructure (CDS) - Copernicus Services : DOWNLOAD - Union_Inst: DOWNLOAD - Union_Research_Projects_Space: DOWNLOAD - Union_Research_Projects_non-space: DOWNLOAD - Public_Auth: DOWNLOAD - Int_Org_NGO: VIEW - Public: VIEW European Optical MR1 composites (MR_IMAGE_2015) FIELD Title DWH-ID Applications Selected Missions Spatial Resolution VALUE European optical MR1 composites (MR_IMAGE_2015) MR_IMAGE_2015 Pan-European land services and EFFIS. Intra-seasonal time series are essential for the production of High Resolution Layers (HRL) on land cover characteristics by the Union, EEA and Member States, in particular for vegetation related discrimination of characteristics, such as grasslands or semi-natural vegetation. Resourcesat-2 Resourcesat-2, AWiFS, 60m Page 23/84

24 Spectral bands Processing levels / Product quality Spectral bands: Green, Red, NIR, SWIR Processing levels: Level 1 (system corrected): - Radiometrically and geometrically system corrected data with parameters enabling the conversion of image digital numbers (DN) into spectral radiance - RPC files Page 24/84 Level 3 (ortho-rectified) - ETRS89/ETRS-LAEA - Reference: CORE_001 COV#1 of the DWH V1 (IMAGE 2012), supplemented by IMAGE_2009 data and CORE_003 and other references where required - cubic convolution resampling - GCP file with respect to reference data set - TOA reflectance values to be provided for ortho-rectified products (scaling factors have to be part of the metadata) with full location data of the pixel centres, i.e. including internal (FPA geometry) and external satellite state vectors, viewing geometry, DEM) orientation, and GCP corrections be provided for the ortho-rectified processing level. Metadata: o INSPIRE compliant metadata for all processing levels once developments are completed. See compliance per mission on the CSCDA web site. Radiometric correction: - Level 1: Radiometric calibrated data with calibration parameters enabling the conversion of image digital numbers (DN) into spectral radiance Orthocorrection: - Ortho-rectification makes use of RPC functions and is based on the following DEMs: SRTM, DEMs of national land surveying offices of Finland, Norway, Sweden, ASTER GDEM and possibly other DEMs - European projection in ETRS89, LAEA (EPSG code 3035). - Grid alignment: The GeoTIFF key "GTRasterTypeGeoKey" shall have the value 1, corresponding to "RasterPixelIsArea". - Pixel alignment: The values of the coordinates for the upper-left corner (x and y) of the upper-left pixel of an image dataset shall be an integer multiple of the pixel size (resolution) in the corresponding direction (x and y). - Ortho-rectification accuracy: it must be accurate to less than 0.75 pixel size equivalent RMSE and a max displacement of less than 1.5 pixels in no more than 0.1% of any 50x50 km2 area within the AOI with respect to the reference data set. File format: GeoTIFF fully compliant with TIFF version 6 Surface ~6 M km² Area of interest 39 European states (EEA39, see Annex 1). Reference year/acquisitions &Tasking Strategy/ Acquisition windows & constraints 8 monthly coverages from March to October The CCME has assessed for each month the quality of the products available and will compose the best coverage possible for any given month, minimising clouds/haze and number of individual products. Delivery Within 2015 Delivery mechanism FTP@CDS: data available at the Core Infrastructure (CDS) Licence - Copernicus_Services : DOWNLOAD - Union_Inst: DOWNLOAD - Union_Research_Projects_Space: DOWNLOAD

25 - [Union_Research_Projects_nonspace]: DISCOVERY - Public_Auth: DOWNLOAD - INT_ORG_NGO: DISCOVERY - Public: DISCOVERY HR1/HR2 Optical Worldwide coverage (HR1/HR2_OPTICAL_GLOBAL) FIELD Title DWH-ID Dataset description Mission group/selected missions Spatial Resolution/ Spectral bands Area of interest VALUE HR1/HR2 worldwide coverage HR1/HR2_OPTICAL_GLOBAL Global Land coverage MG2: high resolution Optical - SENTINEL-2A Spatial resolution: HR1, HR2 Spectral bands: 4 bands VIS at 10m: B2 (490 nm), B3 (560 nm), B4 (665 nm) and B8 (842 nm) 6 bands NIR/SWIR at 20m: B5 (705 nm), B6 (740 nm), B7 (783 nm), B8a (865 nm), B11 (1610 nm) and B12 (2190 nm) 3 atmospheric correction bands (at 60m): B1 (443 nm), B9 (940 nm) and B10 (1375 nm) Worldwide coverage: land masses between 56 South (Isla Hornos, Cape Horn, South America) to 84 North (above Greenland). Data collection within this region will include: islands greater than 100 km 2 in area islands in the European Union all other islands within 20 km of a coastline the Mediterranean Sea all inland water bodies all closed seas Acquisition windows & constraints Processing /Product quality/aux. data Delivery timeliness and mechanism Licence Sentinel-2A coverage frequency is 10 days at equator with 1 satellite, 5 days with 2 satellites. The ramp-up and Operations scenario are defined here,: Acquisition scenario available at The Sentinel-2 product quality is in evolution, the data quality report is accessible at The data are nominally delivered within 24h after the acquisition (Fast24h) in the Sentinels data hubs All user categories: DOWNLOAD Optical MR2 worldwide coverage (MR_OPTICAL_GLOBAL) FIELD Title VALUE Optical MR2 Worldwide coverage Page 25/84

26 DWH-ID Applications MR_OPTICAL_GLOBAL Main application: Global Land, for the production of bio-geophysical parameters Spectral and Spatial Resolution Spectral resolution: Optical multispectral sensors with visible and near infrared (VNIR); short wave infra-red (SWIR); Selected missions The spatial resolution of this product varies from 100 m 100 m to 350 m 160 m for the VNIR bands, and from 180 m 185 m to 660 m 300 m for the SWIR bands PROBA-V Area of interest Worldwide systematic coverage, between Lat. 35 N and 75 N, and between 35 S and 56 S. Near-full coverage every 5 days at Equator Since November 2015, acquisitions are extended to 87.3 degrees Sun Zenith Angle limit (formerly 80 degrees). Acquisitions Systematic acquisition since December &Tasking Strategy Processing /Product S1 TOC 100m: atmospheric corrections applied, daily synthesis product quality/aux. data Projection: Plate Carré Absolute geometric accuracy: 60 m Standard deviation: 45 m Radiometric accuracy: 5% absolute, 3% relative Radiometric resolution: 12 bits per pixel Composite characteristics: daily composite File format: GeoTIFF and HDF5 Delivery Data are typically available in NRT24h on the data provider FTP server (FTP@CCM: FTP pull by users). Delivery is guaranteed within 48h, with a success rate of >99.4% on monthly basis Licence - Copernicus_Services : DOWNLOAD - Union_Inst: DOWNLOAD - Union_Research_Projects_space: DOWNLOAD - Union_Research_Projects_non-space: DOWNLOAD - Public_Auth: DOWNLOAD - Int_Org_NGO: DISCOVERY - Public: DISCOVERY Optical LR worldwide coverage (LR_OPTICAL_GLOBAL) FIELD Title DWH-ID Applications VALUE Optical LR Worldwide coverage LR_OPTICAL_GLOBAL Main application: Global Land, for the production of bio-geophysical parameters Page 26/84

27 Spectral and Spatial Resolution Selected missions 2 VIS channels (BLUE and RED), 1 NIR channel, and 1 SWIR channel. No MIR or TIR channel is available. Spatial resolution = 333m The spatial resolution of this product varies from 100 m 100 m to 350 m 160 m for the VNIR bands, and from 180 m 185 m to 660 m 300 m for the SWIR bands. This means that the SWIR band resolution < 2 * VNIR resolution. Spatial resolution = 1km The products are spatially resampled to 1km, PROBA-V Area of interest Worldwide systematic coverage, between Lat. 35 N and 75 N, and between 35 S and 56 S. Full coverage every two days at Equator Since November 2015, acquisitions are extended to 87.3 degrees Sun Zenith Angle limit (formerly 80 degrees). Acquisitions & Systematic acquisition since December Tasking Strategy Processing /Product Level 1C: Raw data, no atmospheric correction, no projection, no quality/aux. data radiometric correction applied, daily product (333m only) S1 TOA: no atmospheric corrections applied, daily synthesis product S1 TOC: atmospheric corrections applied, daily synthesis product S10 TOC: atmospheric corrections applied, 10 days synthesis product Projection: Plate Carré. Absolute geometric accuracy: 60 m Standard deviation: 45 m Radiometric accuracy: 5% absolute, 3% relative Radiometric resolution: 12 bits per pixel File format: GeoTiff and HDF5 Delivery Data are typically available in NRT24h on the data provider FTP server (FTP@CCM: FTP pull by users). Delivery is guaranteed within 48h, with a success rate of >99.4% on monthly basis Licence - Copernicus_Services : DOWNLOAD - Union_Inst: DOWNLOAD - Union_Research_Projects_Space: DOWNLOAD - Union_Research_Projects_non-space: DOWNLOAD - Public_Auth: DOWNLOAD - Int_Org_NGO: DOWNLOAD (1km), DISCOVERY (333m) - Public: DOWNLOAD (1km), DISCOVERY (333m) European HR2 Multitemporal Coverages (EUR_HR2_MULTITEMP) FIELD Title VALUE European HR2 Multitemporal Coverages Page 27/84

28 DWH-ID Applications Selected missions Spatial Resolution/ Spectral bands Processing levels/product quality EUR_HR2_MULTITEMP Continuation of previous pan-european land services and land use/land cover mapping efforts. Multi-temporal agricultural studies and crop classification. The objective is to cover the entire AOI on a monthly basis (one cloud-free coverage per month) during the 2015 vegetation period. Deimos-1, UK-DMC2 Deimos-1, UK-DMC2: 22m Spectral bands: Green, Red, NIR Processing Levels The scenes are provided in L1T level of processing, ortho-rectified Level to ETRS89/ETRS-LAEA: Reference: CORE_001 COV#1 of DWH phase 1 (IMAGE 2012) or GLS2000/STRM V3 Resampled to native resolution (22m): Ortho-rectified at-sensor radiance values (resampled using cubic convolution method); GCP file with respect to reference data set; Surface Area of interest Reference year/acquisitions &Tasking Strategy/ Acquisition windows & constraints Radiometric resolution: minimum bit depth of 8 bits signal dynamic range. Product quality: According to zone dependency, the smallest possible unit of production and for which Contributing Missions have a quality index shall have a maximum allowed Cloud Coverage threshold as follows: Zone A: CC 20% max; Zones B, C and D: CC 10% max (optimally), alternative 20% Products spanning across zones are allowed with the least stringent cloud coverage. Presence of perennial snow and glaciers is to be expected in products. The sun elevation angle shall be higher than 20 to ensure sufficient illumination and to minimize the effect of shadows. The off-nadir viewing angle shall be less than 30. Metadata: DIMAP v1 for L1T processing levels Ortho-rectification accuracy: relative accuracy ( ): Reference less than 1 pixel difference with CORE_001 COV#1 of DWH phase 1 (IMAGE 2012) or GLS2000 and STRM V3 File format: GeoTIFF fully compliant with TIFF version 6 ~6 M km2 39 European states (EEA39, see Annex 1) including all islands of those countries plus French Overseas Department [French Guiana, Martinique, Guadeloupe, Mayotte, Reunion] but excluding French Overseas Territories. Reference Year is 2015 Monthly acquisition windows from April to October. Delivery All data delivered within 2015 Delivery mechanism FTP@CDS: data available at the Core Infrastructure (CDS) Page 28/84

29 Licence - Copernicus_Services : DOWNLOAD - Union_Inst: DOWNLOAD - Union_Research_Projects_Space: DOWNLOAD - [Union_Research_Projects_nonspace]: DOWNLOAD - Public_Auth: DOWNLOAD - INT_ORG_NGO: DOWNLOAD - Public: VIEW VHR1-2 Urban Atlas 2012 FIELD VALUE Title VHR1-2 Urban Atlas 2012 DWH-ID N/A Applications Mapping for city planning at local scale Selected missions WorldView-2 Spatial Resolution/ VHR1 pan, VHR2 multispectral Spectral bands Pan, Coastal, Blue, Green, Yellow, Red, Red Edgee,NIR-1 and NIR-2 Processing Ortho Ready Standard (40 cm PAN & 120 cm Multispectral 8 band Bundle) levels/product quality Projection: WGS84/UTM Parameters: GeoTIFF 16 bit Dynamic Range Adjustment (DRA) off 16k tiling 4x4 cubic convolution UTM/WGS84 Quality: Geolocation accuracy specification of 5 m CE90 (WV-2) at less than 30 off-nadir, excluding terrain effects Geometric corrections applied Geolocation information applied optimally, no haze Off-Nadir angle <= 30deg Cloud coverage <= 5% per LUZ Surface km2 Area of interest 310 Urban Atlas Zones Reference Feb Oct 2013, plus further acquisitions in 2015 year/acquisitions &Tasking Strategy/ Acquisition windows & constraints Delivery Within 2015 Delivery mechanism Page 29/84 FTP@CDS: data available at the Core Infrastructure (CDS) Licence - Copernicus_Services : DOWNLOAD - Union_Inst: DOWNLOAD - Union_Research_Projects_Space: DOWNLOAD - Union_Research_Projects_non-space: DOWNLOAD - Public_Auth: DOWNLOAD

30 - Int_Org_NGO: VIEW - Public: VIEW SAR HR2/MR1 Worldwide coverage (HR2-MR1_SAR_GLOBAL) FIELD Title DWH-ID Dataset description Mission group/selected missions Spatial Resolution/ Frequency/ Polarisation Area of interest Acquisition windows & constraints Processing /Product quality/aux. data Delivery timeliness and mechanism Licence VALUE SAR HR2-MR1 worldwide coverage HR2-MR1_SAR_GLOBAL Global Land coverage MG1: very high to medium resolution SAR - SENTINEL-1 Spatial resolution: HR2/MR1. Frequency band: C. Interferometric Wide Swath mode (IW) Polarisation: VV or VV-VH (and HH or HH-HV for polar areas) InSAR (Interferometry) Worldwide coverage: target: all land surfaces from 90 North to 90 South and from 180 West to 180 East. (with a hole at the Poles due to SAR right looking only). Minimum baseline: all land masses between 75 North and 56 South and between 180 West and 180 East. AOI in km2: km² non-contiguous AOI Sentinel-1 coverage frequency over land depends on areas, spanning from every repeat cycle in Europe to few coverage per year for areas of low interest. Observation requirements outside Europe must be discussed with relevant Copernicus services. Predefined observation scenario available at Absolute Radiometric Accuracy (3 sigma): 1dB. Radiometric resolution (S1 IW GRD product): 1.7 db Pixel coding: 16 bits per pixel. Projected over a regular grid. Geometric accuracy: optimally RMSE (i.e. max. absolute 1-Dimensional Root Mean Square Error threshold [m] required on product) shall be 1/3 resolution The data should be delivered within 24h after the acquisition (Fast24h) in the Sentinels data hubs All user categories: DOWNLOAD Sea Ice Monitoring HR2/MR1 SAR (SAR_SEA_ICE) FIELD Title DWH-ID VALUE HR2-MR1 SAR Sea Ice Monitoring SAR_SEA_ICE Page 30/84

31 Applications Mission group/selected missions Sea ice monitoring to support marine activities and data assimilation for ice and weather forecast models. - MG1/Sentinel-1A, Radarsat-2, COSMO-SkyMed, TerraSAR-X Spatial Resolution/ - HR1, HR2, MR1, ( 5m and 100m) Frequency bands - C band : Sentinel-1A, Radarsat-2 - X band : COSMO-SkyMed, TerraSAR-X Polarisation - Single/Dual Operational modes SENTINEL- 1: - Interferometric Wide, swath 250 Km, 20m res - Extra-Wide, swath 400 km, 50 m res (or ~ 90m) Radarsat-2: - ScanSAR Wide, swath 500 km, 100 m res - ScanSAR Narrow, swath 300 km,50 m res - Wide, swath 150 km, 30 m res COSMO-SkyMed: - ScanSAR Wide, swath 100 km, 30 m res - ScanSAR Huge, swath 200 km, 100 m res - StripMap HIMAGE, swath 40 km, 5 m res TerraSAR-X: - ScanSAR, swath 80 km, 18 m res - ScanSAR Wide, swath 200 km, 40 m res Processing levels - Radiometric resolution: 16 bits per pixel. /Product quality Area of interest - Processing level: L1 Baltic, Eurarctic, Arctic ocean, Greenland, Antarctic. AOIs are non-contiguous and may change in extension during sea ice season. Quotas Till end of 2020: - Radarsat-2: 5385 products - TerraSAR-X: 1950 products - COSMO-SkyMed: 6030 products Reference year/acquisitions &Tasking Strategy/ Acquisition windows & constraints Systematic Sentinel-1 daily coverage over sea ice zones, from 1st April 2015 until 31st December 2020 Radarsat-2, COSMO-SkyMed, TerraSAR-X data are used to complement SENTINEL- 1A by providing gap coverage over the main AOIs. Orders from eligible Users are expected on a monthly basis, around 1st of the month for the period 16th of the same month to 15th of the following one. Timeliness of data delivery Delivery mechanism Additional Information For the Baltic, coverage is needed from November to May. For the other AOIs an all year coverage is needed. NRT1h (Optimal); NRT3h (latest) Except COSMO-SkyMed: - Greenland: within 12 hours (6 hours average) Sentinel- 1 NRT3h over Baltic, Eurarctic, Greenland waters FTP@CCM data available at the CCM (FTP pull by user) FTP@CDS for the archive COSMO-SkyMed: - Ascending passing time generally takes place at around 6:00 AM local time. - e-geos provides information about the scheduled acquisitions as soon as available: About 20 hours ahead of an Ascending morning acquisition About 8 hours ahead of a Descending evening acquisition. Page 31/84

32 Licence - Copernicus Services : DOWNLOAD - Union_Inst: DOWNLOAD - Union_Research_Projects_Space: DOWNLOAD - Union_Research_Projects_non-space: DOWNLOAD (TerraSAR-X, CosmoSkyMed), DISCOVERY (Radarsat2) - Public_Auth: DISCOVERY (COSMO-SkyMed,Radarsat-2), DOWNLOAD (TerraSAR-X) - Int_Org_NGO: DISCOVERY - Public: DISCOVERY Sentinel-1 data: DOWNLOAD for all Copernicus users Atmospheric datasets Dataset title Data for aerosol monitoring and forecasting DWH2 DS ID CORE_17 ESA and ESA TPM missions Envisat, GOSAT Delivery mechanism Data for sulphur dioxide (SO2) atmospheric composition monitoring and forecasting CORE_18 Envisat, GOSAT Data for formaldehyde (HCHO) atmospheric composition monitoring and forecasting CORE_19 Envisat Data for Ozone (O3) atmospheric composition monitoring and forecasting CORE_20 Envisat, ERS, GOSAT Data for Carbon Monoxide (CO) atmospheric composition monitoring and forecasting CORE_21 Envisat Systematic access Data for Carbon Dioxide (CO2) atmospheric composition monitoring and forecasting CORE_22 Envisat, GOSAT Data for Methane (CH4) atmospheric composition monitoring and forecasting CORE_23_ Envisat, GOSAT Data for Nitrogen Dioxide (NO2) atmospheric composition monitoring and forecasting CORE_24 Envisat, ERS Page 32/84

33 Other datasets Dataset title Global/Regional Systematic Ocean Colour data DWH2 DS ID CORE_12 ESA and TPM Missions Envisat Oceansat-2 Delivery mechanism Systematic Global and Regional sea surface temperature data CORE_13 Envisat, ERS Systematic Global and Regional Altimeter / Sea Level data CORE_14 Envisat, ERS, Cryosat Systematic access Soil moisture CORE_31 SMOS L2 Brightness temperature CORE_32 SMOS L1 5 ADDITIONAL DATASETS The ADDitional Datasets are the on-demand part of the data offer, assumed flexible enough to accommodate the specific requirements which are not covered by the CORE datasets and not foreseeable in advance. They represent a large volume of EO data classified by resolution type to cover a range of specifications by Copernicus users, e.g. geographical area, processing levels, lead times, delivery mechanisms to be selected at ordering time among the proposed ones for the specific dataset. They are typically related to emergency and security services which require fresh data over critical areas. However on-demand ADDitional data are available also for non-rush applications, for which requirement details are only known at short notice (e.g. areas of interest, time window of interest, data type, etc.). The eligibility of Copernicus users to order EO data under a given ADDitional dataset is established by the European Commission who assigns a quota expressed in Km2 per data type on a yearly basis (see quota assignment section 6.2). The allocation per project for the year 2016 is reported in section The content of ADDitional datasets is organized per resolution class and the relevant portfolio of missions offered for both Rush and Standard modes is described in section List of ADDitional datasets Each dataset represents: - A resolution class (see section 3.1), - A service type: Rush or Standard, Archive or New tasking - A mission type: Optical or SAR Page 33/84

34 Table 5 presents the list of datasets which content in terms of contributing missions is described in section 5.2. Archive Rush Rush datasets New Acquisition Rush Archive Standard Standard datasets New Acquisition Standard Optical VHR1 ADD_003a ADD_004a ADD_011a ADD_012a Optical VHR2 ADD_003b ADD_004b ADD_011b ADD_012b Optical HR1 ADD_001a ADD_002a ADD_009a ADD_010a Optical HR2 ADD_001b ADD_002b ADD_009b ADD_010b Optical MR1 ADD_021a ADD_022a ADD_020a ADD_018a SAR VHR1 ADD_007a ADD_008a ADD_015a ADD_016a SAR VHR2 ADD_007b ADD_008b ADD_015b ADD_016b SAR HR1 ADD_005a ADD_006a ADD_013a ADD_014a SAR HR2 ADD_005b ADD_006b ADD_013b ADD_014b SAR MR1 ADD_023a ADD_024a ADD_019a ADD_017a Table 5 List of ADDitional datasets available in DWH Phase 2 Page 34/84

35 5.2 Detailed description of ADDitional datasets VHR1 SAR and Optical Standard Rush SAR VHR1/Rush/Standard/Archive/New Acquisition Mission Resolution (m) Stripmap ScanSAR Spotlight Polarisation Single Dual Multi-look Quad Stereo Ortho Archive ADD_015a New Acq. ADD_016a Archive ADD_007a New Acq. ADD_008a TERRASAR-X 0.24 m Staring SpotLight Y Y Yes Yes Yes Yes TERRASAR-X 1 m High-res. SpotLight 300MHz Y Y Yes Yes Yes Yes COSMO- SkyMed 1 m Spotlight-2 Y Y** Yes Yes Yes Yes Kompsat-5* 0.85 m Ultra High Resolution Y Kompsat-5* 1 m High Resolution Y Yes Yes No No Yes Yes No No Kompsat-5* 1 m Enhanced High Resolution Y Yes Yes No No *Available during Q ** Not available in Rush mode Table 6 SAR VHR1/Rush/Standard/Archive/New Acquisition Page 35/84

36 Standard Rush Mission Multispectral Pleiades- 1A/1B Optical VHR1/Rush/Standard/Archive/New Acquisition Bands Pan, VNIR Resolution (m) 0.5 m Pansharpe d Panchromatic Bundle Stereo Ortho Archive ADD_011a New Acq. ADD_012a Archive ADD_003a New Acq. ADD_004 a Yes Yes Yes Yes Yes Yes Yes Yes Yes Deimos-2 Pan, VNIR 0.75 m Yes Yes Yes Yes Yes*** Yes Yes Yes Yes DUBAISAT-2 Pan, VNIR 1 m Yes Yes Yes Yes Yes*** Yes Yes Yes Yes WorldView-1 Pan 0.5 m Yes Yes Yes**** Yes Yes Yes Yes WorldView-2 Pan, VNIR (4/8ban ds) 0.5 m Yes Yes Yes Yes Yes**** Yes Yes Yes Yes GeoEye-1 Pan, VNIR 0.5 m Yes Yes Yes Yes Yes**** Yes Yes Yes Yes QuickBird Pan, VNIR 0.6 m Yes Yes Yes Yes Yes**** Yes No Yes No IKONOS Pan, VNIR 1 m Yes Yes Yes Yes Yes**** Yes No Yes No WorldView-3 Pan, VNIR (4bands) 0.30 m* Yes Yes Yes Yes Yes**** Yes Yes Yes No WorldView-3 Pan, 0.50 m Yes Yes Yes Yes Yes**** Yes Yes Yes Yes Page 36/84

37 VNIR (4/8ban ds) Kompsat-2** Pan, VNIR 1 m Yes Yes Yes Yes Yes Yes No No Kompsat-3** Pan, VNIR 0.5 m Yes Yes Yes Yes Yes Yes No No Kompsat-3** Pan, VNIR 0.7 m Yes Yes Yes Yes Yes Yes No No Table 7 Optical VHR1/Rush/Standard/Archive/New Acquisition * Probability to obtain a 30 cm resolution acquisition is conditioned to limited tasking opportunities **Available during Q *** Not available for Archive retrieval in Rush Mode **** Not available in Rush Mode VHR2 SAR and Optical Standard Rush SAR VHR2/Rush/Standard/Archive/New Acquisition Mission Resolution (m) Stripmap ScanSAR Spotlight Polarisation Single Dual Multi-look Quad Stereo Ortho Archive ADD_01 5b New Acq. ADD_016 b Archive ADD_007b New Acq. ADD_008 b RADARSAT-2 1 m SpotLight A (SLA) Y Y Yes Yes Yes Yes RADARSAT-2 3 m Ultra Fine (UF) Y Y Yes Yes Yes Yes RADARSAT-2 3 m Wide Ultra-Fine Y Y Y Yes Yes Yes Yes Page 37/84

38 (WUF) TERRASAR-X 1.7 m Spotlight SL Y Y Yes Yes Yes Yes TERRASAR-X High-res. Y Y 1.1 m SpotLight 150MHz Yes Yes Yes Yes TERRASAR-X High-res. Y Y 2.2 m SpotLight 150MHz Yes Yes Yes Yes TERRASAR-X 3.3 m StripMap Y Y Yes Yes Yes Yes TERRASAR-X 3.4 m Spotlight SL Y Y Yes Yes Yes Yes COSMO-SkyMed Stripmap HIMAGE Y 3 m (single look) SCS Y** Yes Yes Yes Yes L1A processing RISAT-1 FRS-1 GRD L1 Y Y 3 m default Yes Yes Yes No Kompsat-5* 2.5 m Enhanced Standard Y Yes Yes No No Kompsat-5* 3 m Standard Y Yes Yes No No Table 8 SAR VHR2/Rush/Standard/Archive/New Acquisition *Available during Q ** Not available in Rush mode Standard Rush Optical VHR2/Rush/Standard/Archive/New Acquisition Mission Bands Resolution (m) Pansharped Panchromatic Multispectral Bundle Stereo Ortho Archive ADD_011b New Acq. ADD_012b Archive ADD_003b New Acq. ADD_004b SPOT-5 Pan, VNIR 2.5 m SPOT-6/7 Pan,VNIR 1.5 m Pleiades- 1A/1B VNIR 2 m WorldView-2 VNIR (4/8-2 m Yes Yes Yes Yes Yes Yes No Yes No Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes*** Yes Yes Yes Yes Page 38/84

39 bands) GeoEye-1 VNIR 2 m QuickBird VNIR 2.4 m IKONOS VNIR 4 m WorldView-3 VNIR (4/8- bands) 1.24 m Yes Yes Yes*** Yes Yes Yes Yes Yes Yes Yes*** Yes No Yes No Yes Yes Yes*** Yes No Yes No Yes Yes Yes*** Yes Yes Yes Yes Cartosat-1 Pan 2.5 m Yes Yes Yes Yes No No Deimos-2 VNIR 4 m Yes Yes** Yes Yes Yes Yes DUBAISAT-2 VNIR 4 m Yes Yes** Yes Yes Yes Yes TIANHUI-1 Pan, VNIR 2 m Yes Yes Yes Yes Yes** Yes Yes Yes Yes Kompsat-2* VNIR 4 m Kompsat-3* VNIR 2.8 m Yes Yes Yes No No Yes Yes Yes No No Table 9 Optical VHR2/Rush/Standard/Archive/New Acquisition *Available during Q ** Not available for Archive retrieval in Rush Mode *** Not available in Rush mode Page 39/84

40 5.2.3 HR1 SAR and Optical Standard Rush SAR HR1/Rush/Standard/Archive/New Acquisition Mission Resolution (m) Stripmap ScanSAR Spotlight Polarisation Single Dual Multi-look Quad Stereo Ortho Archive ADD_01 3a New Acq. ADD_014 a Archive ADD_005a New Acq. ADD_006 a RADARSAT-2 5 m Multi-Look Fine (MLF) Y Y Y Yes Yes Yes Yes 5 m Wide Multi-Look Fine (MLFW) Y Y Y Y Yes Yes Yes Yes 5 m Extra Fine (XF) Y Y Y Yes Yes Yes Yes 8 m Fine (F) Y Y Y Y Yes Yes Yes Yes 8 m Wide Fine (WF) Y Y Y Y Yes Yes Yes Yes 8 m Wide Standard Y Y Yes Yes Yes Yes TERRASAR-X 6.6 m StripMap Y Y Yes Yes Yes Yes COSMO-SkyMed Stripmap HIMAGE 5 m (Multilook) Excluding Y Y Y* Yes Yes Yes Yes SCS processing RISAT-1 9 m FRS-2 SLC L1 default Y Yes Yes Yes No ALOS 10 m Fine Y Y Yes No No No Table 10 SAR HR1/Rush/Standard/Archive/New Acquisition * Not available in Rush mode Page 40/84

41 Standard Rush Optical HR1/Rush/Standard/Archive/New Acquisition Archive ADD_009a New Acq. ADD_010a Archive ADD_001a New Acq. ADD_002a Mission Bands Resolution (m) Pansharped Panchromatic Multispectral Bundle Stereo Ortho SPOT-5 Pan 5 m Yes Yes Yes Yes No Yes No SPOT-5 VNIR, SWIR 10 m Yes Yes Yes Yes No Yes No SPOT-4 Pan 10 m Yes Yes Yes Yes No Yes No SPOT-6/7 VNIR 6 m Yes Yes Yes Yes Yes Yes Yes RapidEye VNIR 6.5 m, 5m* Yes Yes**** Yes Yes Yes Yes Resourcesat- VNIR 1/2 5.8 m Yes Yes Yes Yes No Sentinel-2 VNIR 10 m Yes Yes Yes Yes Yes Yes** TIANHUI-1 VNIR 5 m, 10m Yes Yes Yes*** Yes Yes Yes Yes ALOS VNIR 10 m Yes Yes No No No Table 11 Optical HR1/Rush/Standard/Archive/New Acquisition * Re-sampled to 5m resolution for orthorectified products ** Assuming that AOI is covered by the systematic planning *** Not available for Archive retrieval in Rush Mode **** Not available for Rush Mode Page 41/84

42 5.2.4 HR2 SAR and Optical Standard Rush SAR HR2/Rush/Standard/Archive/New Acquisition Mission Resolution (m) Stripmap ScanSAR Spotlight Polarisation Single Dual Multi-look Quad Stereo Ortho Archive ADD_01 3b New Acq. ADD_014b Archive ADD_00 5b New Acq. ADD_006 b RADARSAT-2 Wide (W) Y Y Y Standard (S) Y Y Y Yes Yes Yes Yes Yes Yes Yes Yes 25 m Extended Low (EL) Y Y Yes Yes Yes Yes Extended High (EH) Y Y Yes Yes Yes Yes TERRASAR-X 18.5 m ScanSar Y Y Yes Yes Yes Yes Sentinel-1 Interferometric Y Y 20 m WideSwath (IW) Yes Yes Yes Yes Kompsat-5* 20 m Wide Swath Y Yes Yes No No Kompsat-5* Enhanced Wide Y 20 m Swath Yes Yes No No Envisat-1 30 m ASAR IM, AP Y Y Y Yes No No No ERS-1/2 30 m IMAGE (IM) Y Y Yes No No No RISAT-1 MRS GRD L1 Y Y Yes Yes Yes No 25 m default COSMO-SkyMed 30 m ScanSar Wide Y Y** Yes Yes Yes Yes StripMap Ping Y Y 20 m Pong ( Y** Yes Yes Yes Yes Alternating Pol) Page 42/84

43 *Available during Q ** Not available in Rush mode Table 12 SAR HR2/Rush/Standard/Archive/New Acquisition Page 43/84

44 Standard Rush Optical HR2/Rush/Standard/Archive/New Acquisition Archive ADD_009b New Acquisition ADD_010b Archive ADD_001b New Acquisition ADD_002b Mission Bands Resolution (m) Pansharped Panchromatic Multispectral Bundle Stereo Ortho SPOT-4 VNIR, SWIR 20 m Yes Yes Yes Yes No Yes No Resourcesat- VNIR, SWIR 1/2 23 m Yes Yes Yes Yes No Deimos-1 / VNIR UK-DMC 2 / 22 m Yes Yes Yes Yes Yes Yes Landsat-5 VNIR, SWIR 30 m Yes Yes No No No Landsat-7 VNIR,SWIR,TIR, PAN 30 m Yes Yes Yes Yes No No No Landsat-8 VNIR,SWIR,TIR, PAN 30 m Yes Yes Yes Yes Yes No Yes No Proba VNIR 18,36 m Yes Yes Yes No No Sentinel-2 VNIR,SWIR 20 m Yes Yes Yes Yes Yes* Table 13 Optical HR2/Rush/Standard/Archive/New Acquisition *Assuming that AOI is covered by the systematic planning Page 44/84

45 5.2.5 MR1 SAR and Optical Standard Rush SAR MR1/Rush/Standard/Archive/New Acquisition Mission Resolution (m) Stripmap ScanSAR Spotlight Polarisation Single Dual Multi-look Quad Stereo Ortho Archive ADD_01 9a New Acq. ADD_017a Archive ADD_023a New Acq. ADD_024a 60 m ScanSar Narrow (SCN), Y Y Y Yes Yes Yes Yes 100 m ScanSar Wide (SCW) Y Y Y Yes Yes Yes Yes RADARSAT-2 Ship Detection 35 m mode (DVWF) Y Y Y Yes Yes Yes Yes SCS 50 m Ocean Surveillance mode Y Y Yes Yes Yes Yes (OSVN) SCS TERRASAR-X 40 m WideScanSAR Y Y Yes Yes Yes Yes RISAT-1 CRS GRD L1 50 m default Y Y Yes Yes Yes No COSMO-SkyMed ScanSar Huge 100 m Region Single Y Y* Yes Yes Yes Yes look ALOS 100 m ScanSAR Y Yes No No No Table 14 SAR MR1/Rush/Standard/Archive/New Acquisition * Not available in Rush mode Page 45/84

46 Standard Rush Optical MR1/Rush/Standard/Archive/New Acquisition Mission Bands Resolution (m) Pansharped Panchromatic Multispectral Bundle Stereo Ortho Archive ADD_020a New Acquisition ADD_018a Archive ADD_021a New Acquisition ADD_022a Resourcesat-1/2 VNIR, SWIR 56 m Yes Yes Yes Yes No Table 15 Optical MR1/Rush/Standard/Archive/New Acquisition Page 46/84

47 6 EO DATA ORDERING WITHIN ADDITIONAL DATASETS 6.1 Order parameters During an order submission, authorised users have to properly identify their requirements within the list of order options so that the Services Coordinated Interfaces (SCI) is able to select the best contributing mission to fulfill the order. Selected parameters (add-ons) may be subject to a cost uplift if different from the baseline which then result in a higher quota consumption. A matrix highlighting differences between baseline and add-on options is shown in Table 16. While the dataset selection provides the information about data type, resolution class and service type, AOI, time window and the following order parameters have to be selected at order submission time: Satellite Tasking lead time (for new acquisitions) Processing Options Cloud Coverage Class SAR Polarisation Delivery timeliness Basic Features Add- Ons/Deduct New acquisition_rush Dataset Type New acquisition_standard Archive_rush Archive_standard Tasking Lead time N/A Rush N/A Normal Delivery timeliness ArchRush NRT3h ArchNormal Normal Product Up to Up to Processing non_ortho non_ortho Up to non_ortho Up to non_ortho Cloud cover As requested N/A As requested Cloud-free20 New acquisition_rush New acquisition_standard Archive_rush Archive_standard Tasking Lead time N/A N/A N/A LLT 5, SLT, SLT+ Delivery timeliness Normal 5 Fast24 5 N/A Fast24 Product Processing Ortho Ortho Ortho Ortho Atmospheric N/A N/A TOC or BOA TOC or BOA 5 price reduction involved Page 47/84

48 corrections reflectance reflectance Cloud Cover N/A N/A N/A Cloud-free5, Cloudfree10, Cloud-free15 Table 16 Baseline options and ADD Ons options Table 17 presents the CCMEs constraints regarding the standard data offer which are taken into account at the time of order handling to select the CCME that can best answer the users requirements ( yes means that the CCME can support the request for the specific order parameter). Standard Datasets Add-ons per CCME FAST 24 LLT, SLT, SLT+ Ortho Atm. corrections Cloud-free 5, 10 and 15 EUSI yes yes except SLT+ for WorldView-3 30 cm yes except for Fast24 no yes New tasking Airbus FR yes yes yes no yes DEIMOS yes yes yes yes yes Planet yes yes yes yes yes GAF AG yes yes except for SLT+ yes for LISS III and AWIFS no Airbus DE yes yes yes N/A N/A MDA yes yes yes N/A N/A e-geos yes yes yes N/A N/A KSAT yes yes except for SLT+ yes except for FRS-2 L1 quad pol FAST 24 LLT, SLT, SLT+ Ortho N/A Atm. Corrections N/A Cloud-free 5, 10 and 15 EUSI yes N/A yes except for Fast24 no N/A Archive Airbus FR yes N/A yes no N/A DEIMOS yes N/A yes yes N/A Planet yes N/A yes yes N/A GAF AG yes N/A yes no except for Liss III and N/A AWIFS Airbus DE yes N/A yes N/A N/A MDA yes N/A yes N/A N/A e-geos yes N/A yes N/A N/A Page 48/84

49 KSAT yes N/A yes except for FRS-2 L1 quad pol N/A Table 17 Add-ons per CCME for standard datasets N/A Size of Minimum Orderable Area The different data providers accept any area of interest (AOI) but a minimum order size and an incremental area extension is applied when delivering and invoicing a product. Therefore user quota will be impacted accordingly. If the AOI defined by the user is smaller than the minimum order size, the latter applies systematically and the corresponding number of km2 are deducted from the user available quota. If the ordered AOI is bigger than the minimum order size, incremental area will apply up to full coverage of the AOI. Details of the specific values per Mission, instrument mode and product type are indicated in Table 18. CCME Mission Sensor mode/ Product name Archive /New Acquisition Minimum orderable area [km2] Incremental area [km2] Staring SpotLight Both High Resolution SpotLight 300MHz Both StripMap single pol Both 1,000 1 AIRBUS Defence and Space (DE) TerraSAR-X StripMap dual pol Both SpotLight Both High Resolution SpotLight 150MHz Both StripMapRaD single pol Both 1,000 1 StripMapRaD dual pol Both ScanSAR Both 15,000 5 WideScanSAR Both 50, Page 49/84

50 AIRBUS Defence and Space (FR) SPOT-4&5 All products Archive SPOT-6&7 All products Archive New Pleiades All products Archive 25 1 New Spotlight-2 Both e-geos COSMO- SkyMed Constellation StripMap HIMAGE Both 1,600 1,600 ScanSAR Wide Both 10,000 10,000 StripMap PING PONG Both GAF AG IRS-P5 Cartosat-1 Resourcesat- 1/2/2A ScanSAR Huge Both PAN-Aft or PAN-Fore Both LISS-IV, Mono Both 1,850 1 LISS-III, multispectral Both 6,000 1 AWiFS, multispectral Both 10,600 1 WV-1/2/3 Pan-Sharpened (4Band), bundle 4 Band / Standard or Ortho Ready Standard, Archive Band bundle / Standard or OrthoReady Standard VHR1 New EUSI GeoEye-1 Pan-Sharpened (4Band), bundle 4 Band / Standard or Ortho Ready Standard Archive 25 1 New QuickBird IKONOS WV-2 Pan-Sharpened (4Band), bundle 4 Band / Standard or Ortho Ready Standard Pan-Sharpened (4Band), bundle 4 Band / Standard or Ortho Ready Standard Multispectral (4/8-Band) / Standard, OrthoReady Standard, Stereo Archive 25 1 New Archive 25 1 New Archive 50 1 New Page 50/84

51 GeoEye-1 Multispectral Standard, OrthoReady Standard, Stereo Archive 50 1 New QuickBird Multispectral Standard, Archive 50 1 OrthoReady Standard, Stereo New IKONOS Multispectral Standard, Archive 50 1 OrthoReady Standard, Stereo New Kompsat-2/3 All non-stereo products Archive 25 1 New Kompsat-2/3 Stereo products Both High Resolution (Spotlight, HR) Both Ultra High Resolution (UH) Both Enhanced High Resolution (EH) Both Kompsat-5 Standard(Strip, ST) Both Enhanced Standard (ES) Both WV-1/2/3 GeoEye-1 QuickBird IKONOS Wide Scan(ScanSAR, WS) Both 10,000 10,000 Enhanced Wide ScanSAR (EW) Both 10,000 10,000 Ortho, VHR1/2 Archive New Spotlight A (SLA) beam mode Both Ultra Fine (UF) beam mode Both Wide Fine Quad-Pol (FQW) Both 1,250 1,250 MDA Radarsat-2 Wide Standard Quad-Pol (SQW) Both 1,250 1,250 Fine Quad-Pol (FQ) Both Standard Quad-Pol (SQ) Both Wide Ultra-Fine (UFW) beam mode Both 2,500 2,500 Page 51/84

52 Fine (F) beam mode Both 2,500 2,500 Extra Fine (XF) beam mode Both 15,625 15,625 Multi-Look Fine (MLW) beam mode Both 2,500 2,500 Wide Fine (FW) beam mode Both 22,500 22,500 Wide Multi-Look Fine (WMLW) beam mode Extended High (EH) beam mode Both 4,500 4,500 Both 5,625 5,625 Standard (S) beam mode Both 10,000 10,000 Wide (W) beam mode Both 22,500 22,500 Extended Low (EL) beam mode ScanSAR Narrow (SCN) beam mode ScanSAR Wide (SCW) beam mode Both 28,900 28,900 Both 90,000 90,000 Both 250, ,000 Planet RapidEye constellation Deimos-2/ Dubaisat-2 Ship Detection mode (DVWF) Both 225, ,000 Ocean Surveillance mode (OSVN) Both 265, ,000 Multispectral Both 1,000 1 Pansharped, Panchromatic, Stereo, Multispectral Archive 50 1 New DEIMOS KSAT Deimos-1/UK DMC2 Multispectral Both 3,000 1 TIANHUI-1 Pansharped, Panchromatic, Stereo, Multispectral Archive TIANHUI-1 Pansharped, Panchromatic, Stereo, Multispectral New 3,600 1 FRS Both RISAT MRS Both 13,225 13,225 CRS Both 48,400 48,400 Table 18 CCMEs minimum order size and incremental step Page 52/84

53 6.1.2 Satellite Tasking lead time Each order for data to be acquired in the future shall contain a target acquisition window which defines the programming notice. The list of tasking lead times and corresponding definitions is shown in the table below. Normal lead time is the default scenario for standard requests while Rush is reserved for emergency activations. Selection of SLT or SLT+ through the tasking window definition may imply an additional cost and therefore a larger quota consumption. It is to be noted that the order processing time is up to 2 days that are added to the programming notice, except for orders within emergency datasets. Long Lead time (LLT) Request notice : > 1 month prior to acquisition window start time Normal lead time (NLT) Default option for standard orders Request notice: between 1 month and 2 weeks prior to acquisition window start time Short Lead Time (SLT) Request notice : between 2 weeks and 4 days prior to acquisition window start time Short Lead Time Plus (SLT+) Offered for Standard Orders. Acquisition to be performed between 48 and 72 hours from order submission to CCME Rush Only for emergency orders. Acquisition to be performed within 48 hours from order submission by eligible user Processing Options Different types of product and processing levels offered for each mission are based on the default list of products generated by the Copernicus Contributing Missions. The following options are generally possible: For radar datasets Single look Multi look (available in different geometric corrections, e.g. georeferenced, ellipsoid or terrain corrected) In turn, each one of the two options above is available in different polarisations (e.g. single, dual, quad and cross/alternating or multi-polarisation) depending on the SAR sensor. For optical datasets Orthorectified Non-orthorectified In turn, each one of the two options above is available as follows: - Panchromatic - Multispectral (available in 1, 3, 4, 5 or 8 bands) - Pansharpened (available in band combinations 4321, 432 or 321) Page 53/84

54 - Bundle (available as [Panchromatic + 4 Multispectral bands] or [Panchromatic + 8 Multispectral bands]) - Stereo or mono Cloud Coverage Classes For optical data, the following cloud coverage categories are selectable. The default value is Cloud-free20, the other values must be selected at order submission. Cloud-free5 Cloud-free10 Cloud-free15 Cloud-free20 Cloud cover within the image shall not amount to more than 5% of the AOI Implying a cost uplift Cloud cover within the image shall not amount to more than 10% of the AOI Implying a cost uplift Cloud cover within the image shall not amount to more than 15% of the AOI Implying a cost uplift Cloud cover within the image shall not amount to more than 20% of the AOI SAR Polarisation For SAR data, the following polarisation categories apply. Polarisation is normally embedded in the product and sensor type and already shown in the dataset portfolio. Single Dual/Alternating Multi-Look Quad Pol Single polarisation Dual /Alternating polarisation Multi-look polarisation Full/quad polarisation Delivery timeliness Among the following delivery timeliness options, only Fast24 is selectable within standard orders, other values are the default ones for both Emergency and Standard orders. Arch Rush Archive For emergency activations only. Product is delivered within 3 hours from order confirmation to CCME New Rush New For emergency activations only. Page 54/84

55 Product is delivered between 2 and 5 hours from sensing or confirmation of production if needed Fast24h New Offered within Standard datasets for urgent orders. Product is delivered within 24 hours from sensing. It implies a cost uplift Fast24h Archive Offered within Standard datasets for urgent orders. Product is delivered within 24 hours from order confirmation to CCME. ArchNormal Arch 6.2 Quota allocation, consumption and reshuffling The quota assignment process operates within a global framework of quota assigned by EC per Copernicus user or project for the 44 datasets defined in section 5.2. There is no quota assignment per individual mission rather per data and service type. The assigned quota is an indicative number of square kilometers (km 2 ) of data available within a dataset to a single Copernicus user or project. Quota allocation is performed on a yearly basis. ESA and ESA Third Party Missions are not subject to quota allocation and can be made available in any relevant dataset, on top of the missions specified in section Quota consumption It implies a cost uplift Default within Standard datasets. Product is delivered within 5 working days from order confirmation to CCME. Normal New Default within Standard datasets. Product is delivered within 5 working days from sensing The quota consumption depends on: (a) the actual number of square kilometers delivered; this depends on the minimum order/aoi size and minimum AOI incremental size for the mission and type of product requested; (b) the actual cost of the product delivered; within a dataset, the cost of the individual product may vary depending on mission and add-ons requested in the order (e.g. orthorectification, faster delivery, etc.). For more details on how the km 2 accounting per CCM is handled, please see section The type of product delivered depends on the order options as specified by the Copernicus user. Order options may have a major impact on the price/km 2 of the delivered product e.g. the selection of higher level, most expensive (e.g. orthorectified, or stereo) products lead to earlier depletion of the assigned quota than ordering the same number of km 2 at lower processing level (e.g. non-orthorectified panchromatic level). Page 55/84

56 6.2.2 Quota exhaustion and reshuffling In case a Copernicus user requires an update to the assigned quota once the DAP has been issued, the following rules apply: 1. The user shall contact the Account Managers, the dedicated interface for issues related to the data offer, in order to define and justify the new requirements 2. The Account Manager will analyse the request and, in case of major deviation, request the CCMs Contract Manager, to agree to an adaptation at the next revision with the EC. 3. In case of a small deviation to an existing dataset or quota exhaustion, the user shall send the order to the User Support Services team who will cater for the authorisation of the deviation from the Account Manager. In case such alterations/deviations from DAP datasets occur, they will not be immediately reflected in a new DAP version, but monitored by the Account Managers and documented on the CSCDA web site. Page 56/84

57 6.2.3 Quota allocations per Project Quota allocations are listed per Copernicus user and per dataset; the below listed values cover the expressed needs in A continuous monitoring of the quotas consumption is performed on a per service basis. At regular intervals until the end of the phase, the consumption will be assessed by the EC and ESA, in order to take corrective measures if required. Users are responsible for managing their own overall quotas per dataset. The quota usage is advertised on the CSCDA web site on a monthly basis. Each CSP/user having an allocated quota may also check consumption status in the CDS personal area accessible from the CSCDA web site, after login with SSO account. Copernicus EMS Rapid Mapping Dataset Title Dataset ID Quota (km2) Dataset Title Dataset ID Quota (km2) Archive_rush_ D2_MG2_CERM_001a 28,500 New acquisition_rush_ D2_MG2_CERM_002a 16,500 Optical_HR1 Optical_HR1 Archive_rush_ D2_MG2_CERM_001b 20,250 New acquisition_rush_ D2_MG2_CERM_002b 100,000 Optical_HR2 Optical_HR2 Archive_rush_ D2_MG2b_CERM_003a 10,000 New acquisition_rush_ D2_MG2b_CERM_004a 12,000 Optical_VHR1 Optical_VHR1 Archive_rush_ D2_MG2b_CERM_003b 27,750 New acquisition_rush_ D2_MG2b_CERM_004b 27,000 Optical_VHR2 Optical_VHR2 Archive_rush_ D2_MG1_CERM_005a 2,250 New acquisition_rush_ D2_MG1_CERM_006a 60,000 SAR_HR1 SAR_HR1 Archive_rush_ D2_MG1_CERM_005b 77,250 New acquisition_rush_ D2_MG1_CERM_006b 366,000 SAR_HR2 SAR_HR2 Archive_rush_ D2_MG1_CERM_007a 1,500 New acquisition_rush_ D2_MG1_CERM_008a 3,750 SAR_VHR1 SAR_VHR1 Archive_rush_ D2_MG1_CERM_007b 12,750 New acquisition_rush_ D2_MG1_CERM_008b 100,000 SAR_VHR2 SAR_VHR2 Archive_rush_ SAR_MR1 D2_MG1_CERM_023a 200,000 New acquisition_rush_ SAR_MR1 D2_MG1_CERM_024a 400,000 Table 19 Copernicus EMS Rapid Mapping Page 57/84

58 Copernicus EMS Risk and Recovery Mapping Dataset Title Dataset ID Quota (km2) Dataset Title Dataset ID Quota (km2) Archive_standard D2_MG2_CERR_009a 7,500 New acquisition_standard D2_MG2_CERR_010a 5,625 Optical_HR1 Optical_HR1 Archive_standard D2_MG2_CERR_009b 7,500 New acquisition_standard D2_MG2_CERR_010b 5,625 Optical_HR2 Optical_HR2 Archive_standard D2_MG2b_CERR_011a 26,621 New acquisition_standard D2_MG2b_CERR_012a 5,000 Optical_VHR1 Optical_VHR1 Archive_standard D2_MG2b_CERR_011b 11,182 New acquisition_standard D2_MG2b_CERR_012b 5,000 Optical_VHR2 Optical_VHR2 Archive_standard D2_MG1_CERR_013a 14,093 New acquisition_standard D2_MG1_CERR_014a 3,750 SAR_HR1 SAR_HR1 Archive_standard D2_MG1_CERR_013b 19,092 New acquisition_standard D2_MG1_CERR_014b 3,750 SAR_HR2 SAR_HR2 Archive_standard D2_MG1_CERR_015a 2,625 New acquisition_standard D2_MG1_CERR_016a 2,541 SAR_VHR1 SAR_VHR1 Archive_standard D2_MG1_CERR_015b 4,128 New acquisition_standard D2_MG1_CERR_016b 2,705 SAR_VHR2 SAR_VHR2 Archive_standard_SA R_MR1 D2_MG1_CERR_019a 250,000 Table 20 Copernicus EMS Risk and Recovery Mapping Page 58/84

59 Copernicus EMS Validation Mapping Dataset Title Dataset ID Quota (km2) Archive_standard D2_MG2_CEVM_009a 5,400 Optical_HR1 Archive_standard D2_MG2_CEVM_009b 1,000 Optical_HR2 Archive_standard D2_MG2b_CEVM_011a 9,000 Optical_VHR1 Archive_standard D2_MG2b_CEVM_011b 6,000 Optical_VHR2 Archive_standard D2_MG1_CEVM_013a 3,750 SAR_HR1 Archive_standard D2_MG1_CEVM_013b 7,500 SAR_HR2 Archive_standard D2_MG1_CEVM_015a 7,500 SAR_VHR1 Archive_standard D2_MG1_CEVM_015b 3,000 SAR_VHR2 New acquisition_standard Optical_VHR1 D2_MG2b_CEVM_012a 300 Table 21 Copernicus EMS Validation Mapping Page 59/84

60 Copernicus Security Service SATCEN Dataset Title Dataset ID Quota (km2) Archive_rush Optical_VHR1 New acquisition_rush Optical_VHR2 Archive_standard Optical_VHR2 Archive_standard Optical_HR2 D2_MG2b_SACE_003a 2,400 D2_MG2b_SACE_004b 2,400 D2_MG2b_SACE_011b 2,400 D2_MG2_SACE_009b 1,000 Copernicus Security Service FRONTEX Dataset Title Dataset ID Quota (km2) New acquisition_rush_optical _VHR1 New acquisition_rush SAR_VHR1 New acquisition_rush SAR_VHR2 D2_MG2b_FRTX_004a Dataset Title Dataset ID Quota (km2) New acquisition_rush_optical_mr1 D2_MG2_SACE_022a 2,400 New acquisition_rush SAR_VHR2 New acquisition_standard Optical_VHR2 Table 22 Copernicus Security Service-SATCEN D2_MG1_SACE_008b 1,200 D2_MG2b_SACE_012b 2,400 Dataset Title Dataset ID Quota (km2) 20,000 Archive_standard_Optical_VHR1 D2_MG1_FRTX_008a 2,000 New acquisition_standard Optical_VHR1 D2_MG1_FRTX_008b 1,200 New acquisition_standard SAR_VHR1 Table 23 Copernicus Security Service-FRONTEX Copernicus Security Service DG-ENERGY Dataset Title Dataset ID Quota (km2) Archive_standard D2_MG2b_DENR_011a 5,000 Optical_VHR1 Table 24 Copernicus Security Service-DG-ENERGY D2_MG2b_FRTX_011a 14,000 D2_MG2b_FRTX_012a 52,000 D2_MG1_SACE_0161 2,500 Page 60/84

61 Copernicus Security Service- CSEA Dataset Title Dataset ID Quota (km2) Archive_rush_Optical_HR1 Archive_rush_Optical_VHR1 Archive_rush_Optical_VHR2 Archive_rush_SAR_HR1 Archive_rush_SAR_VHR1 Archive_rush_SAR_VHR2 Archive_standard Optical_VHR1 Archive_standard_Optical_VHR2 Archive_standard_SAR_HR1 Archive_standard_SAR_HR2 Archive_standard SAR_VHR2 New acquisition_standard_sar_mr1 D2_MG2_CSEA_00 1a 1,000 D2_MG2b_CSEA_0 03a 5,200 D2_MG2b_CSEA_0 03b 3,200 D2_MG1_CSEA_00 5a 2,500 D2_MG1_CSEA_00 7a 200 D2_MG1_CSEA_00 7b 1,700 D2_MG2b_CSEA_0 09b 1,000 D2_MG2b_CSEA_0 11b D2_MG1_CSEA_013 a D2_MG1_CSEA_013 b D2_MG1_CSEA_015 b D2_MG1_CSEA_017 a Dataset Title Dataset ID Quota (km2) New acquisition_rush_optical_hr2 New acquisition_rush_optical_vhr2 New acquisition_rush_optical_mr1 New acquisition_rush_sar_hr2 New acquisition_rush_sar_vhr2 New acquisition_rush_sar_mr1 D2_MG2_CSEA_002b 1,000 D2_MG2b_CSEA_004b 4,300 D2_MG2_CSEA_022a 2,600 D2_MG1_CSEA_006b 2,500 D2_MG1_CSEA_008b 200 D2_MG1_CSEA_024a 1,400 New acquisition_standard_optical_hr1 D2_MG2_CSEA_010a 900 2,800 New acquisition_standard_optical_hr2 1,800 New acquisition_standard_optical_vhr2 2,500 New acquisition_standard_sar_hr Table 25 Copernicus Security Service-CSEA New acquisition_standard_sar_hr2 D2_MG2_CSEA_010b 1,000 D2_MG2b_CSEA_012b 2,300 D2_MG1_CSEA_014a 1,400 D2_MG1_CSEA_014b 2,500 New acquisition_standard_sar_vhr2 D2_MG1_CSEA_016b 100 Page 61/84

62 Copernicus Land Service Local Land Dataset Title Dataset ID Quota (km2) Archive_standard D2_MG2b_LOLA_011b 30,000 Optical_VHR2 Table 26 Copernicus Land Service-Local Land Copernicus Land Service Global Land Dataset Title Dataset ID Quota (km2) Archive_standard Optical_HR1 D2_MG2_GBAL_009a 25,000 New acquisition_standard Optical_HR1 D2_MG2_GBAL_010a 50,000 New acquisition_standard Optical_HR2 D2_MG2_GBAL_010b 200,000 Table 27 Copernicus Land Service-Global Land Union Research Project-ADVANCED SAR Dataset Title Dataset ID Quota (km2) New acquisition_standard Optical_VHR1 D2_MG2b_ADSA_012a 1,200 New acquisition_standard Optical_VHR2 D2_MG2b_ ADSA _012b 2,388 New acquisition_standard SAR_HR1 D2_MG1_ ADSA _014a 12,800 New acquisition_standard SAR_VHR1 D2_MG1_ ADSA _016a 1,067 Table 28 ADVANCED SAR-Union Research Project Page 62/84

63 Union Research Project-APHORISM Dataset Title Dataset ID Quota (km2) Archive_standard_Optical_VHR1 D2_MG2b_APHO_011a 150 Table 29 APHORISM-Union Research Project Copernicus Masters Overall Winner 2012 Copernicus Masters Best Service 2013 Dataset Title Archive_standard_Op tical_hr1 Archive_standard_Op tical_vhr1 New acquisition_standard _Optical_VHR1 Page 63/84 Dataset ID Quota (km2) D2_MG2_OW12_009a 1,000 D2_MG2b_OW12_011a 3,360 D2_MG2b_OW12_012a 2,300 Dataset Title Dataset ID Quota (km2) Archive_standard_SAR_HR1 New acquisition_ standard_sar_hr1 D2_MG1_BS13_013a 8,300 D2_MG1_BS13_014a 16,000 Copernicus Masters Overall Winner 2013 Copernicus Overall Winner 2014 Dataset Title Archive_standard_Op tical_vhr1 New acquisition_standard _Optical_VHR1 Dataset ID Quota (km2) D2_MG2b_OW13_011a 3,700 D2_MG2b_OW13 _012a 2,300 Copernicus Masters Satellite Image Automatic Mapper - Through-Time Challenge Winner 2015 Dataset Title Dataset ID Quota (km2) Dataset Title New acquisition_ standard_sar_vhr2 Dataset ID Quota (km2) D2_MG1_OW14_016b 2,500 Copernicus Masters Catapult Challenge Winner 2015 Dataset Title Dataset ID Quota (km2)

64 New acquisition_standard_ Optical_VHR1 Page 64/84 D2_MG2b_ST15_012a 400 New acquisition_ standard_optical_hr1 D2_MG2_ST15_0010a 4,000 Copernicus Masters UNI Challenge Winner 2015 Dataset Title Dataset Quota (km2) Archive_standard_Op tical_hr1 D2_MG2_UI15_009a 9,000 New acquisition_standard _Optical_HR1 D2_MG2_UI15_010a 9,000 Union Research Project - Co-ReSyF Dataset Title Dataset ID Quota (km2) Archive_standard_Op tical_hr1 New acquisition_standard_ Optical_HR1 New acquisition_standard_ Optical_HR2 Archive_standard_Op tical_vhr1 Archive_standard_Op tical_vhr2 Archive_standard_SA R_HR1 New Acquisition_standard_SAR_HR1 D2_MG1_CT15_014a 18,000 Copernicus Masters - Overall Winner 2015 Dataset Title New acquisition_standard_optical _VHR1 Table 30 Copernicus Masters-Union Research Project Dataset ID D2_MG2b_OW15 _012a Quota (km2) 4,700 Dataset Title Dataset ID Quota (km2) D2_MG2_RESY_009a 3,000 Archive_standard_SAR_VHR1 D2_MG1_RESY_015a 1,200 D2_MG2_RESY_010a 17,000 Archive_standard_SAR_VHR2 D2_MG2b_RESY_015b 9,600 D2_MG2_RESY_010b 2,000 D2_MG2b_RESY_011a D2_MG2b_RESY_011b D2_MG1_RESY_013a 600 New acquisition_standard_optical_vh R2 New acquisition_standard_sar_hr1 New acquisition_standard_sar_vhr ,80 0 Table 31 Co-ReSyF-Union Research Project D2_MG2b_RESY_012b 1,700 D2_MG1_RESY_014a 33,600 D2_MG1_RESY_016b 19,200

65 Union Research Project -EGSIEM Dataset Title Dataset ID Quota (km2) Archive_standard_SAR_HR2 D2_MG1_EGSI_013b 30,000 Archive_standard_SAR_MR1 D2_MG1_EGSI_019a 75,000 Archive_standard_SAR_MR2 D2_MG1_EGSI_019b 75,000 Table 32 EGSIEM-Union Research Project Union Research Project -EO4wildlife Dataset Title Dataset ID Quota (km2) Archive_standard_Optical_HR2 D2_MG2_EO4W_009b 75,000 Archive_standard_Optical_VHR1 D2_MG2b_EO4W_011a 50,000 Archive_standard_SAR_HR1 D2_MG1_EO4W_013a 50,000 Table 33 EO4wildlife-Union Research Project Union Research Project - EOMonDis Dataset Title Dataset ID Quota (km2) Archive_standard_Optical_HR1 D2_MG2_EMON_009a 120,000 Archive_standard_Optical_VHR2 D2_MG2b_EMON_011b 8,000 Archive_standard_SAR_HR1 D2_MG1_EMON_013a 120,000 Page 65/84

66 New acquisition_standard_optical_vhr2 D2_MG2b_EMON_012b 8,000 Table 34 EOMonDis-Union Research Project Union Research Project - EONav Dataset Title Dataset ID Quota (km2) New acquisition_rush_sar_hr1 D2_MG1_ENAV_006a 50,000 New acquisition_rush_sar_hr2 D2_MG1_ENAV_006b 200,000 New acquisition_rush_sar_mr1 D2_MG2b_ENAV_024a 10,000,000 New acquisition_standard_sar_hr1 D2_MG1_ENAV_014a 100,000 Table 35 EONav-Union Research Project Union Research Project - ERMES Dataset Title Dataset ID Quota (km2) New acquisition_standard Optical_HR1 D2_MG2_ERME_010a 15,000 New acquisition_standard SAR_VHR2 D2_MG1_ERME_016b 38,400 Table 36 ERMES-Union Research Project Page 66/84

67 Union Research Project EU FAST Dataset Title Dataset ID Quota (km2) Archive_standard Optical_HR2 D2_MG2_EUFA_009b 16,000 New acquisition_standard SAR_VHR2 D2_MG1_EUFA_016b Table 37 EU FAST-Union Research Project Union Research Project - NORTH STATE Dataset Title Dataset ID Quota (km2) New acquisition_standard Optical_VHR1 D2_MG2b_NOST_012a 550 Table 38 NORTH STATE-Union Research Project Union Research Project - SEN3APP Dataset Title Dataset ID Quota (km2) Archive_standard Optical_HR1 Archive_standard Optical_VHR1 Archive_standard Optical_VHR2 New acquisition_standard Optical_HR1 New acquisition_standard Page 67/84 D2_MG2_SEN3_00 9a 25,200 D2_MG2b_SEN3_0 11a 900 D2_MG2b_SEN3_0 11b 21,600 D2_MG2_ SEN3_010a 14,400 D2_MG2b_SEN3_0 12a Dataset Title Dataset ID Quota (km2) New acquisition_standard SAR_HR1 New acquisition_standard SAR_HR2 New acquisition_standard SAR_VHR1 New acquisition_standard SAR_VHR2 D2_MG1_ SEN3_014a 9,000 D2_MG1_ SEN3_014b 60,000 D2_MG1_ SEN3_016a 3,060 D2_MG1_ SEN3_016b 18,000 3,000 Archive_standard_SAR_VHR2 D2_MG1_ SEN3_015b 15,000

68 Optical_VHR1 New acquisition_standard Optical_VHR2 D2_MG2b_SEN3_0 12b 15,000 Table 39 SEN3APP-Union Research Project Union Research Project - SPACE NAV Dataset Title Dataset ID Quota (km2) New acquisition_rush SAR_HR1 New acquisition_rush SAR_HR2 New acquisition_rush SAR_MR1 D2_MG1_SPAN_006a 50,000 D2_MG1_SPAN _006b 200,000 D2_MG1_ SPAN_024a 10,000,000 New acquisition_standard D2_MG1_SPAN_014a 100,000 SAR_HR1 Table 40 SPACE NAV-Union Research Project Union Research Project - SPICES Dataset Title Dataset ID Quota (km2) New acquisition_rush_optical_vhr1 D2_MG2b_SPIC_004a 500 New acquisition_rush_sar_vhr2 D2_MG2b_SPIC_008b 9,375 Archive_standard_Optical_HR1 D2_MG2_SPIC_009a 60,000 New acquisition_standard_optical_vhr1 D2_MG2b_SPIC_012a 500 Page 68/84

69 New acquisition_standard_sar_hr1 D2_MG1_SPIC_014a 50,000 New acquisition_standard_sar_vhr2 D2_MG1_SPIC_016b 8,000 Archive_standard_SAR_MR1 D2_MG1_SPIC_019a 450,000 Table 41 SPICES-Union Research Project Union Research Project - SWARP Dataset Title Dataset ID Quota (km2) Archive_standard_SAR_HR2 D2_MG1_SWAR_013b 100,000 Table 42 SWARP-Union Research Project Union Research Project - URBANFLUXES Dataset Title Dataset ID Quota (km2) New acquisition_standard_optical_hr2 D2_MG2_URBA_010b 54,976 New acquisition_standard_optical_vhr2 D2_MG2b_URBA_012b 3,436 New acquisition_standard_sar_hr2 D2_MG1_URBA_014b 54,976 New acquisition_standard_sar_vhr2 D2_MG1_URBA_016b 6,040 Table 43 URBANFLUXES-Union Research Project Page 69/84

70 7 CSCDA SERVICES 7.1 Copernicus Space Component Data Access (CSCDA) infrastructure The CSCDA infrastructure, developed by ESA in the frame of the Copernicus Space Component programme, relies on the ground segments of various data providers plus a set of coordinating functions in charge of ensuring internal coordination and control guaranteeing the Users with a harmonized access to CSC data. As depicted in Figure 1, the Coordinated Data access System (CDS) is the centre of the operational system. It is in charge of coordinating the data flow between the data providers and the Copernicus Users, through the implementation of predefined datasets and the processing of asynchronous data requests based on mission capacity analysis as well as on the established agreements with CCMEs. The CDS ensures a harmonised user interface for the Copernicus Users. It also supports the production and dissemination of multi-mission collections, and provides a dedicated storage for CSC long-term data preservation. Data from the systematic global missions, including the Sentinels, are however not duplicated in the CDS archive but kept in the mission ground segment archive. Figure 1. CSCDA high level decomposition

71 7.2 Rapid Emergency Activation Satellite Tasking Copernicus Users authorised to open emergency activations (with a specific quota for emergency datasets) interface the Rapid Emergency Activation Satellite Tasking (ex-gest) team of the CSCDA for submission of data requirements. The REACT (Rapid Emergency Activation for Copernicus Tasking) team schedules rush acquisition and/or rush data retrieval from CCMs archive Rush tasking schemes In this second phase of the Data Warehouse, the principle of 3-attempts is applied by Optical missions: three consecutive acquisitions are scheduled by the same data provider, in order to improve the chances of delivering a cloud-free image within the shortest timeframe possible. When the first valid (acceptable with respect to clouds) acquisition is confirmed, processing is performed and tasking stops. In case all 3 acquisitions are cloudy, a single rush tasking is charged and the corresponding quota deducted. A new rush tasking scheme will be tested in 2016, when all CCMEs fulfilling the service provider requirements will be requested to programme their satellites until a first satisfactory image is delivered. Only the fastest provider(s) will be paid CCMEs emergency service support The following table lists the CCMEs emergency service hours, deadlines to receive emergency tasking requests and expected delivery timeliness in nominal conditions. CCME Emergency support service hours Tasking cut-off times (UTC) Deimos 24h/7 days None (uplink at each orbit) e-geos ESA GAF AG 24h/7 days Monday to Thursday: 8:30-17:15 CET Friday: 08:30-16:00 CET Monday to Friday 08:00-16:30 CET (archive data retrieval -7:30 for data collection from 18:21 same day to 6:21 the next day -17:30 for data collection from 6.21 to the next day N/A N/A Rush data delivery timeliness (in nominal conditions) Within 3 hours from order confirmation (archive) and 5 hours from sensing (new) Within 3 hours from order confirmation (archive) and 5 hours from new acquisition downlink (new) Note: A minimum acquisition window of 12-hr should be specified (single shot orders are highly discouraged, in order to take advantage of the constellation) Within 3 hours from sensing when sufficient notice allows update of the planning priority Archive data delivery within core time on working days: within 6 hours for Page 71/84

72 only, no tasking) EUSI 24h/7 days None AIRBUS Defence and Space (DE) 24h/7 days - 08:30 of day 0 for tasking opportunities from 18:02 of day 0 to 07:17 of day 1-21:30 of day 0 for tasking opportunities from 07:17 of day 1 to 18:01 of day 1 MDA 24h/7 days None (4 uplinks per day) Planet AIRBUS Defence and Space (FR) 08:00-20:00 CET/7 days 09:00-23:00 (CET)/7 days for new tasking 24h/7 days for archive request - 09:00 for tasking opportunities from 13:00 to 23:59 of the same day - 18:00 for tasking opportunities from 00:00 to 12:59 the day after Pleiades: - 18:30 of day 0 for tasking opportunities on the same day over Asia from 23:00-20:00 of day 0 for tasking opportunities on day 1 over Europe and Africa from 04:00-20:00 of day 0 for tasking opportunities on day 1 over America from 11:40 SPOT-6/7: - 21:00 of day 0 for tasking opportunities on day 1 over Europe and Africa from 05:40 and over South America from 09:30-09:30 of day 0 for tasking Resourcesat-2 within 8 hours for Resourcesat-1 within 14 hours for IRS- P5 Cartosat-1 Within 24 hrs from order confirmation (archive) or new acquisition downlink (new) Within 3 hours from order confirmation (archive) and for new acquisitions: Europe, within 3 hrs Rest of the globe: within 7hrs (latency to be communicated at planning time) SSC processing requires the use of the science orbit; this results in a delivery time that can exceed 7 days. Delay may happen in case of sensitive data Within 3 hours from order confirmation (archive) and 5 hours from sensing (new). Delay may happen in case of sensitive data During the extended emergency service hours: within 24 hrs from order confirmation (archive) or sensing (new) Within 3 hours from order confirmation (archive) and 5 hours from sensing (new) In case of archive data repatriation required, delay may be up to 7 working days Note: orthorectified products can be delivered under the availability of Ref 3D DEM otherwise the user will be informed and a primary product will be delivered Page 72/84

73 opportunities on the same day over North America from 13:10 and from 18:25 over the Pacific zone - 18:30 of day 0 for tasking opportunities on the same day over Oceania from 22:10 and on day 1 over China from 01:50 KSAT 24h/7 days No contribution to rush tasking Within 3 hours from order confirmation (archive) Table 44 CCMEs emergency service hours, emergency orders cut-off times and expected rush delivery timeliness 7.3 Registration and Signature of ESA-User Licence Sentinel data access A simple on-line registration is required to access Sentinels- data at copernicus.eu. Users shall take note of the ESA-User Licence regulating the use and distribution of Sentinel data available at Copernicus Services and Union Institutions may also have access to a dedicated Sentinels data hub ( after registration to CSCDA ESA and ESA TPM data access ESA missions data (ERS-1, ERS-2, Envisat, CryoSat and SMOS) are fully available to Copernicus users and are free of charge. The corresponding EO data collections are made available under a free dataset policy only requiring a fast registration for data available online (free datasets) while data processed on-demand are subject to a project proposal (restrained datasets). Available ESA EO data collections can be found at ESA Third Party Missions are also data collections available free of charge to Copernicus users, either via fast registration, for data available online (free datasets) or upon project proposal (restrained datasets, for ALOS only). Further information including the Guidelines for Registration and the "List of available products" can be found at: Contributing Missions data access Registration with the Copernicus Services Coordinated Interface (SCI) is required for access to data from Copernicus Contributing Missions. The user profile allows to define the access rights. Signature of the Licence (ESA-User Licence) for the use of CSCDA data is a prerequisite and part of the registration process described at Page 73/84

74 If consortium of companies requests access to EO data, its coordinator is responsible for the provision and maintenance of the list of its members. He/she may sign the licence on behalf of the whole consortium. The list of users is provided to the data providers. Access restrictions may apply depending on the data provider (see the mission-specific annex to the licence). 7.4 EO data ordering The on-demand (ADD) datasets are activated upon user requests (orders) for new or archived data. Authorised Copernicus users with an assigned quota may submit an order through the CDS ordering interface. Only authorised users are entitled to submit emergency requests for rush delivery of new or archived data covering a disaster area, including one-off or repetitive (crisis monitoring) rush satellite tasking, processing and NRT dissemination. The emergency datasets have been created for this purpose. Emergency requests are managed according to dedicated procedures executed by the Rapid Emergency Activation for Copernicus Tasking (REACT) team within the Services Coordinated Interface (SCI). An order cancellation may be accepted if justified but will have to be confirmed with the CCME. 7.5 Subscription Request The CDS-SCI implements the predefined (CORE) datasets according to DAP specifications. Once EO data are available within a dataset, authorised users may request access to these data by subscribing to the dataset. More information is available at No subscription is needed to access Sentinel data which are directly available after on-line registration. 7.6 Discovery and download All Copernicus users may browse the catalogue of data available in the CSCDA archive (EOLI-Sa) while download capability depends on access rights. Login account is user specific and is provided during the registration process. The data are organised by dataset, mission and by resolution type. Visibility of the CCMEs own catalogues is also implemented. More information is available in the GCL user manual at Page 74/84

75 7.7 Direct access to CCMEs or CDS on-line repositories A large majority of the EO data products procured from the CCMEs are available on-line. These data are disseminated to the CSPs: directly by the CCMEs (FTP@CCM), when stringent timeliness delivery requirement applies (e.g. rapid mapping or sea ice monitoring purposes) from the Coordinated Data Access System archive (FTP@CDS) for non-nrt deliveries or when cumulative datasets are generated as the result of the contribution from several EO missions (e.g. predefined large datasets). Duplicated delivery (FTP@CCM and FTP@CDS) is only available for data delivered within emergency datasets; in this case, a specific repository called Emergency Basket is generated and dedicated fixed accounts (both at CCME and CDS) are provided to the authorised users. Data access accounts are User or Service project as well as CCME specific and are provided at ordering start-up. 8 USER SUPPORT SERVICES Three channels of support are offered to users to cover different levels and types of enquiries and needs. 8.1 Web Portal Two points of entry are available for information on the Copernicus dedicated missions ( and the Copernicus Contributing Missions respectively. 8.2 Day-to-day support for enquiries and ordering The operational support to Copernicus Users is provided by the Services Coordinated Interface (SCI), the day-to-day interface to get help in accessing Earth Observation (EO) data distributed within the CSCDA, including the Sentinels. The SCI team can be contacted via at EOSupport@Copernicus.esa.int. Service hours are: - Monday to Thursday from 8:30 to 17:15 (CET) - Friday from 8:30 to 16:00 (CET) - REACT (dedicated emergency support): 24 hours/7 days The CDS-SCI can also be reached by phone at Specific support regarding the data offer The management of Users requirements is performed by the Account Managers who are the dedicated interface to Copernicus Users for issues related to the data offer, including Page 75/84

76 analysis of the evolving requirements and approval of deviations from the data offer where possible, authorisation of data ordering in case of quota exhaustion, etc. The Account Managers organize regular collection of Customer feedback as an input to the continuous improvement process of the CSCDA and regularly assess progress with the Service Projects. Results, analysis and recommendations are published at: They can be contacted at or by phone at / / Service hours are Monday to Friday from 8:30 to 17:00 (CET). Page 76/84

77 ANNEX 1: EEA39 AREA OF INTEREST EEA39: Albania, Austria, Belgium, Bosnia and Herzegovina, Bulgaria, Croatia, Cyprus, Czech Republic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Kosovo under the UN Security Council Resolution 1244/99, Latvia, Liechtenstein, Lithuania, Luxembourg, Malta, Montenegro, the Netherlands, Norway, Poland, Portugal, Republic of Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey, United Kingdom [including all islands of those countries, e.g. Azores, Madeira, Canary, Baleares, Greek islands, Corsica, Sardinia etc.] French Overseas Departments: French Guiana, Martinique, Guadeloupe, Mayotte, Reunion. Page 77/84

78 ANNEX 2: ACQUISITION WINDOWS FOR HR/VHR _IMAGE_2015 Country Code Ext Window start Nar Window start Nar Window end Ext Window end Albania AL 15-Jun 01-Jul 31-Jul 15-Aug Austria West (<13 E) AT_W 15-Jun 01-Jul 15-Aug 31-Aug Austria East (>13 E) AT_E 15-Jun 15-Jun 15-Aug 15-Sep Belgium BE 01-Jun 15-Jun 15-Sep 15-Sep Bosnia and Herzegovina BA 01-Jun 15-Jun 15-Aug 15-Sep Bulgaria BG 01-Jun 15-Jun 15-Sep 15-Sep Croatia HR 01-Jun 15-Jun 15-Sep 15-Sep Cyprus CY 01-May 01-Jun 31-Jul 15-Aug Czech Republic CZ 01-Jun 15-Jun 15-Sep 15-Sep Denmark DK 05-Jun 15-Jun 15-Sep 15-Sep Estonia EE 05-Jun 15-Jun 15-Aug 31-Aug Faroe islands FO 20-Jun 10-Jul 31-Aug 15-Sep Finland North (> 65 N) FI_N 20-Jun 01-Jul 10-Aug 15-Aug Finland Central (61 N - 65 N) FI_C 15-Jun 01-Jul 10-Aug 15-Aug Finland South (< 61 N) FI_S 05-Jun 01-Jul 10-Aug 20-Aug France North (> 47 N) FR_N 01-Jun 15-Jun 15-Sep 15-Sep France South (< 47 N) FR_S 01-Jun 15-Jun 15-Sep 15-Sep Germany DE 01-Jun 15-Jun 15-Sep 15-Sep Greece GR 01-May 01-Jul 31-Jul 15-Aug Hungary HU 01-Jun 15-Jun 15-Sep 15-Sep Iceland IS 01-Jul 15-Jul 15-Sep 30-Sep Ireland IE 01-Jun 15-Jun 15-Sep 15-Sep Italy North (> 41 N) IT_N 15-Jun 15-Jun 15-Aug 15-Aug Italy South (< 41 N) IT_S 01-May 01-Jul 31-Jul 15-Aug Kosovo KS 01-Jun 15-Jun 31-Aug 15-Sep Latvia LV 05-Jun 15-Jun 15-Aug 31-Aug Liechtenstein LI 15-Jun 01-Jul 15-Aug 31-Aug Lithuania LT 05-Jun 15-Jun 15-Aug 31-Aug Luxembourg LU 01-Jun 15-Jun 15-Sep 15-Sep Malta MT 01-May 01-Jun 31-Jul 15-Aug Macedonia (Republic of) MK 01-Jun 15-Jun 31-Aug 15-Sep Montenegro ME 01-Jun 15-Jun 15-Aug 31-Aug Netherlands NL 01-Jun 15-Jun 15-Sep 15-Sep Norway North (> 65 N) NO_N 01-Jul 05-Jul 10-Aug 15-Aug Norway South (< 65 N) NO_S 01-Jul 05-Jul 10-Aug 31-Aug Page 78/84

79 Poland PL 01-Jun 15-Jun 15-Sep 15-Sep Portugal PT 15-May 01-Jul 15-Aug 15-Aug Romania RO 01-Jun 15-Jun 15-Sep 15-Sep Serbia RS 01-Jun 15-Jun 15-Sep 15-Sep Slovakia SK 01-Jun 15-Jun 15-Sep 15-Sep Slovenia SI 15-Jun 15-Jun 15-Sep 15-Sep Spain ES 15-May 01-Jul 31-Jul 15-Aug Sweden North (> 65 N) SE_N 01-Jul 05-Jul 10-Aug 15-Aug Sweden Central (61 N - 65 N) SE_C 01-Jul 05-Jul 10-Aug 31-Aug Sweden South (< 61 N) SE_S 05-Jun 15-Jun 15-Aug 15-Sep Switzerland CH 15-Jun 01-Jul 15-Aug 31-Aug Turkey West (< 30 E) TR_W 15-May 01-Jul 31-Jul 15-Aug Turkey Central-West (30 E - 35 E) TR_C-W 01-Jun 15-Jun 15-Aug 31-Aug Turkey Central-East (35 E - 40 E) TR_C-E 15-Jun 15-Jun 15-Aug 31-Aug Turkey East (>40 E) TR_E 01-Jul 01-Jul 31-Jul 15-Aug UK North (Scotland + N. Ireland) UK_N 15-Jun 15-Jun 15-Sep 15-Sep UK South (England + Wales) UK_S 01-Jun 15-Jun 15-Sep 15-Sep For the Atlantic Islands and French DOM areas, the following time windows are to be applied: a) Azores: narrow [01-Aug 15-Aug], extended [15-Jul 30-Aug]; b) Canaries: narrow [01-Jul 31-Aug], extended [01-Jun 30-Sep]; c) Guadeloupe: December to March; d) French Guiana: July to December; e) Madeira: narrow [01-Aug 15-Aug], extended [15-Jul 30-Aug]; f) Martinique: December to March; g) Mayotte: April to November; h) Reunion: May to December. Page 79/84

80 ANNEX 3: MAP OF LARGE REGIONS & CLOUD COVER ZONES Zone A [CC 20% max]: Areas at northern latitudes and/or with very narrow phenological windows and or very difficult observation conditions. Zone B [CC 10% to 20% max]: Areas at mid-latitudes with a high probability of suitable acquisition windows during the observation periods. Zone C [CC 5% to 10% max]:: Areas at lower latitudes with extended phenological observation periods and predominantly clear sky conditions during those. Atlantic islands belong to Zone C. Zone D: Overseas areas (i.e. French DOMs) not shown on the map Page 80/84

81 ANNEX 4: CLOUD COVER AND HAZE The identified classes are the following: 1) Almost transparent haze 2) Semi-transparent haze/clouds 3) Clouds 4) Shadows 5) Snow Below some typical examples for each of the above classes are provided. On the right column an interpretation of the cloudy areas is given, obtained from manual digitization of clouds and shadows and the usage of a closure algorithm applied with 500 meters radius obtained. These masks are given as guideline. Class image info Almost transpare nt haze SPOT5 2.5 meters CORE003 Image sample Clouds and shadows interpretation Almost transpare nt haze No clouds WorldView meters Page 81/84

82 Almost transpare nt haze No clouds SPOT5 2.5 meters CORE003 Semitranspare nt haze/clou ds SPOT5 2.5 meters CORE003 Semitranspare nt haze/clou ds WorldView meters Page 82/84

83 Semitranspare nt haze/clou ds SPOT5 2.5 meters CORE003 Semitranspare nt haze/clou ds SPOT5 2.5 meters CORE003 Clouds SPOT5 2.5 meters CORE003 Page 83/84

84 Clouds GeoEye Multispect ral 2.0 meters Clouds SPOT5 2.5 meters CORE003 Page 84/84