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The fourth edition of the Symposium on Earth Observation Business will take place from September 13 to 14 2012 at its usual venue, the Westin Hotel in Paris.

Organized in synergy with the must-attend World Satellite Business Week, this symposium is a unique forum bringing together over 200 EO community representatives from EO satellite operators, manufacturers, launch service providers, data distributors, service providers and end-users (military, civil government and private).

Lively panel discussions and keynote presentations will be given by over 40 high-level speakers from private and public entities before a crowd of their suppliers, customers and peers.

Themes covered will include:

  • Enterprise User Forum: Delivering solutions to key vertical markets (energy, maritime, LBS)
  • Data distributors’ key role in providing access to local markets
  • Development strategies for moderate and high-resolution EO operators
  • Civil government: Securing access to data and building cooperation

Previous attendees or speakers included leading Earth observation companies or institutions such as ESA, NOAA, EUSC, GEO, CEOS, UNOSAT, Astrium Geo-Information, DigitalGlobe, GeoEye, e-GEOS, ImageSat, NGA, German MoD, French MoD, Ball Aerospace, Lockheed Martin, OSC, SSTL, Thales Alenia Space, KSat, Fugro, Google, Microsoft, Total, BP, etc. The umbrella event, the World Satellite Business Week gathered over 450 CEOs, CFOs, Presidents and Directors from key companies such as Gazprom, Boeing, SES, Eutelsat, Iridium, Arianespace, ILS and SpaceX. etc.

The event’s active social program filled with cocktail receptions, coffee breaks and sit-down lunches offers a valuable opportunity to network and meet new business contacts amongst participants that represent the entire EO value chain and all world regions.

To view the detailed agenda including all seven panels, check the event website

For registration or further information, go to http://www.satellite-business.com/registration or contact Ruth Mandeng: mandeng@euroconsult-ec.com (+33 – 1 49 23 – 7524)

Gisat provides services to the European Investment Bank for monitoring of large-scale cement factory in Ethiopia.

Gisat has been selected as one of the European EO services providers within the frame of the joint ESA and the European Investment Bank (EIB) initiative to support the EIB specialists in their independent monitoring capacity building using Earth observation data. In particular, Gisat provides monitoring services for the large-scale cement plant construction and operation in Ethiopia.

The required services consist of land cover / land use change assessment and feature extraction in surroundings of the large-scale cement plant, an adjacent limestone quarry and other related infrastructure constructions. In this value added services, funded under the ESA VAE programme, Gisat capitalizes its long-standing worldwide expertise in EO based land cover / land use applications and also its successful involvement in previous and similar EOWORLD initiative focused on the World Bank support.

The European Investment Bank (EIB) is the long-term financing institution of the European Union, promoting EU objectives. Outside the EU, the EIB supports the EU’s cooperation and development policies. Regular assessments of the environmental and social impacts of the activities undertaken in connection with the EIB loans are a necessary condition for receiving and maintaining the financing. In this framework, the EIB is keen to have independent monitoring capacity focused both on construction progress as well as on progress on the declared mitigation measures to reduce the environmental impact related to the construction projects.

ESA supported EO-based services are potentially useful tools in providing a wide range of environmental information (retrospective & up-to-date) to support the management of EIB’s projects, across the whole project lifecycle. The focus is on appraisal, monitoring and evaluation phases, providing information that is a) non-intrusive, objective and consistent around the globe, b) retrospective and comparable to the current status (via the mission archives), and c) based on technology ensuring a long-term continuity, especially with the prospect of the European GMES initiative services.

More information at GISAT

The DREAM project aims to define and prototype the operations concept for Decision Support and Real Time EO Data Management.

DREAM contributes to the evolution of standards and technologies needed for Earth Observation data identification, feasibility analysis of satellite acquisitions, product ordering and online Earth Observation product access and delivery. The principal objective of the project is to address the technology, architecture and G/S interfaces needed to streamline the planning, ordering and access to ESA and Third Party Earth Observation Mission for two identified institutions: EMSA (European Maritime Safety Agency) and EUSC (European Union Satellite Center).

The DREAM prototype shall:

  • Support the EUSC and EMSA business scenarios related to feasibility analysis, ordering and on-line data access of coverages.
  • Demonstrate dynamic data transfer of EO data from the PDGS to these institutions decision support systems.
  • Define the technical interfaces between the components.
  • Propose the interface to be exposed by the Sentinel 1 and 2 mission planning components to ensure future compatibility and “pluggability” of these services in the DREAM architecture.
  • Ensure data integrity and traceability of quality and accuracy metadata throughout the data transfer process.

The ESA GSTP project is led by SPACEBEL as prime contractor and the consortium consists of 12 additional partners from 8 European countries.

Gisat is responsible to develop the NRT (Near Real Time) cloud-mask generation system that will be implemented to allow feasibility analysis in the Feasibility Analysis System and cloud masking functionality in Reference Coverage Server to fulfill the update strategy.

More information at GISAT

City planners and urban designers are really interested in mapping how artificial structures spread within urban and suburban areas (built-up) since the equilibrium between permeable surfaces (vegetation or soil) and impermeable surfaces (buildings and pavement) is critical for flooding and related environmental disasters occurrence.

Soil sealing occurs as a result of the development of housing, industry, transport and other physical infrastructure, including utilities (e.g. waste disposal and water distribution) and military installations, i.e. as a result of the wider process of land consumption.

Since several years the European Commission has been promoting the monitoring of the built-up area spreading inside the Global Monitoring for Environment and Security (GMES) program, expoliting remote sensing technologies. In 2008, the first pan-European dataset of built-up areas and the degree of soil sealing was delivered covering 5.8 million square kilometers spanning 38 countries. In 2009, the European Environment Agency (EEA) requested that the Seventh Framework Programme (FP7)-funded geoland2 (www.gmes-geoland.info/) project update the built-up and imperviousness layers. Requested output products include updated status maps and change maps of the built-up area, status and change maps of imperviousness in 20-meter resolution and an updated one-hectare “European layer” of built-up areas and degrees of imperviousness.

The 2010 update was performed by many of the same members of the European consortium that created the base map for 2006, including Planetek Italia (Italy). Planetek Italia has provided a service for sealed area extraction (including buildings, roads and infrastructure) over several European Countries: Italy, Malta, Cyprus, Albania, Greece, West Turkey and Macedonia. At the beginning of year 2012 the EEA awarded the contract to Planetek Italia to map high-resolution Forest and Impervious Area characteristics in Southern Europe (West and Central Mediterranean region) in the framework of the GMES Initial Operations (GIO) Land Monitoring Services.

Due to the very large extent of the european area to be investigated, the strategy was to develop highly automated update tools that can be applied minimizing the level of operator interaction required. The automated workflow was specifically designed to be easily shared, which was especially important in this case, since the same methodology were applied by all production partners throughout Europe. For this reasons, the built-up and sealing update layers were generated with models built specifically for the project using the Model Maker in ERDAS IMAGINE. The Model Maker is a smart tool that enables users to develop models as graphical flow charts. The graphical models are translated into and run via the ERDAS Spatial Modeler Language (SML), a script language specially designed for GIS modelling and image processing applications (www.uwf.edu/gis/manuals/SML.pdf). The high degree of automation and the uniform methodology applied by the consortium members ensured a spatially consistent update product.

For further information:
Download the full paper
ERDAS IMAGINE software suite web page
GMES project and Soil Sealing maps

At the beginning of year 2012 the EEA awarded the contract to Planetek Italia to map high-resolution Forest and Impervious Area characteristics in Southern Europe (West and Central Mediterranean region) in the framework of the GMES Initial Operations (GIO) Land Monitoring Services.


The GIO Land project answers to European Environment Agency’s call for tender “GMES Initial Operations 2011-2013 Land Monitoring Services: High Resolution land-cover characteristics of 5 main land cover types” (EEA/SES/11/004). Started in 1998, the Global Monitoring for Environment and Security (GMES) will provide on a sustainable basis, operational services related to environment and security, aimed at supporting European Policies and international commitments and at stimulating market development. The implementation of GMES has started in 2008 with three Fast-Track Services: Land, Marine and Emergency Response, and with two additional pilot services: Atmosphere and Security.

The framework contract aims at providing high resolution land cover characteristics data complementary to the Corine land cover map 2012 that will be produced in parallel by the European environmental observation and information network (Eionet) and the EEA from the same satellite data. The 5 high resolution layers deal with artificial surfaces, forest areas, agriculture areas, wetlands, water bodies for the reference year 2012.

The consortium lead by Planetek Italia and formed with the partners Geoville and Planetek Hellas has started the activity for the production of 2 of the 5 High Resolution pan-European layers (Imperviousness and Forest).

This project is placed for “Lot 4: Imperviousness and forest in Southern Europe, partim West and Central Mediterranean region (1.202.046 km2)”. This lot includes the following countries: Albania, Bosnia and Herzegovina, Croatia, Cyprus, Greece, Italy, Kosovo under the UN Security Council Resolution 1244/99, Montenegro, Malta, Portugal (including the Azores and Madeira), Spain (including Baleares and Canaries).

The High Resolution Layers (HR Layers) of 5 main land cover types and Corine Land Cover (CLC) are part of the Pan European GMES Land Monitoring Core Service Component and will provide comparable measures across Europe.

The proposed methodological approach is built on the long experience already consolidated by the consortium during previous GMES projects such as FTSP on Land Monitoring – Soil Sealing 2006, Geoland2 – Imperviousness Update 2009, where much effort was spent to develop and refine the production workflow in order to fit it to the varying characterization of the different ecoregions in Europe.

Further information at the following links:
GIO Land monitoring services contracts awarded
GMES website
CLC2006 project description website
Project description
An article about GMES and Geoland2

Water quality is one focus of monitoring agencies and the public, and it is subject of several European Directives: Water Framework Directive (WFD), Bathing Water Directive, Marine Strategy Framework Directive (MSFD), and regional conventions: OSPAR), HELCOM), etc. Yet in order to be effective, the implementation of such legislations needs to be rigorously monitored. In this respect, and in the context of GMES initiative, water quality services are paramount.

Thales Alenia Space France is coordinating 2 European projects (MarCoast and Aquamar) aiming to provide sustainable space based downstream services in support of this implementation. The goal is to foster the development of an European capacity to provide validated information products, in a standardized and harmonized way, and to support the wide range of Service providers involved since a long time in that development.

MarCoast funded by ESA-ESRIN, is delivering services for the operational monitoring of marine water quality. Services are based on satellite data, driven by users, designed to assist with the reporting requirements of EU and national policies.
Services are distributed yet harmonised, with a common requirement for input data common approach to validation, quality control and cost-effectiveness.

Aquamar as the R&D branch of MarCoast, and supported by EC FP7 funding, is developing 5 new service lines and improving products and validation processes.

  • Support to Water Framework Directive (WFD)
  • Detection of Harmful Algal Blooms (HAB)
  • Compliance monitoring for Large Infrastructure Projects
  • Bathing waters monitoring
  • Precision Farming Aquaculture

Aquamar is also developing a web based platform, specific tools and training materials to support Service providers and end-users activities.

Support to Water Framework Directive (WFD)

This activity is improving the quality of satellite data products near the coast (within 1 nautical mile) in order to provide better products to support monitoring requirements of the WFD. Work is focusing on cloud screening, shadow detection, flagging improvements and land-water mask improvement. The following figure shows improved detail in coastal land-water mask.
Figure 1 : Improved detail in coastal land-water mask (green areas), source Brockmann Consult

Detection of Harmful Algal blooms (HAB)

A number of institutions are involved and in general each are developing algorithms to identify certain species of algae that cause problems in their local area. There are some optical differences between species identified in the laboratory, but in general satellite imagery is only able to give results for high concentrations of certain species. Classification techniques are also being investigated as an alternative approach. With each method being studied there is a requirement for in situ measurements to support the detection and validate algorithms. As example, harmful algal bloom classification and the differences between using satellite products from the MODIS and MERIS instruments are investigated. Figure 2: (Harmful algal bloom classification with MODIS an MERIS, source PML)

Web based platform in support to the Service providers and end-users

The first version of the Aquamar Information system has been released. Based on open source solutions, this web platform comprises several functions and tools developed in Aquamar and available for Aquamar and MarCoast users


Figure 3: (Home page of the Aquamar/MarCoast Information system portal)
  • Service provider tools: technical tool allowing to directly fetch myOcean data for further processing
  • Service Validation tools: to assist the validation bureau in analysing the validation reports, uploaded by the service providers. It provides also the possibility for end users to send their own validation assessment
  • Metadata editor allowing service providers to define their service metadata in a standardized way
  • Service & Product Catalogue to retrieve products in an harmonized and standardized way

Time Series Tool

The Time Series Tool is a graphical extension to BEAM VISAT. Its purpose is to foster validation and quality improvement by making possible to investigate time series for specific EO variables. The Time Series Tool allows the user to load and display series of satellite data of different dates for analysing the behaviour of several EO variables (e.g. total suspended matter, chlorophyll_a) along a timeline. It also allows the user to import in situ data for comparing them with the satellite data for validation purposes.

Improving the Service Validation process

To support the Service Validation process, initially defined within the MarCoast project, the validation methodology has been improved and implemented in the Aquamar Information system. Service providers validate their services by comparison with insitu data and finally compile a validation report. Users and a dedicated Validation Bureau, review and assess the services based on these reports as well as on users’ experiences during service delivery.

Finally, a comprehensive validation report is compiled comprising the following content:
1. Service provider validation reports,
2. User assessments,
3. Validation Bureau reviews and
4. Summary and conclusions compiled by the Validation Bureau.

The overall process is implemented on a web based tool, using a workflow application to facilitate the reports circulation and assessment during the different validation steps.

User training materials

Aquamar will propose training materials :

  • The product guides: these will provide a general overview of AquaMar and general remote sensing principles, as well as more detailed information for each of the individual product services.
  • Worksheets: a downloadable set of HTML worksheets and sample data will allow Users to get “hands on” with the data and train them in general data analysis techniques. The example worksheets will also make use of the bespoke tools developed within the AquaMar project.
  • Forum: an online web forum is available for Users to interact with the scientific community, as well as the service providers.
  • User Workshop 2013: The workshop will allow a review of the User requirements for each service and address any issues or queries they have.

More about MarCoast & Aquamar

During the past winter period, EUROSENSE has been very active in helping cities and municipalities in The Netherlands, GD of Luxembourg, Belgium and Germany setting up sensitization instruments to increase their energy efficiency and therefore reducing CO2-emissions.

Thermographic maps: excellent communication tools… when correctly used!

Over the past years, an increasing demand is noticed from cities and municipalities for suitable tools to communicate energy efficiency measures towards their inhabitants. EUROSENSE has been executing several thermography projects in France and Belgium during which heat losses from all buildings within the project area were measured by a thermal camera installed in an airplane which flew over the project area at a cold winter night. Main focus of these projects is the analysis of heat losses through roofs and subsequently an indication on the roof insulation quality. However, thermographic maps do need a correct use in order to communicate to inhabitants the correct message about their roof insulation quality.

EUROSENSE has developed an interesting methodology based upon volunteer measurements during the night of the flight. This methodology allows the inclusion of different parameters of the building causing differences in the measured heat radiation during the flight. Such parameters can be the roof material, the heating pattern of the room under the roof, the slope of the roof and so on. Next to a calibrated and homogenous thermographic map covering the entire city or municipality, an interpretation key and legends are provided as end result. By means of some simple questions in the interpretation key, inhabitants can deduct the legend to be used for their specific building and interpret the colours on the thermographic map in a correct way.

A first draft colour result from the thermographic map of an area in Luxembourg city

Furthermore, EUROSENSE provides training to dedicated personnel of the city or municipality who can help inhabitants with the interpretation and subsequently communicate all messages with respect to subventions for investments in a good roof insulation. This approach has proven to be very successful in Antwerp and neighbouring municipalities (see: http://zoominopuwdak.antwerpen.be) and Ghent (see: http://warmtefoto.gent.be) with several ten thousands of unique visitors in the first months after the launch of the online application with the results.

More and more cities and municipalities see the benefits of this approach and ask EUROSENSE to work out such a thermographic map with a correct interpretation thereof for their territory. Recently, EUROSENSE has been executing projects for Luxembourg City (GD of Luxembourg), but also for the city of Enschede in The Netherlands and the city of Rheinbach in Germany. The results of these projects will become available for their inhabitants in the summer of 2012.

Public Lighting: a huge energy waster!

Street lights consume enormous amounts of energy. A city or municipality therefore can benefit from an efficient use and placement of public lighting. At the other hand, it is interesting for cities to know where public places are badly lit which could result in a higher number of crime facts or dangerous traffic situations at this spot.

Light maps showing the amount of light therefore are an important policy tool for cities and municipalities. During the same night flight on which thermal images were acquired over the city of Enschede (see above), EUROSENSE acquired aerial imagery with a light sensitive camera. These “night images” were processed in the same accurate photogrammetric production chain resulting in a detailed “night orthophoto” of the city.


Example of the draft lightmap result in grey scale. It represents the lighting luminance during the night within the city of Enschede. Locations with too much light can be detected for energy savings , and locations with not enough light can be indicated for security reasons.

In the frame of this project, EUROSENSE will not only provide the city of Enschede with this “night orthophoto” or light map, but also with derived maps clearly indicating the under- or over-lit locations which can be used as a policy instrument at the city, not only for energy efficiency, but also for security matters.

Contact us for more information
EUROSENSE

Remote sensing solutions provider DMC International Imaging Ltd (DMCii) has today launched its New Year sale during which customers can purchase its high quality, ready-to-use country image packs half price.

DMCii imaging specialists have produced complete, high quality 22m multi-spectral satellite imagery of many countries in Europe, Middle East, Africa, Asia and the Americas. The image packs are compiled using the best available imagery from 2011 resulting in exceptionally low cloud cover even in tropical regions. The 650km satellite swath ensures that very large areas are covered within consistent time windows and with an easily manageable number of image tiles, offering significant advantages to the end user.


The Pearl- Qatar in Doha, Qatar. UK-DMC2 Image © DMCii 2011

Images are delivered in half-swath 320km by 300km tiles and ortho-rectified so that they are ready to process in a broad range of GIS systems. The multi-spectral data is radiometrically cross-calibrated to within 1% of Landsat core bands (Red, Green, NIR) and is commonly used for government surveys and scientific research for water management, agricultural planning, forest cover and land use mapping.

The New Year image pack sale begins today until 29th of February 2012. For more details visit DMCii

About DMC International Imaging Ltd

DMC International Imaging Ltd (DMCii) is a UK based supplier of remote sensing data products and services for international Earth Observation (EO) markets. DMCii supplies programmed and archived optical satellite imagery provided by the multi-satellite Disaster Monitoring Constellation (DMC). DMCii’s data is used extensively in a wide variety of commercial and government applications including agriculture, forestry and environmental mapping.

In partnership with the UK Space Agency and the other Disaster Monitoring Constellation member nations (Algeria, China, Nigeria, Turkey and Spain), DMCii works with the International Charter ‘Space and Major Disasters’ to provide free satellite imagery for humanitarian use in the event of major international disasters such as tsunamis, hurricanes, fires and flooding.

DMCii was formed in October 2004 and is a subsidiary of Surrey Satellite Technology Ltd (SSTL), the world leader in small satellite technology. SSTL designed and built the Disaster Monitoring Constellation with the support of the UK Space Agency and in conjunction with the other Disaster Monitoring Constellation Consortium member nations listed above.

DMC International Imaging Ltd is not affiliated in any way with Intergraph Corp., Z/I Imaging Corp., or their registered trade mark DMC.

Notes to editor:
Press release
High resolution image available upon request.
Image caption: The Pearl- Qatar in Doha, Qatar.
Image credit: UK-DMC2 Image © DMCii 2011.

Press contacts:
Robin Wolstenholme, bcm public relations, www.bcmpublicrelations.com
Tel: +44 (0)1306 882288 Email: r.wolstenholme@bcmpublicrelations.com
Paul Stephens, Sales & Marketing Director, DMC International Imaging Ltd., www.dmcii.com
Tel: +44 (0)1483 804299 Email: p.stephens@dmcii.com

(Munich, 26 March 2012) European Space Imaging announces its support for the upcoming GMES Masters 2012 through the addition of a new challenge centered on the use of new applications for very high-resolution satellite imagery.

During this years’ competition kick-off in Munich European Space Imaging GmbH (EUSI) announced its support of the GMES Masters competition established by the Anwendungszentrum GmbH Oberpfaffenhofen (AZO). European Space Imaging is pleased to expand the contest by contributing the new ‘European Space Imaging High-Res Challenge’.

“We are very happy to have European Space Imaging on board for this year’s GMES Masters. As Europe’s leading provider of VHR data they bring a new and exciting challenge to the program” says Thorsten Rudolph, CEO, AZO.

“Through participating in the GMES Masters we hope to encourage creativity and find new, innovative ideas for the use of very high resolution satellite imagery in support of monitoring global environment and security” explains Michaela Weber, Sales and Marketing Director, European Space Imaging.

The European Earth Monitoring Competition GMES Masters takes place on an annual basis and calls for new ideas and services making the best use of earth observation data from Europe’s flagship program on Global Monitoring for Environment and Security (GMES). Initiated by the European Space Agency (ESA), the Bavarian Ministry of Economy, the German Aerospace Center (DLR) and T-Systems and supported by the European Commission and European Space Imaging GmbH, the GMES Masters 2012 will call for submissions between 1 June and 16 September 2012 in six categories.

EUSI currently provides VHR optical data to GMES program from DigitalGlobe’s satellite constellation consisting of WorldView-1, WorldView-2 and QuickBird. The imagery supports a range of services for monitoring the environment and supporting civil security activities on a European, national and regional level. Especially for GMES emergency services, like SAFER or GMOSAIC, an instant tasking option for VHR optical data is crucial for immediate assessments and can be fully supported through EUSI using their local WorldView groundstation and their close connection with the WorldView Global Alliance partner DigitalGlobe.
For more information: www.gmes-masters.com; www.euspaceimaging.com

Press Contact:
European Space Imaging
Penelope Richardson
Email: prichardson@euspaceimaging.com
Phone: +49 (0)89 130 142
www.euspaceimaging.com

About European Space Imaging

European Space Imaging (EUSI) is Europe’s leading supplier of very high-resolution satellite imagery. The company was founded in 2002 and is based in Munich, Germany. EUSI is the only European satellite data provider that operates its own dedicated very high-resolution satellite ground station for direct satellite tasking and local data uplink and downlink.

Developing New Business Relations
e- GEOS announces its annual International Conference will be held in Rome, Italy on May 23 and 24, 2012 at the Ergife Palace Hotel.


e- GEOS announces its annual International Conference will be held in Rome, Italy on May 23 and 24, 2012 at the Ergife Palace Hotel. “Developing new business relations will be our motto this year”, says e-GEOS CEO Marcello Maranesi, “because our attention will be fully focused on making this conference a business development event for our attendees”. The 1st e-GEOS International Conference, in May 2011, was a very successful event over two days, with the presence of more than 350 attendees, more than 40 countries, 38 speakers in 7 sessions, 180 companies, 40 institutions, 80 trainees for 2 training courses.

The conference will bring attendees up to date information on the e-GEOS group offer and third-party testimonials to how they are implemented in many end-user contexts.

The Geo-Spatial Information business is growing and evolving, with many rapid changes in not only products and services but also in the roles and areas of activity of its players, either professional actors or public agencies, no longer confined to the role of end-user or even B2C operators (Google, Microsoft, Apple..)

In addition, the large IT sector is progressively looking with greater interest to the improvement in applications that can be offered by integrating their current offerings with geo-spatial content and geo-spatially enabled services.

Today, within a broader IT application, it’s needed to combine and integrate aerial, satellite, street surveys, value adding, thematic layers and other types of information and industrial and/or public GIS applications, in order to produce value in end-user administrative/industrial processes. Different interactions, different relationships and partnerships among the various players are happening and will further change the business environment.

Preliminary Agenda

1st Day – 23rd MAY
9.00: Welcome Coffee
9.30: Conference Opening & Introduction-Welcome addresses from hosts
10.00: Main Session: Developing New Business Relations-Keynotes from key market players
13.00 lunch
14.30 – 18.00: Applications and case histories
• Emergency Response
• Land Application and Services
• Maritime Services
• Europe-wide Services from Geo-information companies
• End-user stories
Training Sessions *
20.30: Social event
2nd Day – 24th May
8.30: Welcome Coffee
9.30-10.30: Application Sessions
Showing real cases of borders, maritime, emergency…
Training Sessions *
11.00: Marketing parallel sessions
13.00 lunch
14.00 – 14.30: e-GEOS Business Model evolution
15.00 – 15.30: Interactive panel discussion
15.30 – 16.00: Conference Closing

* Requests for personalised content can be formulated during the registration process

**Contacts*:conference@e-geos.it
Web site 
Venue: Ergife Palace Hotel / Via Aurelia 619, Aurelio, 00165 Roma
Places are limited so be sure to reply before April 5th.
to register for the conference, complete this Registration Form and press SEND

Accomodation
And book your accommodation at the Ergife Palace Hotel, before April 5th
to obtain a special preferential rate
ergife.booking@ergife.com or prenotazioni.ergife@ergife.com
(include subject: “e-GEOS Conference”)
tel. + 39 06.6644805 / 06.6644809
fax. + 39 06.6632689

Registration & Conference Information
conference@e-geos.it

Conference