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Gisat participates in the SEN4CAP project focusing at implementation & demonstration of operational applications & products to support the management of the CAP.

The SEN4CAP project aims at providing to the European and national stakeholders of the CAP validated algorithms, products, workflows and best practices for agriculture monitoring relevant for the management of the CAP. Special attention is given to provide the evidence how Sentinel derived information can support the modernization and simplification of the CAP in the post 2020 timeframe. Initial results will be already available in early 2018 to support informing the policy and guidelines development of the future CAP.

The main SEN4CAP objectives are:

  • Identify and specify EO products and services suitable to increase the efficiency, traceability as well as reducing the costs of the IACS;
  • Develop algorithms along with open source code for agricultural EO products based on Sentinel-1 & -2 responding to the user requirements;
  • Demonstrate and validate the developed agricultural EO products up to national scale;
  • Provide evidence for the utility of Sentinel products within IACS procedures at EU and national level for 6 national Paying Agencies;
  • Prepare and facilitate the transfer of developed EO products and services to the national Paying Agencies including capacity building and demonstrating cloud computing capabilities.

The SEN4CAP project will further rely on the guidance of a steering committee composed of the EC actors of the CAP, namely representatives from DG-Agri (Unit D.3), DG-JRC (Food Security unit) and DG-Grow (Copernicus). The steering committee will provide advice on the evolving CAP policy and legal framework, the technical guidelines of the IACS implementation and the Copernicus context.

Gisat is responsible for the implementation of Agricultural Practices Monitoring use cases. They are mostly focused to improve the efficiency and traceability of the control of the greening measures of the CAP, in particular dedicating 5% of arable land to ‘ecological focus areas’. Three practices are proposed as separate use cases: check of compliance with declared land lying fallow; catch crops and nitrogen fixing crops. Additional use cases will develop methods to identify crop harvest on arable land parcels and ploughed grassland parcels.

SEN4CAP is funded by the European Space Agency under the EOEP-5 programme. The project begun in July 2017 and will run for 2.5 years, until December 2019. The project consortium is composed of 5 organizations: UCLouvain-Geomatics (project lead, Belgium), CS Romania, e-GEOS (Italy), Gisat (Czechia) and Sinergise (Slovenia).

Gisat provides wide range of geoinformation services based on Earth Observation technology. It focuses on operational application of satellite mapping to monitor various aspects of our environment and development of dedicated web based platforms for geoinformation analysis and assessment
Tel: + 420 271741935 Fax: + 420 271741936
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Gisat participates in the CLIMATE-FIT project aiming at implementation & demonstration of urban climate services in Europe.

Urban areas are very vulnerable to climate change impacts, because of the high concentration of people, infrastructure, and economic activity, but also because cities tend to exacerbate climate extremes such as heat waves and flash floods. The objective of the CLIMATE-FIT project is to establish a service that translates the best available scientific urban climate data into relevant information for public and private end-users operating in cities.

This will be achieved by demonstrating the benefits of urban climate information to relevant end user communities, considering service components in the following domains: Climate and Health, Building Energy, Emergency Planning, Urban Planning, Active Mobility, and Cultural Heritage.

During the first phase of the 30-month project, end users (which are included as partners) and climate service providers will be involved in the co-design/-development of six concrete sectoral cases and in the demonstration to relevant end user communities. Each of these cases will be subject to a detailed socio-economic impact analysis, quantifying the benefits of using urban climate information. The second phase of the project will focus on upscaling and market replication, initially aiming at the extension with six new cases, involving new (non-financed) end-users. Through a business development strategy, supported by dissemination and marketing activities, the project aims at demonstrating the long-term market viability of the service.

In the longer run, CLIMATE-FIT aims at a genuine market uptake of urban climate services, based on a distributed network of local business intermediaries throughout Europe, enhancing the awareness for urban climate-related issues in the end-user community, and converting (mature) research results into tailored added-value information, thus removing important barriers for the deployment of urban climate services.

Gisat is responsible for the implementation of Urban Planning service. The development will be done in close cooperation with cities of Prague, Ostrava and Hodonin and it will target to cover wide range of their information needs related to climate change:

  • Assessment of the city’s potential for further development with respect to the threats of urban climate change;
  • Monitoring and prediction of the urban microclimate (action versus non-action impacts);
  • Impact assessment of densification of urban development versus the resilience to urban climate change;
  • Assessment of existing urban greenfields to mitigate urban heat waves;
  • Modelling of city development and the associated urban cooling capacity towards various climate change scenarios.

The service implementation will also include the development of web based tool to enable dedicated tailored scenario analysis based on climate change modelling and varying urban land use datasets, and representing different city development strategies.

CLIMATE-FIT / PUCS is funded by the European Union Horizon 2020 Research and Innovation Programme, SC5-01-2016-2017: Exploiting the added value of climate services. The project begun in June 2017 and will run for 2.5 years, until November 2019. The project consortium is led by VITO (Belgium) and it is composed of 14 organizations.

Gisat provides wide range of geoinformation services based on Earth Observation technology. It focuses on operational application of satellite mapping to monitor various aspects of our environment and development of dedicated web based platforms for geoinformation analysis and assessment
Tel: + 420 271741935 Fax: + 420 271741936
E-mail
Web

EUROSENSE was awarded by the Brussels Capital Region with the contract to update the map of the “capital of Europe”

Based on 5cm airborne data, the photogrammetric update of the map is realised for one third of the Region per year. This will result in a complete and up-to-date 3D database of Brussels in 2019.


Image of the Berlaymont building (20 April 2017- 5cm GSD)

August 2017 – Increasingly, the advantage of combined spatial and temporal analysis is being recognized, and very much so currently in agroinformatics. Rasdaman is enabling novel agroinformatics services on many levels, and international conferences seek talks on rasdaman and its open-standard approach.

EOFarm is a hitech startup in Greece with a mission in supporting farmers with Big Data Analytics. The open-source rasdaman community platform has enabled a quick deployment of the service while ensuring its scalability and openness. Products offered include Color Composites, Band Ratios and Indices, Vegetation Detection, Canopy Greenness Estimation, Land Surface Temperature, Time series over arbitrary areas of interest, etc. With Landsat8, Sentinels, and !RapidEye the underlying data sets integrate both open and commercial satellite imagery. Due to the success of this service, meanwhile a similar framework has been deployed for water quality monitoring.

In Germany, Spatial Business Integration GmbH and rasdaman GmbH team up in the BigPicture project which focuses on “diagnosis in the field”: Big-Data-based determination of causes for satellite image derived and site-specific variations so that targeted measures can be recommended to farmers, such as fertilizer placement, application of plant protection products, choice of species to grow, etc. To achieve high reliability, 500 farmers are delivering ins-situ insight for ground truthing. Further, meteorological data are mixed in. Again, rasdaman is the enabling Big Datacube engine underneath. The project is being supported by the German Federal Ministry of Food and Agriculture.

Meantime, the expertise of rasdaman CEO Peter Baumann in Big Datacubes is being sought continuously. In Kampala / Uganda this August he was invited keynote speaker at the Advances in Geomatics Research Conference where a central topic was how to best use Geo IT for an effective, yet environmentally compatible agriculture. Right after, he presented at the annual Agro-Geoinformatics Symposium at George Mason University in Fairfax, USA. At the INSPIRE conference in Kehl he will give a tutorial on INSPIRE WCS: from Mystery to Mastery, followed by talks at ESA EO Open Science Conference iN Frascati, Italy, and at INTERGEO Berlin, among others.

Contact: Dr. Peter Baumann, baumann@rasdaman.com

Following a visit to Centre Regional AGRHYMET, the EO4SD team continued the African user consultations with back-to-back workshops in Djibouti and Lusaka from 20th to 30th of September 2017.

In Djibouti, the team met with key stakeholders to the Regional Groundwater Initiative (RGI) on Africa Horn including World Bank, The Intergovernmental Authority on Development (IGAD), IGAD Climate Prediction and Applications Centre (ICPAC), and Centre de Recherche et des Etudes de Djibouti (CERD). The discussion and consolidation of the EO demonstrations for Africa Horn concerned how EO can support and improve ongoing modelling efforts on water resources, provide decision makers with region-wide maps on groundwater drought vulnerability and finally as a tool to guide investments on groundwater related infrastructure.

In Lusaka, the team joined the annual Zambezi Basin-wide Stakeholder Forum and subsequent review meetings on the Zambezi Basin Strategic Plan (ZSP) and the ZAMWIS Decision Support System (DSS) before having our own EO4SD review meeting. In Zambezi, the EO demonstrations will focus on support to key basin issues such as ensuring food and energy security through investments in irrigation and hydropower as well through improved flood management and mitigation. The meeting in Lusaka was rounded off with a first training workshop for ZAMCOM and members from all of the riparian states (i.e. Angola, Botswana, Malawi, Mozambique, Namibia, Tanzania, Zambia and Zimbabwe). Among the participants were also representatives from University of Zambia and the private sector.

More information on the EO4SD – Water Resource management project

Greenland, the largest island in the world, is not the easiest one to map. Prone to extreme weather conditions along with scattered villages and housing, the country has never been entirely mapped within a single campaign.

As an example, part of the existing maps date back to the 1930s, and others to the 1980s. As a result, none of them are accurate enough to be used with GPS. Outdated maps combined with a melting ice sheet definitively require new and updated digital mapping for the country.

Since 2015, the Danish Agency for Data Supply and Efficiency (SDFE), in close cooperation with Greenland’s Government, has been conducting a pilot project in order to define the best way to map 16% of the ice-free area of Greenland at 1:50,000 scale, which represents about one and a half times the size of Denmark. The project creating new digital maps using satellite imagery over 4 geographical areas, Zackenberg, Tasililaq, Narsaq and Disko, that is a total area of about 82,000 km². To achieve this, DHI GRAS , Denmark partnered with Airbus Defence and Space to create mapping products derived from SPOT 6 and SPOT 7 imagery.

“Airbus Defence and Space was our client’s first choice, due to the tri-stereo capabilities of SPOT 6/7 that allow for precise mapping in the steep and remote terrain of Greenland.” Says Rasmus Eskerod Borgstrøm, Managing Director of DHI GRAS, and adds, “It has been an absolute pleasure working jointly with Airbus on this challenging and important project. I would like send my warmest gratitude towards both the technical, legal and sales team at Airbus Defence and Space and pass on my recommendations for everyone.”

Thanks to SPOT 6 and SPOT 7 high resolution imagery, and their rapid coverage capacity, images have been acquired within a short time frame, allowing the production of Orthophotos, Digital Elevation Models as well as vector layers which will be shared among a wide community of users. Indeed, it was an important part of this project to ensure users had the widest possible access to the data. Orthophotos, Digital elevation Models and vector layers over the four geographical areas will be freely available for users in Denmark, Greenland, the Faroe Islands, EU and EEA countries. Other countries will have the capacity to visualise these two datasets.

This new cartographic data will contribute to supporting Greenland’s infrastructure management as well as its economic development. Precise and detailed maps are also important in connection with climate and environmental monitoring, rescue preparedness and business development. With these updated maps, police and rescue organisations will be able to use satellite navigation with accurate mapping.

At the end of 2017, the results will be evaluated, and the Greenland Self-Government and the Ministry of Energy, Supply and Climate Affairs will make a decision on a complete survey of Greenland.

13 September 2017. The Bathymetrics Data Portal, the first dedicated commercial bathymetry portal of its kind, has been launched.

The portal allows users to search, purchase and automatically download the best available water depth information directly from the online store to their computer.

It is the result of a partnership between DHI GRAS – DHI’s own experts in satellite derived bathymetry, TCarta – a global provider of marine geospatial products, and DigitalGlobe – the world’s leading provider of high-resolution satellite imagery.

Buy just what you need

The Bathymetrics Data Portal offers a global database with a continuously expanding 2m Bathymetry dataset in shallow water areas, in addition to a worldwide database of interpolated 90m Bathymetry. Data is priced by the square kilometre; the customer pays online with credit card and can download the data shortly after.

‘We are very excited about this launch, as we have made direct access to off-the-shelf bathymetry data very easy and intuitive. The shop marks an important milestone in our continued quest to develop and offer offer high quality, affordable bathymetry data.’
- DHI COO, Jacob Høst-Madsen.


The Bathymetrics Data Portal allows users to search for data in their area of interest and purchase what they need. © DHI, TCarta, DigitalGlobe

Bathymetric products are used extensively by organisations involved in energy infrastructure development, port construction, environmental monitoring, aquaculture planning and hydrodynamic modelling.

‘The per-kilometre pricing model puts high-quality bathymetric data within easy reach of organisations of any size in all industries. One-person engineering shops, academic entities and other organisations with limited budgets can now engage in complex offshore projects.’
- TCarta CEO, David Critchley

The portal is constantly being updated with new and improved data, providing users with the best available bathymetric information around the world. We would be excited to hear from you if you have an area of interest that is not currently in our database.

Access the portal

Visit The Bathymetrics Data Portal now at: bathymetrics.shop

The pre-operational Forestry Thematic Exploitation Platform (F-TEP) is now live. F-TEP has been created to provide an online data processing and dissemination resource for the forestry community that enables benefit to be derived from the volume shift in data in the Copernicus age.

Introduction

With the very large volumes of Earth Observation (EO) data now being provided from the multiple Sentinel missions and other satellites (in the order of Terabytes per day), the limitations for effective science and value adding business are becoming less about lack of data, and more about using effective tools and resources to find, process and analyse the data. Such large data volumes mean that longer download times, larger storage devices, advanced processors and high powered computing are all needed to help maximize the information that can be extracted.

The ESA TEP programme

In 2015, the European Space Agency (ESA) has helped users by commissioning a series of Thematic Exploitation Platforms (TEPs), intended to be online facilities for the searching and processing of large volumes of EO data. There are currently 7 TEPs, each of which is focused on a different thematic area (Forestry, Urban, Coastal, Hydrology, Polar, Geohazards and Food Security). All of the TEPs are based on the concept of providing online data access and processing tools for EO data exploitation that is accessible via an easy to use web portal. The ultimate aim is to reduce or remove technical or computational limitations for effective data exploitation by a wide variety of users.

A key goal of the TEPs is to provide a means to move away from each user working in their own ‘silo’ to a more common environment. Users no longer need to download and process data on their own hardware, instead the processing is done on the TEP utilizing the computational resources the TEP can access. The collaborative nature of the TEPs also allows users to keep up to date with, and share knowledge about, data and processing techniques with the wider community in their thematic area. This includes the ability of TEP users to create and share their own processing tools and algorithms. TEPs can also help to reduce the difficulties of data procurement, by providing access to processing for miscellaneous data sources through a single online portal.

Forestry-TEP: a user-driven processing platform for forestry users

The F-TEP has been developed and deployed by an international consortium led by VTT of Finland. Partners include CGI and STFC from the UK, Spacebel from Belgium and Arbonaut from Finland.
The F-TEP portal provides a self-service environment in which users can undertake a number of key activities including:

  • Search for a variety of EO and reference data relevant for Forestry-related activities, including Sentinel and Landsat data. Users can also upload their own reference data and search for forestry data products processed by other users.
  • Process EO and reference data using a variety of processing services to create various forestry products such as land cover maps, biomass estimations, species analyses and track deforestation. During the current pre-operations phase this includes access to propriety software such as VTT’s Autochange.
  • Create, test and share new forestry-focused processing services.
  • Share products, processors and reference data with peers and the wider forestry community.
  • Analyse EO data, derived products and reference data within the F-TEP platform using a variety of EO applications including the Sentinel Toolbox (SNAP), QGIS and Monteverdi.

To provide such functionality in a cost-effective manner that can be scalable F-TEP needs to deliver a smart ICT-based solution. To ensure efficient processing of large data volumes modern container-based technologies such as Docker™ are an integral part of F-TEP. Openness and integration are also key aspects of the solution, enabled with the use of Open Source Software and adherence to standards such as OGC Web Services. This will help ensure that future collaboration across TEPs and other platforms is possible.

Current status of F-TEP

F-TEP is currently in the pre-operations phase and accessible to all users. It is the second of the 7 TEPs to reach pre-operations. During this phase users are encouraged to explore and use the platform and a number of key pilot projects are being run. These include:
• Mexico (Chiapas & Durango states), with a focus on utilization of Sentinel-1 and Sentinel-2 forest cover mapping for the REDD+ program. This includes developing methods to support forest management in Durango.
• Finland (Finnish Forestry Centre), with a focus on mapping degree of shrub damage on regeneration areas using Sentinel-2 data.
Other uses of F-TEP currently being evaluated or envisaged are land cover and forest mapping at a regional or national scale, change detection, biomass estimations and regeneration.

The future

F-TEP will come to the end of its pre-operations phase in the first half of 2018. It is intended that the platform capabilities will continue to be available thereafter as commercial services on a pay-per-use basis

Contacts
Tuomas Häme – VTT Project Lead for F-TEP (Tuomas.Hame@vtt.fi)
Clive Farquhar – CGI Project Manager for F-TEP (clive.farquhar@cgi.com)

Nowadays, the advanced uses of EO data are being brought within the reach of multiple players. EO offers added-value cost-effective solutions to several business problems, enlarging its potential market. However, to scale up the market, the EO community will need sound business models, realistic business plans and effective approaches to estimate and communicate benefits to end-users. To undertake these activities, ALPHA Consult created a group of leading independent experts, increasingly active across several supporting and related EO markets (chiefly Aerospace, Transportation, Agribusiness, Emergency response and management, and Climate Change). With its business, technical, and communication/ dissemination background, coupled with the experience reached during successful projects, ALPHA is able to support a vast range of actors in the articulated processes aimed at engaging end-users’ and commercialising high technological solutions.

In the recent past, the main beneficiaries of EO data have been mainly large-scale projects or companies. However, as suitable software and information platforms become more widely available, advanced uses of EO data are being brought within reach of smaller businesses and niche markets worldwide (1) . In line with this trend, according to the European Commission (EC), the global EO midstream turnover is projected to reach 3.4€ billion by 2022.

The main challenges to catch these opportunities able to enlarge the EO potential market are:
1. to develop appropriate business analyses and business cases to showcase EO added-value in practice, and
2. to inform potential customers on the benefits brought by EO-based products/ services.

In line with this need, ALPHA Consult (www.alphacons.eu), a European management consultancy focused on services in GNSS and EO- related industries in Europe and Africa, is supporting various industry players in fully exploiting their potential by providing high quality business/ strategy consultancy about all aspects of EO concepts and technologies. The following services are offered:

Aware of the challenges and difficulties faced by innovative EO-based solutions and services to scale up the market, ALPHA leveraged its experience to be a key connection between innovation developers and providers and related end-users in all its projects. Some examples of projects recently undertaken by ALPHA in the EO domain are cited below:

  • Advanced Snow plough and salt Spreader based on Innovative Space Technologies (ASSIST) (2). ASSIST project has been co-funded by the European Space Agency (ESA) (3). Exploiting the insights from the feasibility study (undertaken in 2014-2015), the ASSIST demonstration project validates a set of advanced “assistance services” for winter maintenance, involving relevant European users and stakeholders. In this context, ALPHA has been in charge of the • Viability Analysis (before) and Business Plan (after), undertaking costs-benefits analyses (CBAs) and preparing the ground for the market roll-out;
  • Improving Resilience to Emergencies through Advanced Cyber Technologies (I-REACT) (4) is a Horizon 2020 3-year project (2016-2019) funded by the European Commission under the Secure Society Work Programme (DRS-1-2015). I-REACT integrates existing services, both local and European, into a platform that supports the entire emergency management cycle. Within this project, ALPHA is leading the business assessment and exploitation phase, including the preparation of dedicated CBAs, business plan and roadmap;
  • Vineyards Integrated Smart Climate Application (VISCA) (5) is a Horizon 2020 3-year project (2017-2020) aimed at making South-European wine industries resilient to climate changes, while minimizing costs and risks through an improvement of the production management (quality and quantity of final product). In particular, a Climate Service (CS) and Decision Support System (DSS) will be developed and tested on three demo sites belonging to three wine stakeholders from Spain, Italy and Portugal. In the frame of VISCA, ALPHA will guide the innovation management, the engagement with the Project Advisory Board (PAB) and end-users. Moreover, it will prepare a realistic business plan for further solution uptake.

To conclude, with its business, technical and communication/ dissemination background, coupled with the experience reached during successful projects, ALPHA is able to support a vast range of actors, such as businesses, regulators and European institutions, in the articulated processes aimed at engaging end-users’ and commercialising high technological solutions.

**
(1) https://www.directionsmag.com/article/1194; http://earsc.org/news/new-approaches-bring-earth-observation-data-to-wider-market
(2) The Consortium is led by the Istituto Superiore Mario Boella (ISMB) and includes: ALPHA, Giletta, Geoville and SAET.
(3) Within its Business Applications Programme
(4) The Consortium is led by ISMB and includes Geoville, Eoxplore, Terranea, Alpha Consult, UNESCO, Politecnico di Torino, Celi, JoinPad, Fondazione Bruno Kessler, Finnish Meteorological Institute, Meteosim, Bitgear, Ansur Technologies, Technical University of Vienna, Scienseed, CSI Piemonte, Aquobex, Answaretech, and the Joint Research Centre (JRC) of the European Commission
(5) The Consortium is led by Meteosim and includes Barcelona Supercomputing Center (BSC), Codorniu S.A, Institut de Recerca i Tecnologia Agroalimentàries (IRTA), ISMB, Universita Degli Studi di Napoli Federico II (UNAP), Mastroberardino spa, Symington – Vinhos S.A., Universidad do Oporto (UPORTO), Unite Technique du Semide Geie, Alpha Consult

Speedy delivery and quality imagery mark European Space Imaging’s acquistions for EU’s CAP.

Agricultural region by the ocean in Denmark – Image collected by WorldView-2 © European Space Imaging

(Munich, 05/09/17). Early last week European Space Imaging finalized the collection of nearly half a million square kilometers of satellite imagery for the European Commission. This marks the completion of its VHR Image acquisition for the 2017 Controls with Remote Sensing (CwRS) program with a 100% success rate – demonstrating once again the company’s capacity and reliability as Europe’s leading very high resolution satellite image provider.

The CwRS program monitors agricultural land for which farmers have been granted subsidies under the EU’s Common Agricultural Policy (CAP), which amount to around €40 billion per year. European Space Imaging has been the major provider of very high resolution satellite data to the program since 2003.

“We are extremely proud to once again achieve a success rate of 100% in this challenging and important campaign,” said Adrian Zevenbergen, European Space Imaging’s Managing Director. “Our staff worked around the clock to achieve this goal.”

EU Member States give European Space Imaging an individual collection window for each of the 842 agricultural zones spread all over Europe, and on average it has 51 days to gather the data. This year cloudy weather over Latvia, the United Kingdom, and Ireland made the operation particularly challenging.

“Despite the clouds we managed to collect images for over 70% of the zones within two weeks of the window opening, which helps the EU Member States manage their own deadlines,” said Dr. Melanie Rankl, Project Manager at European Space Imaging.

From its ground station in Munich, European Space Imaging takes into account real-time weather conditions before directly tasking the world’s most advanced satellite constellation: WorldView-1, GeoEye-1, WorldView-2, WorldView-3, and WorldView-4. Direct tasking allows it to minimize cloud cover and increase collection efficiency – it was able to deliver the vast majority of imagery with less than 10% cloud cover.

“The addition of WorldView-4 to the satellite constellation in May 2017 really boosted our collection capacity,” said Dr. Rankl. “It gathered over 79,000km2 of imagery in less than four months.”

European Space Imaging is looking forward to continuing its role as a dependable imagery partner of the EU Commission and Member States into the future

About CwRS
Since 1993, the European Commission (EC) has promoted the use of “Controls with Remote Sensing” (CwRS) as a system to control agricultural subsidies granted under the EC’s Common Agricultural Policy. Following the real time evaluation in 2003 and the successful operational application since 2004, the EC’s Joint Research Centre (Director General (DG) JRC), in agreement with DG AGRI, provides VHR satellite remote sensing data to the EU Member States (MS) administrations for their CwRS area-based subsidies.

The DG JRC provides technical guidance regarding the CwRS methodology as well as managing the image acquisition, ordering and communication with the member state administrations and image providers. Also, in close cooperation with the member states, it supports the definition of the imagery required. Satellite imagery is acquired through third party suppliers selected by the DG JRC like European Space Imaging who has been a key third party imagery supplier to these campaigns since the programs’ inception.

Find out more about the CAP here

About European Space Imaging
European Space Imaging (EUSI) is a leading supplier of global very high-resolution (VHR) satellite imagery, direct satellite tasking and derived services to customers in Europe, North Africa and CIS countries. They offer customers access to the highest resolution imagery (50-30 cm) from the largest constellation of sub-meter satellites and to the most extensive worldwide VHR data archive. With a reputation for expert and personalized customer service they have been providing tailored VHR imagery solutions to meet their customers’ diverse project requirements since 2002.For more information, visit www.euspaceimaging.com.

To learn more please contact:
Claire Wilson or Skye Boag
Marketing Department
European Space Imaging
Arnulfstrasse 199, Munich 80634
Tel: +49 (0) 89 1301420
marketing@euspaceimaging.com
www.euspaceimaging.com