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AIRBUS excited to announce that the One Tasking service has now been extended to our Synthetic Aperture Radar (SAR) satellites. With the launch of OnePlan for TerraSAR-X, AIRBUS is strengthening their multi-sensor offer, giving us the opportunity to simply select the best sensor for our projects and to obtain the imagery you requested exactly when you need it!

One Tasking is Airbus’ satellite tasking service, making satellite commissioning risk free, fast and incredibly easy – with an unrivalled commitment to provide our customers with relevant and timely results.

The availability of OnePlan for TerraSAR-X will support customers who require high-quality and precise radar data in many situations – regardless of the weather and daylight conditions: from extensive maritime coverage to environmental mapping, not to mention image interpretation thanks to TerraSAR-X’s unique high resolution.

The launch of OnePlan for TerraSAR-X is a first step of a complete integration of radar into Airbus’ One Tasking offer! Our commitment to providing useful and timely answers for our customers has inspired our decision to further expand One Tasking offer to our radar satellite constellation, thus offering infinite opportunities to combine the sensors and even more possibilities to solve your challenges.

Please visit TerraSAR-X and One Tasking web pages for more information or contact us at Intelligence-services@airbus.com.

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Pavia, Italy – May 28-29, 2018

The 2nd Italian Workshop on Radar and Remote Sensing, organized by GTTI, the Italian Information and Communication Technology group, will be held at the University of Pavia. The workshop is quite informal, and aims at providing a forum for scientific exchange among the Italian and international community in this area.

Important dates
Abstract submission deadline: April 5, 2018
Acceptance notification: April 30, 2018
Workshop registration opening: May 2, 2018

“Call for papers”: http://rrsw2018.unipv.it/cfp.html

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For many years, a dearth of reliable information regarding global oil inventories meant that oil traders and market analysts lacked the full picture when making trading decisions. In response, Geospatial Insight developed TankWatch to provide the market with precise, near real-time insight into above ground oil storage for any location worldwide, enabling better price risk management options and enhanced decision-making capabilities.

© 2017 DigitalGlobe, Inc

The service is built upon on a satellite-based approach to deliver frequent and regular information reports across global oil storage tanks sites, providing a unique insight into global oil inventories and reserves, tailored to meet the needs of oil traders and analysts by combining very high-resolution satellite imagery with GSI’s proprietary analytics software.
Rationale

Crude oil is the world’s most traded commodity by volume and value with up to 2.5 billion barrels traded daily. Knowledge of terrestrial crude storage is relatively well constrained in the USA where the Energy Information Authority reports weekly on current storage levels. However, in locations where terminal and refinery operators are not obliged to report their oil stocks, the situation is more opaque. This is particularly true for key oil producing and consuming regions such as China and the Middle East where “official” storage and capacity statistics are met with distrust by the market due to perceived inaccuracies in their reporting. Accordingly, to enable improved decision-making for traders and analysts, greater transparency is required regarding the crude fundamentals that play a significant role in determining the market price.

Issues & Needs

The lack of reliable information coming out of many oil storage regions means that global oil stocks at any one time remain largely unknown. However, if this information were available, traders could gain competitive advantage by being better informed whilst businesses and end users could implement better risk management strategies regarding price fluctuations. As a result, there is strong demand for timely, quantitative objective intelligence for crude oil inventories for the many regions where official reporting is either unreliable or simply not performed.

Solution

Geospatial Insight have developed TankWatch; an information product that uses proprietary software to measure and calculate the volumetric capacity and fill level of oil tanks with floating lids from satellite imagery.
To generate tank capacity measurements, the software measures planar distances between tank features that automatically detected using spectral profiles from the processed ortho-image. These planimetric measurements are ingested into an algorithm that converts the distances into three-dimensional information by considering image meta-information such pixel resolution, image off-nadir capture angle and satellite azimuth at the time of acquisition.

This approach can subsequently be used to measure the fill volumes by measuring the floating lid displacement for each tank. The semi-autonomous procedure allows for real-time QA of results and in measurement refinement by an experienced image analyst.
Once the volumetric capacity has been determined for a tank, it is then suitable for fill volume estimation using Shadow Positioning Analysis. With this approach the algorithm automatically locates tank wall shadows that are cast across the floating lid and calculates the relative displacement of the shadow from its origin to determine the floating lid depression and corresponding fill estimate.

Results and Perspective

Geospatial Insight are actively delivering clients with monthly, weekly and historical oil storage intelligence derived from submeter resolution satellite imagery for 69 key oil storage locations located across the world.
Geospatial Insight’s TankWatch service has assisted key players in the oil and gas market by enabling them to de-risk their trading strategies through improved knowledge of crude inventories at many of the worlds key storage locations.
TankWatch has continued to grow in capability with the addition of SAR analytics, enabling terminal measurement irrespective of cloud cover, which is the main challenge for optical remote sensing.

Related Info

Geospatial Insight is a leading provider of independent research derived from the analysis of satellite, aerial and drone imagery. We apply additional, sophisticated data sources and advanced technologies, including machine learning, to produce evidence-based alternative data that enables our clients to make better business decisions.
www.geospatial-insight.com

EARSC participated to the Matchmaking Event at FIDAE 2018 – Business Beyond Borders

FIDAE is the leading aerospace, defense and security exhibition in Latin America and a prime business platform in the region. The aim of the event is to create a quick and easy way for companies and clusters from the aerospace, defense and security sectors to meet potential business and cooperation partners as well as to operate internationally.

Read EARSC participation in FIDAE here

Events Spring 2018

April 2018
Start Date End Date Name Locality Country
April 23, 2018 April 26, 2018 Chania Greece
April 24, 2018
April 24, 2018 Brussels Belgium
April 25, 2018 Brussels Belgium
April 25, 2018 April 27, 2018 Ljubljana Slovenia
April 25, 2018 April 27, 2018 Libreville, Gabon
May 2018
Start Date End Date Name Locality Country
May 2, 2018 May 5, 2018 Sousse, Tunisia
May 2, 2018 May 4, 2018 Frascati Italy
May 3, 2018 Brussels Belgium
May 7, 2018 May 10, 2018 Frascati Italy
May 8, 2018 May 11, 2018 University of Zagreb Croatia
May 9, 2018 May 11, 2018 Reading United Kingdom
May 14, 2018 May 16, 2018 Punta del Este, Uruguay
May 15, 2018 Ma
y 16, 2018
Luxembourg Luxembourg
May 16, 2018 May 20, 2018 Tulcea Romania
May 17, 2018 May 18, 2018 Montpellier France
May 22, 2018 May 24, 2018 Stavanger Norway
May 22, 2018 May 23, 2018 London United Kingdom
May 24, 2018 Brindisi, Apulia Italy
May 28, 2018 May 29, 2018 Pavia Italy
May 28, 2018 June 1, 2018 Marseille France
May 29, 2018 May 31, 2018 London United Kingdom
May 29, 2018 Brussels Belgium
May 29, 2018 May 31, 2018 Belgium
May 30, 2018 May 31, 2018 Helsinki Finland
June 2018
Start Date End Date Name Locality Country
June 4, 2018 June 5, 2018 Thessaloniki Greece
June 5, 2018 June 7, 2018 Anaheim, CA USA
June 5, 2018 Berlin Germany
June 7, 2018 June 8, 2018 Prague Czech Rep.
June 11, 2018 June 12, 2018 Geneva Switzerland
June 11, 2018 June 12, 2018 Geneva Switzerland
June 11, 2018 June 15, 2018 Barcelona Spain
June 11, 2018 June 16, 2018 Longyearbyen Norway
June 11, 2018 June 15, 2018 Bonn Germany
June 18, 2018 June 22, 2018 Netherlands
June 18, 2018 June 19, 2018 Vienna Austria
June 18, 2018 June 19, 2018 ESTEC, Noordwijk Netherlands
June 18, 2018 June 23, 2018 Sofia Bulgaria
June 21, 2018 June 22, 2018 Plymouth, Devon United Kingdom
June 25, 2018 June 28, 2018 Paris France
June 27, 2018 June 28, 2018 Venlo Netherlands
June 27, 2018 June 29, 2018 Innsbruck Austria
June 27, 2018 June 28, 2018 Algiers, Algeria
June 27, 2018 June 28, 2018 Sofia Bulgaria
June 27, 2018 Brussels Belgium
June 28, 2018 Brussels Belgium
June 30, 2018 July 9, 2018 Bulgaria
July 2018
Start Date End Date Name Locality Country
July 3, 2018 July 4, 2018 Bonn Germany
July 4, 2018 July 6, 2018 Toulouse France
July 9, 2018 July 12, 2018 Chania Greece
July 10, 2018 July 18, 2018 Piedmont Italy
July 11, 2018 July 12, 2018 Chania Greece
July 14, 2018 July 22, 2018 Pasadena, California USA
July 23, 2018 July 27, 2018 Valencia Spain
July 30, 2018 August 10, 2018 Rome Italy
August 2018
Start Date End Date Name Locality Country
August 6, 2018 August 10, 2018 Sao Jose dos Campos, Brazil
August 12, 2018 August 17, 2018 Rio de Janeiro, Brazil
August 13, 2018 August 14, 2018 Amsterdam Netherlands
August 21, 2018 August 23, 2018 Denver, Colorado USA
August 28, 2018 September 3, 2018 Dar es Salaam, Tanzania
September 2018
Start Date End Date Name Locality Country
September 2, 2018 September 7, 2018 La Valletta Malta
September 5, 2018 September 7, 2018 Warsaw Poland
September 17, 2018 September 21, 2018
September 18, 2018 September 21, 2018 Antwerp Belgium
September 23, 2018 September 26, 2018 Amsterdam Netherlands
September 24, 2018 September 26, 2018 Bochum Germany
September 24, 2018 September 29, 2018 Azores Portugal
October 2018
Start Date End Date Name Locality Country
October 1, 2018 October 5, 2018 Bremen Germany
October 9, 2018 October 11, 2018 Amsterdam Netherlands
October 15, 2018 October 19, 2018 San Sebastián Spain
October 16, 2018 October 18, 2018 Frankfurt Germany
October 16, 2018 October 18, 2018 Frankfurt Germany
October 22, 2018 October 26, 2018 Alejandria, Egypt
October 22, 2018 October 26, 2018 Frascati Italy
October 23, 2018 October 25, 2018 Nigeria
October 29, 2018 October 31, 2018 Space for inspiration Bilbao Spain
October 31, 2018 November 1, 2018 Kyoto Japan
November 2018
Start Date End Date Name Locality Country
November 12, 2018 November 15, 2018 Hammamet, Tunisia
November 12, 2018 November 15, 2018 1st Conference of the Arabian Journal of Geoscience
November 19, 2018 November 21, 2018 Deqing China
November 26, 2018 November 30, 2018 Amsterdam Netherlands
November 28, 2018 November 30, 2018 Brussels Belgium
December 2018
Start Date End Date Name Locality Country
December 10, 2018 December 14, 2018 Washington D.C. USA

VDL ETG Projects, part of VDL Groep, will build the support structure for the main mirror of the Extremely Large Telescope (ELT) of ESO (European Southern Observatory) in northern Chile. The design was realised together with TNO, supported by NOVA (Netherlands Research School for Astronomy). The support structure consists of 798 supports for mirror segments, which together form the main mirror (with a diameter of more than 39 meters) of the telescope. This order, which will be delivered over a period of about five years, is worth tens of millions of euros. This represents a special achievement by Dutch industry.

Kees Buijsrogge, TNO Director of Space and Scientific Instrumentation: “TNO’s ambition is to develop innovative space and scientific instruments and systems together with industry, users and other knowledge institutes. To this end we use our experience in the field of optical instrumentation and precision mechanics for the aerospace, astronomy and semiconductor industry for the design and testing of structures that have to be positioned on a nanometre scale (one millionth of a millimetre). We are therefore proud to have contributed to this very attractive assignment for Dutch industry.”

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The book ‘Spacecraft Dynamics and Control: The Embedded Model Control Approach’ provides a uniform and hands-on approach to space engineering control problems. Published in March 2018, it introduces the Embedded Model Control methodology for the design and implementation of attitude and orbit control systems.

Interview with Luca Massotti, Spacecraft Design Engineer and book co-author, about the book and its contributions to the scientific conversation.

Luca Massotti received the Laurea degree in Aerospace Engineering from the Politecnico di Torino (Turin, I), in 2000, and the Ph.D. in Aerospace Engineering from the Aeronautical and Space Department of the Politecnico di Torino (Turin, I), in 2004. He is currently a consultant at the European Space Agency’s Earth Observation Programmes Directorate – Future Missions division, where he has worked since 2007. He is the author of co-author of more than 80 scientific publications in international journals, conference proceedings and articles on books.

How does the book contribute to this scientific conversation?

The idea is to give a holistic view of not-so-typical scientific mission design for Earth Observation. The book starts with an extensive introduction to algebra fundamentals and kinematics to later address the state-space dynamics and the EMC approach.

To do so, we define the uncertainties and their classification, the definition of the model errors, with typical design of noise estimators and the state predictors, and – of course – with examples of control laws. All of this accompanied with chapters covering the modelling of the environmental disturbances, orbital mechanics and control, attitude determination problems, and a state-of-art overview on sensors and actuators, from their mathematical formalism to commonly used products.

How do you think researchers and practitioners can benefit from this book in their daily practice?

The book provides a comprehensive view of a challenging space mission design. The existent literature focused mostly on the control theory. It misses a link with the day-by-day work of a space engineer. Our book includes numerous exercises throughout the different chapters for better understanding, training, and hands-on application.

How was your experience writing this book?

It was an exciting experience. The project started in Fall 2016, and since we have dedicated many nights and weekends to writing and reviewing the manuscript. Luckily Prof. Enrico Canuto, the book captain, is a very experienced professor who could guide us through all the steps, also putting the right pressure.

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Rezatec, the leading provider of geospatial data analytics to the Forestry sector, today announced that it is to provide its forestry attribute data products to the BC Oil and Gas Research and Innovation Society (BC OGRIS), the not-for-profit society enabling research to inform environmental matters related to oil and gas exploration and development in British Columbia.

In the area of interest, there is an extensive history of anthropogenic disturbance, particularly from oil & gas and forestry activities. Knowledge of the state of vegetation regrowth on features such as seismic lines, abandoned pipeline corridors, roads and well pads is required to prioritise restoration treatments where the rate of regeneration is currently insufficient.

Working closely with local partner Forsite, a leading provider of forest management services to government and industry in Canada, Rezatec will map the estimated tree height and density of canopy cover across a vast study area of over 80,000 km2. The resulting map will cover all anthropogenic features of interest and also the surrounding forest to provide a comparative reference of regeneration status. Existing methods to estimate regrowth in this area have provided only a coarse classification of regeneration status; the Rezatec approach will provide greater detail while also establishing a repeatable method that can be used to refresh the inventory in future years.

Rezatec algorithms process optical and radar satellite data with ground-based sensor data to deliver predictive and dynamic monitoring analysis to its customers. Access to data is provided via an annual subscription model and Rezatec’s automated and scalable products deliver substantial payback for customers across areas of interest that range in size from a square mile to millions of acres.

A BG OGRIS spokesperson said, “The joint industry-BC government research team funded by BC OGRIS are keen to utilize the latest in satellite derived intelligence to understand the state of vegetation recovery on disturbed sites in northern BC. This technology has the potential to focus our restoration efforts and ensure investments achieve maximum benefit to caribou habitat.”

Cameron Brown, Strategic Planning Forester & Team Leader at Forsite commented: “Forsite is really excited about the innovative capabilities that satellite data can now provide to the forestry sector and with Rezatec as our partner, we can enable our clients to be more productive, more efficient and more profitable.”

“Rezatec is now the world’s number one provider of geospatial data analytics to the forestry sector and our expansion into Canada continues to support our growth and industry proven tools”, stated Tim Vallings, Vice President of Global Resources, at Rezatec.

In the forestry sector, Rezatec also provides geospatial data services for species identification mapping, mensuration and forest inventory management, forest health monitoring and wind blow mapping. Rezatec users also include major utilities, agribusinesses, large forestry groups, consulting partners and governments worldwide.

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