News

Kleos Space S.A. (ASX: KSS, Frankfurt: KS1) has partnered with GSTS to provide enhanced Maritime Domain Awareness capability to GSTS’s OCIANA product suite.

GSTS (Global Spatial Technology Solutions) is a wholly-owned Canadian company that provides innovative decision-support solutions for the maritime market through the use of Artificial Intelligence (AI) and Big Data analytics. GSTS predictive technologies empower future-friendly decision-making to help the maritime, security, logistics and service sectors navigate tomorrow… today.

Kleos data will provide a valuable addition to GSTS services and data solutions by supporting vessel detection, classification and identification.

Kleos’ Scouting Mission satellites that are in Chennai, India, awaiting launch on Indian Space Research Organisation (ISRO) PSLV C49, will detect and geolocate maritime radio frequency transmissions to provide global activity-based intelligence, enhancing the intelligence, surveillance and reconnaissance (ISR) capabilities of governments and commercial entities when Automatic Identification System (AIS) is defeated, imagery unclear or targets out of patrol range.

Kleos’ satellites will be in a 37-degree inclination orbit, covering crucial shipping regions for defense and security customers including the Strait of Hormuz, South China Sea, Australian coast, Southern US coast as well as the East and West African coast.

The Memorandum of Agreement signed by Kleos and GSTS allows for investigating opportunities to collaborate and develop marketable solutions; and to implement a scenario and demonstration to validate the technical feasibility and usability of collaborative solutions with the initial data licence procured for demonstration and assessment purposes.

Andy Bowyer, the Kleos CEO, said the company’s satellites and data will enhance GSTS capabilities when fused with other data sets in their innovative OCIANA environment, assisting in the goal to provide greater insights, detecting illegal activities and threats for their customers.

Richard Kolacz, the GSTS CEO, commented that Kleos will add another powerful data set to the OCIANA product suite to further enhance our maritime situational awareness capability and improve the firm’s ability to detect and predict vessel activity to support defence, civil and commercial solutions.

A student-led satellite group from the University of Edinburgh has signed a Memorandum of Understanding (MoU) with Responsive Access, a launch brokerage firm that participates in the European Space Agency Business Incubation program, with a view to procuring a launch opportunity.

Student satellite group Asteria are hosted at Edinburgh’s Bayes Centre innovation hub. Their team is working on the production of a cubesay in order to monitor the likes of vegetative blight and flooding, as well as a new mission entitled “Remote Sensing of Air Pollution: New Insights Into Seasonal Respiratory Diseases,” which started two months ago in light of the COVID19 pandemic.

By partnering with Responsive Access, the project’s chance of finding a swift and suitable launch opportunity will increase, while the group intend to benefit from the various mission management processes provided by the space brokerage company from their base at the Higgs Centre for Innovation, part of the Royal Observatory site in Edinburgh.

Asteria was founded last year to address the motivated interests in data science and space engineering among Edinburgh’s students and academics, with a view to developing solutions around matters of the environment and the United Nation’s Sustainability Development Goals (UNSDGs). They plan to achieve their aims using purpose-built satellites, state-of-the-art sensors, robust system designs and advanced post-processing.

The cubesat project is supported by the University Fellow for Space and Satellite Analysis, as well as academics from the Schools of Geosciences, Informatics and Engineering.

Their base at the Bayes Centre allows them to work alongside cutting-edge robotics and artificial intelligence developments, as part of an innovation hub that was opened in 2018 by Her Royal Highness, The Princess Royal, after receiving funding through the Edinburgh City Deal. Edinburgh is currently home to several space data organizations capturing and analyzing downstream data for a variety of reasons, including the monitoring of environmental change, food and agricultural stock and maritime channels.

The data-driven innovation taking place in the city is part of a wider space ecosystem in the country that has seen more than 100 satellites built in Glasgow, rocket manufacturers developing launch systems and no-less than five developing spaceport sites in areas such as Prestwick and Scotland’s Highlands and Islands.

Responsive Access Chief Executive, Andrew Paliwoda, stated that the company’s team is delighted to have been selected to help move Asteria’s exciting project toward launch. The opportunity to work with leading UK universities provides the firm with a valuable way to fine-tune the Responsive Access offering, which is based around the delivery of low-cost launch via the firm’s launch vehicle partners. It also lets for the testing of the ancillary services that can be offeedr to clients, from environmental testing and certification for satellites, through to assistance with insurance and license paperwork.

The partnership with Asteria marks the further milestone for Responsive Access, following their announcement last month surrounding their support of GU Orbit, based at the University of Glasgow, with their mission preparation.

Ani Vasudevan, Managing Director at Asteria, said the organization is thrilled to be collaborating with Responsive Access for the launch of the team’s first satellite, Oracle 1. Developing a satellite from mission planning to launch is something that very few, if any, students in the UK have exposure to, yet many are enthralled by the potential. This is true in a time where student projects are becoming an increasingly vital aspect of learning at Universities. This partnership with Responsive Access will help Asteria nurture that excitement in space for many years and many satellites to come.

NetSat: Four satellites in formation at an altitude of 600km.

Four NetSat smallsats will autonomously control — for the first time — a three-dimensional configuration in space to enable new observation methods for climate research as well as for innovative future telecommunication systems.

To capture an object without blind spots, it needs to be imaged from different directions and by sensor data fusion, from which information is then derived. In NetSat, four nano-satellites will demonstrate relevant techniques for optimum self-organization of a satellite formation in three-dimensional space. This opens new perspectives in Earth Observation (EO) as well as for future telecommunication networks. In addition, there are strategies for collision avoidance.

The four smallsats (each one possesses a mass of 4 kg) are currently being finalized at the research center Zentrum für Telematik (ZfT) in Würzburg (Germany. In August of 2020, they will be delivered to orbit via a Russian Soyuz-rocket at a 600 km altitude.

The objectives of NetSat are to produce scientific breakthroughs for control of the three-dimensional configuration to provide optimum observation conditions. For this purpose, each satellite carries a highly efficient, electric propulsion system (developed by the Austrian company, Enpulsion) and a high-precision attitude control system composed of extremely small and power-efficient reaction wheels (from S4–Smart Small Satellite Systems and Wittenstein Cyber Motors).

The telecommunication link between the satellites supports data exchange on position, attitude and planned maneuvers. In combination with advanced control methods, the coordination of these four smallsats can be realized. While the long-term task planning is done by the space control center in Würzburg, the reaction on deviations and the fine tuning of the formation is handled autonomously by the smallsats onboard software.

The NetSat mission is sponsored by an ERC Advanced Grant and by the Bavarian Ministry of Economics. In 2012, the European Research Council (ERC) honored Prof. Dr. Klaus Schilling with the highly valued European research award to promote scientific pioneer research in space technology and control systems. The independent research, institute Zentrum für Telematik (ZfT) in Würzburg, was selected as the host institution for NetSat due to that organization’s outstanding test infrastructure for multi-satellite systems. (https://erc.europa.eu/projects-figures/stories/small-cooperative-future-spacecraft-systems )

The NetSat results will be directly transferred to the follow-up smallsat Eo missions: TIM – Telematics International Mission:

• The ZfT coordinates, within the RLS partnership from 5 continents, the implementation and use of 9 satellites for innovative 3D-EO for volcano eruptions, earthquakes and environment monitoring. (launch expected in 2021; www.rls-sciences.org/small-satellites.html)
• In CloudCT, the self-organization of 10 smallsats will be used to characterize, via computed tomography methods, the interior of clouds, obtaining… for the first time… important parameters for climate models. (launch expected to occur in 2022; cordis.europa.eu/project/id/810370)

Measurement networks composed of smallsats will provide quickly improved decision support for emergency situations as well as address challenges in climate change.

Integration of a NetSat satellite at Zentrum für Telematik.

Equatorial Space Systems has signed a Memorandum of Understanding (MoU) to use the facilities of Southern Launch Australia for their upcoming, suborbital, mission program.

The Singapore-based launcher company, notable for their hybrid propulsion systems, last month revealed the Dorado sounding rocket is capable of delivering up to 25 kilograms of payload beyond the boundary of space.

Southern Launch is providing infrastructure and logistics to meet the increasing global demand for orbital and sub-orbital launches of satellites and space payloads. With two multi-user launch sites located in South Australia, having good year-round weather and minimal air and maritime traffic, customers benefit from greater launch window availability and improved launch schedule flexibility.

The company describes themselves as a space tech startup developing innovative technologies for space launch and exploration activities. With proprietary hybrid propulsion, the firm’s technology allows for less expensive, safer and greener alternatives to existing solutions in orbital launch systems as well planetary landing missions.

Aiming for the first orbital launch by 2022, Equatorial Space Systems has previously been crowned the winner of MBRSC Innovation Cup 2018 in Dubai, identified as a Top 500 Deep Tech Startup by Hello Tomorrow 2018 and the Most Promising Startup at the NAMIC Innovation Day 2019.

Simon Gwozdz, the Founder and CEO of Equatorial Space Systems, said when he was a child, he always wanted to take the ‘Indian Pacific’ train journey across the Nullarbor Plain of Southern Australia. The prospect of sending the company’s first rockets into space from its very edge is incredible — Equatorial Space Systems is looking forward to operating from the Southern Launch Australia’s facilities in the very near future.

Lloyd Damp, Founder and CEO of Southern Launch, said the company is delighted to be working with Equatorial Space Systems and their cutting edge HRF-1 hybrid rocket propulsion technology. The firm looks forward to fully supporting their suborbital mission from the Koonibba Test Range in South Australia and demonstrating to the world these emerging capabilities for safe access to space.

Virgin Orbit conducted a launch demo of the company’s air-launched rocket on May 25 in the skies over the Pacific Ocean, just off the California coast.

The company successfully completed all of the pre-launch procedures, the captive carry flight out to the drop site, clean telemetry lock from multiple dishes, a smooth pass through the racetrack, terminal count, and a clean release. After being released from the carrier aircraft, the LauncherOne rocket successfully lighted its booster engine on cue — the first time the company had attempted an in-air ignition.

An anomaly then occurred early in first stage flight, and the mission safely terminated. The carrier aircraft Cosmic Girl and all of its crew landed safely at Mojave Air and Space Port, concluding the mission.

The company’s next rocket is in final stages of integration at their Long Beach manufacturing facility, with a half-dozen other rockets for subsequent missions not far behind. Virgin Orbit’s decision to begin production of multiple rockets well in advance of this test flight will enable the team to progress to the next attempt at a significantly faster pace, shortly after making any necessary modifications to the launch system.

Dan Hart

Virgin Orbit CEO Dan Hart said that the team performed their prelaunch and flight operations with incredible skill. Test flights are instrumented to yield data and we now have a treasure trove of that. We accomplished many of the goals set for this flight, though not as many as all would have liked. Nevertheless, this is a big step forward.  The Virgin Orbit engineers are already poring through the data. and the next rocket is waiting. The company will learn, adjust and begin preparing for the next test, which is coming up soon.

Astroscale Holdings Inc. (“Astroscale”) has opened a Series E funding round and has secured I-NET CORP. (I-NET), a leading Japanese data center provider, as its first investor for an undisclosed amount.

The additional financing will be used to broaden Astroscale’s current business services and achieve the company’s mission of securing a sustainable orbital environment.

Despite the many complications brought on by the onset of COVID-19, Astroscale has shown steady growth and success in the first half of 2020. In January, the company was awarded a grant of up to US $4.5 million from the Tokyo Metropolitan Government’s “Innovation Tokyo Project,” and in February, Astroscale was selected as commercial partner for Phase I of the Japan Aerospace Exploration Agency’s (JAXA) first debris removal project.

Astroscale’s offices in the United Kingdom and United States continue to make key additions to their management and technical teams and are well positioned to service future commercial and institutional customers. In addition to building technical capabilities and securing contracts, Astroscale continues to work with industry and government representatives to develop standards and best practices for safe and sustainable satellite servicing and debris removal.

Astroscale’s success in the first half of the year is expected to continue. Notably, in the later half of 2020 Astroscale is on track to launch its End-of-Life Services by Astroscale-demonstration (ELSA-d) mission, the world’s first demonstration of commercial orbital debris removal.

The Series E funding round will close by the end of 2020.

Nobu Okada, Founder and CEO of Astroscale, stated that daily lives have changed drastically and all have come to depend on satellite services at a whole new level during this unprecedented global crisis. Now, more than ever, it is evident that we need to take action to protect assets in space and, with the broadening of Astroscale’s business services, the company will be even better positioned to meet the challenges of orbital sustainability. The firm is grateful to I-NET as the first investor of this Series E funding round.