News

There are, and will be, many challenges for the Kleos Space S.A, launch team that has arrived in India for final preparations of their upcoming launch, targeted for the first half of November 2020. The team is preparing for the launch of mission satellites for Kleos’ four Scouting Mission nanosatellites aboard PSLV C49 from the Satish Dhawan Space Centre.

Despite the unprecedented 2020 challenges of the launch industry to follow schedule, Kleos Space’s Gavin Bowyer supported by Ed Stevens from In-Space and mission manager Marcy Rugland from Spaceflight arrived in Chennai yesterday at 3:00 am local time.

The team will isolate in quarantine for six days on their arrival and remain on the launch site in facility barracks. The Satish Dhawan Space Center is nestled in the jungle, where the team will face additional challenges as humidity is typical for the climate during this period of the year.

Kleos’ Gavin Bowyer said before leaving, “In the current pandemic situation, traveling is an obstacle we are willing to overcome. Irrespective of our mission, the challenge on site will nevertheless be to stay in good physical conditions and avoid being bitten by Mosquitoes!”

Over a further week the team will undergo a system checkout and mechanical inspection prior to battery charging, and fueling. The satellites will be armed for flight, inserted into their dispensers and finally integrated onto the PSLV launch vehicle.

Gavin Bowyer is the MAIT (Manufacturing, Assembly, Integration and Test) Manager at Kleos Space having joined the Company at its formation from UK Space Company Magna Parva where he has overseen and built equipment for Mars and Mercury exploration missions over a 10+ year Space career.

Ed Stevens is the Director of Space Systems at In- Space Missions, a Space as a Managed Service company, where he leads the design, build and operation of the company’s satellites. Ed brings his 20+ years of space experience in design, build and launch to bear in providing support to Kleos in delivery of the Scouting Mission nanosatellites.

Spaceflight Mission Manager Marcy M. Rugland is an experienced engineering leader with a passion for commercial space and aerospace. As a Mission Director, she has overall technical and schedule responsibility for the KSM, meaning from the mission assignment to post-launch, including onsite launch campaign team leadership. Marcy also volunteers as a member of the steering committee of “Ladies who launch”.

Andy Bowyer, CEO of Kleos Space added, “We are immensely proud of the entire team, launching satellites is always a huge challenge and the COVID-19 pandemic has made logistics and travel even more difficult, their dedication to getting our Scouting Mission satellites into orbit and collecting data to deliver enhanced situational awareness for our customers has been fantastic.”

Spaceflight, the satellite rideshare and mission management provider, confirmed earlier this week that the launch of Polar Satellite Launch Vehicle (PSLV), which is an expendable medium-lift launch vehicle designed and operated by the Indian Space Research Organisation (ISRO) is on track to occur as previously announced within the first half of November 2020.

Kleos Scouting Mission satellites are the foundation of Kleos’ future constellation, which will deliver unprecedented situational awareness at sea with near real-time coverage over key regions of maritime interest including the Strait of Hormuz, South China Sea and African coast.

On Sunday, October 18, at 8:25 a.m. EDT, 12:25 UTC, SpaceX launched 60 Starlink satellites from Launch Complex 39A (LC-39A) at Kennedy Space Center in Florida.

Falcon 9’s first stage previously supported Crew Dragon’s first demonstration mission to the International Space Station, launch of the RADARSAT Constellation Mission, and three Starlink missions this year.

Following stage separation, SpaceX landed Falcon 9’s first stage on the “Of Course I Still Love You” droneship, which was stationed in the Atlantic Ocean. This was the 6th landing for this Falcon 9 first stage, teh 62nd successful recovery of a Falcon 9 first stage and the 32nd landing on this particular droneship.

The Starlink satellites deployed approximately 1 hour and 3 minutes after liftoff.

As this network is still in its early stages, the Starlink team continues to test the system, collecting latency data and performing speed tests of the service. The team also recently installed Starlinks on the Administrative Center building and about 20 private homes on the Hoh Tribe Reservation, located in a remote area of western Washington State where internet access is limited or completely unavailable. Learn more about the Hoh Tribe’s experience at this direct infolink…

Sateliot is advocating to the space and telecommunications industry for smallsat technology to make the democratization of 5G possible in any corner of the planet.

The company, which will be launching their LEO smallsat constellation next year to offer a global and massive IoT service, has in recent days participated alongside companies from mobile operators, network equipment manufacturers and space industry giants in the meetings of the 3GPP, the body responsible for defining the new 5G standard and the maintenance and evolution of the previous 2G, 3G and 4G generations. Sateliot’s aim is to reach a consensus on the integration of satellite networks and IOT protocols into the 5G standard.

The space sector is experiencing a new paradigm in which sizes, costs and times are being reduced, giving rise to a genuine ‘democratization of space’, with more competitive innovation cycles and more possibilities of deploying not one, but tens or hundreds of satellites progressively to provide services on a global scale.

This smallsat revolution has led Sateliot to implement its business model and propose its roaming service to telecommunications operators, offering them the capacity of its smallsats, which act as telecommunications towers from space as an extension of coverage where terrestrial networks cannot reach.

Thus, space is configured as one of the great motors of the economy due to its high added value, its capacity to generate employment and large investments that will be realized over the coming years. In fact, in Spain alone in 2019, this sector moved nearly one billion euros and contributed 0.5% to the national GDP. Moreover, Spain is one of the top 5 European countries by number of employees in this industry, according to TEDAE figures.

Sateliot is the first satellite telecommunications operator that will provide global and continuous connectivity to all the elements that make up the universe of the Internet of Things (IoT) – such as the connected car or house – under the 5G protocol, according to the firm. Thanks to a constellation of the latest generation of smallsats, located at low altitude and acting as mobile towers, Sateliot is the perfect complement to large telecommunications companies by providing them with the necessary infrastructure to deliver terrestrial technologies that are not currently served.

Executive Comment

According to Marco Guadalupi, Co-Founder and CTO of Sateliot, “Our participation in the 3GPP meetings, together with telecommunications and space giants, puts us in the front line to promote our proposals in the development of the 5G IoT standard, where the possibilities of nanosatellites are almost infinite.”

mPower Technology has announced that the firm’s DragonSCALES solar cell prototype has completed integration and testing on a Sparkwing on-orbit solar array technology demonstrator in preparation for inclusion on Momentus’ Vigoride transfer vehicle launch that is scheduled to occur in the fourth quarter of 2020.

DragonSCALES was developed to provide a low-cost, voltage-adjustable, high packing factor and lightweight solar power module that streamlines panel assembly and is designed for the needs of commercial LEO (low earth orbit) satellite constellations.

The Sparkwing team has introduced a groundbreaking new approach towards low cost, fast-delivery solar arrays for smallsats by offering a catalogue approach for standardized solar array models, similar to the automotive industry. The team is interested in mPower’s solar cell technology because of its potential to offer a unique combination of cost and performance benefits for next-gen solar arrays.

DragonSCALES enable disruptive, new approaches to solar applications by leveraging small, advanced silicon cells integrated on a flexible substrate in a patented, highly interconnected architecture. They provide unprecedented improvements in system cost, weight, flexibility, resilience, and ease of installation and system integration.

For emerging satellite missions, primes are continuously searching for alternative photovoltaic assembly (PVA) solutions that bring more power at lower price points and shorter delivery schedules. Silicon-based DragonSCALES solutions provide a viable, tested alternative for space power applications with advanced architecture, unparalleled performance, streamlined production and lower cost per watt.

Executive Comments

“mPower is disrupting the space power market with its alternative approach to solar power,” said Kevin Hell, President and CEO of mPower Technology. “The Sparkwing team needs a resilient, flexible, cost-effective solar solution for their innovative smallsat solar array product, and DragonSCALES is the perfect fit given its ease of integration and unique ability to meet customized mission requirements.”

“We are very interested in the launch of this demonstrator together with mPower and Momentus, and looking forward to the in-orbit results. At Sparkwing, we are always looking for cutting-edge technologies that will change the approach to space power in subsequent missions. We’re closely following the mPower development.,” said Marloes van Put, who is leading the Sparkwing initiative.

Last month, Rocket Factory Augsburg AG (RFA) signed an MoU with Andøya Space to implement a launch site for the RFA ONE launch system to provide end-to-end launch services for smallsats.

Andøya Space is developing the new launch complex on Andøya island, 35 km south of their existing sub-orbital launch site. This new site will provide operators of vehicles in the 1.5t payload class with independent integration facilities and access to two launch pads with necessary support infrastructure.

Rocket Factory, a start-up backed by the German satellite manufacturer OHB as a strategic investor and Munich-based venture capital firm Apollo Capital Partners, currently is developing a launcher system called RFA ONE for small satellites with a payload performance of up to 1.500kg to low earth orbit (LEO). The first launch is scheduled for 2022. The company recently qualified the upper stage tank system during cryogenic tests and is currently preparing hot-fire tests of the main engine in Esrange, Sweden.

Executive Comments

“This partnership is pivotal, it allows RFA and Andøya to launch the first satellite into orbit from continental Europe with an European launcher,” said Dr. Stefan Brieschenk, Chief Operation Officer of RFA.

Jörn Spurmann, Chief Commercial Officer of RFA, added, “Andøya Space is the most advanced micro launcher spaceport project in Europe. We believe to have found the best partner to start with the delivery of our end to end launch service to our customers in 2022.”

“We are convinced that Rocket Factory is one of the most progressive SSLV companies in Europe. Having them commit to Andøya Space as a partner is of great significance to us. We are developing an efficient multi-user launch site in Norway, and Rocket Factory has the technical capabilities, the same innovative culture, and the enthusiastic team we need in a partner to help us take the spaceport initiative forward. We look forward to supporting them in their missions to polar- and sun synchronous orbits,” said Odd Roger Enoksen, CEO and President of Andøya Space.

Spaceflight Inc. will execute two launches on two different continents in a matter of weeks; one aboard a Rocket Lab Electron and the other on NewSpace India Limited’s (NSIL) PSLV — for both missions, Spaceflight arranged the launch and is providing mission management and rideshare integration services for its customers Canon Electronics, Kleos Space and Spire.

The next mission, dubbed RL-5 by Spaceflight and ‘In Focus’ by Rocket Lab, will launch from Rocket Lab’s Launch Complex 1 at the southern tip of Mahia Peninsula in New Zealand. The launch window opens October 20 at 5:14pm ET.

Spaceflight is coordinating the launch of Canon Electronics Inc.’s CE-SAT-IIB, a technical demonstration microsatellite that will add to its Earth-imaging satellite constellation. The payload has three cameras onboard with different resolutions, fields of view and sensitivities, which will demonstrate its capabilities by taking images of the Earth. This is Canon Electronics’ second launch with Spaceflight.

Spaceflight’s next mission is slated to lift off on a PSLV-C49 rocket during the first half of November from India’s Satish Dhawan Space Center, SDSC SHAR. It will carry four smallsats from Kleos Space and four from Spire.

The Kleos 6U satellites make up the company’s Scouting Mission, which will be foundational in its radio frequency monitoring constellation. The smallsats are the cornerstone of a 20-system constellation that will geolocate VHF transmissions from marine vessels to provide global activity-based intelligence data as a service.

Spaceflight also manifested four Spire Global Lemur-2 3U cubesats to add to its constellation of small, inexpensive satellites in operation for Earth observation, maritime monitoring, communications, meteorology and science.

In addition to the RL-5 and PSLV-C49 missions, Spaceflight is also preparing for the launch of SXRS-3 which will debut Sherpa-FX, its first orbital transfer vehicle (OTV). The SpaceX rideshare mission is scheduled for no earlier than December 2020 and will carry 16 spacecraft managed by Spaceflight. Sherpa-FX is the first in Spaceflight’s innovative Sherpa-NG (next generation) portfolio of vehicles to fly as the company delivers cost-effective, “last mile” service to its customers on orbit.

Executive Comments

“We are thrilled that the launch date of the Kleos Scouting Mission is close at hand and that with a successful launch of PSLV-C49 we will be able to start to provide RF geolocation data products to our waiting global customer base,” said Andy Bowyer, CEO of Kleos Space. “From there we start the deployment of our constellation of Kleos satellites in the middle of 2021 with Spaceflight onboard a SpaceX Falcon 9 launch.”

“We strive to be a comprehensive space transportation company continuously developing innovative solutions to go above and beyond to meet our customers’ — and the industry’s — evolving needs,” said Grant Bonin, senior VP of business development at Spaceflight. “The Sherpa-FX vehicle and our recent multi-launch agreements are prime examples of how we’re innovating to add more flexibility into our offerings. It allows us to get satellites where they need to be, when they need to be there, which is the ultimate goal.”

Since its founding, Spaceflight has launched more than 300 satellites and executed 32 rocket launches, establishing itself as the leading rideshare service provider. Spaceflight works with a large portfolio of launch vehicles, including Falcon 9, Antares, Electron, Vega, and PSLV and has recently expanded its global portfolio of launch vehicles to include NSIL’s SSLV, Relativity’s Terran 1 and Firefly’s Alpha, in order to best fulfill customers’ specific mission needs.

RBC Signals has announced Aurora Propulsion Technologies has engaged the company for satellite communication services — the agreement gives Aurora Propulsion Technologies access to the RBC Signals global ground station network in support of its impending AuroraSat-1 mission.

Aurora Propulsion Technologies specializes in creating scalable solutions and services for the small spacecraft movement and lifecycle control. The company’s AuroraSat-1 mission is a cubesat demonstration mission and co-development project with SatRevolution which will provide proof of concept for attitude and orientation control. In addition, the satellite will also demonstrate Aurora Propulsion Technologies’ Plasma Brake technology for satellite de-orbiting. The satellite is scheduled to launch in December 2020 onboard a SpaceX Falcon 9 rocket.

Executive Comments

“RBC Signals is proud to provide space communications support to Aurora Propulsion Technologies for their upcoming AuroraSat-1 mission,” said Christopher Richins, CEO of RBC Signals. “This is an exciting demonstration mission to support with our global network.”

“The RBC Signals offering is both a flexible and cost-effective means for us to easily communicate with AuroraSat-1,” noted Perttu Yli-Opas, CTO with Aurora Propulsion Technologies. “We are happy to be able to rely on experts for these services so we can focus our attention on other key aspects of the mission.”

Telesat U.S. Services, LLC, a wholly owned subsidiary of satellite operator Telesat, has been awarded a contract by DARPA (Defense Advanced Research Projects Agency) for the development and on-orbit demonstration of commercial LEO spacecraft buses in a LEO constellation network with robust low-latency communications features as part of DARPA’s Blackjack program.

Following Telesat’s initial 2018 contract for system engineering and interface definition under the Blackjack Phase 1 program, Telesat U.S. Services will develop and demonstrate the Blackjack Phase 2/3 Track B technology, including on-orbit testing the capabilities of Optical Inter-Satellite Links (OISLs).

As part of Phase 2, Telesat U.S. Services will deliver two spacecraft buses to DARPA in less than one year for a “risk reduction” flight to test OISL communications with government payloads in orbit and to demonstrate OISL interoperability with different hardware. The Phase 2 base contract represents an $18.3 million program for Telesat U.S. Services. Subsequently, additional Telesat LEO spacecraft may be procured to fully populate the Blackjack constellation, which represents a total contract value of up to $175.6 million if all options are exercised.

The Blackjack program is a demonstration of LEO satellites in hybrid commercial- government constellations offering highly resilient space systems, global persistence, low latency communications and rapid technology refresh. These enabling objectives will be accomplished by leveraging commercial space technologies including commoditized spacecraft buses, ground infrastructure and user segments at unprecedented low costs.

The company said the Telesat LEO constellation includes a number of distinctive features that align with the Blackjack program vision, including spacecraft buses with native OISL capability, mesh networking, onboard processing, and a full global network architecture backed by global priority spectrum allocations.

Executive Comments

“This next phase of the Blackjack program will showcase the powerful capabilities that commercial LEO networks bring to a hybrid architecture for government space communications,” said Don Brown, General Manager, Telesat U.S. Services. “With OISLs and advanced networking native to the Telesat LEO constellation architecture, we are uniquely positioned to deliver interoperable mesh connectivity between government and commercial constellations. We look forward to continuing our work with DARPA to prove out the game-changing nature of hybrid commercial- government networks.”

The Swedish government has made the decision to establish the capability to launch smallsats from the Esrange Space Center in northern Sweden.

This announcement is the third step in an extensive modernization of the infrastructure at Esrange to meet the growing demand of testing and launching capability in the space sector. Swedish Space Minister Matilda Ernkrans announced this decision during the inauguration of a new testbed facility for next generation rocket technology at Esrange.

Esrange Space center is already one of the most active and versatile launch sites in the world and the latest decision allows SSC to proceed with its goal to be able to launch small satellites into orbit by 2022.

The announcement follows the overall ambition defined in the Swedish space strategy decided upon in 2018. The strategy underlines the importance of further developing Esrange in order to fully use its potential, strengthening Sweden’s position as a prominent space nation within the European and global space sector.

The new testbed at Esrange provides a platform for European and global space sector to develop next generation rocket technologies. This will now be supplemented with additional infrastructure needed for launching small satellites from Esrange.

The first rockets tests will be conducted by ISAR and RFA later this autumn, both already established at the site. The European Space Agency’s reusability programme Themis will conduct its first reusability test flights in 2022 from Esrange, in a collaboration between SSC and ArianeGroup supported by ArianeWorks (an innovation unit formed up by the French Space Agency CNES and ArianeGroup). SSC’s ambition is to launch the first satellites in 2022.

Executive Comments

“This means that Sweden will be one of the very few countries with capability to launch small satellites. We are very proud of having taken this decision,” said the Swedish Space Minister during her visit to Esrange.

“We are pleased that the Swedish government has now decided to establish the capability to launch satellites from Esrange. The decision means that Sweden will become a launching state, providing a capability that only a few countries have, of great importance for research, technology development and expanded international collaboration,” said Stefan Gardefjord, CEO at SSC.

ANGELS, France’s first industrial smallsat, extends the scope of space IoT and is five times more powerful and 10 times smaller than its predecessors — ANGELS has been designed to address the current challenges of New Space: miniaturization, scaled-up performance and very low consumption.

ANGELS is opening up its services to current users and offering IoT players premium access to this new connectivity. ANGELS gives a first taste of the opportunities provided by Kinéis, the first constellation of European smallsats dedicated to IoT.

Carrying a state-of-the-art ARGOS instrument, ANGELS is supported by CNES and manufacturers such as Thales Alenia Space, HEMERIA and Syrlinks.

ANGELS is so sensitive that transmitters on the ground can reach it with a transmission power of just 100 mW, about a fifth of the power needed by current ARGOS transmitters. It also provides access to a new frequency band, boosting the capabilities of the seven satellites in the current system. These major innovations will enable users to extend the battery life of their transmitters and reduce their size and weight.

Data from the 20,000 transmitters are currently processed by the entire system, a figure that will increase to several million by 2030. For biologists, who have been using the ARGOS system with CLS for more than 40 years, this means that their studies can last longer and can include new, smaller species through suitably miniaturized transmitters.

The addition of ANGELS (ARGOS Neo on a Generic Economical and Light Satellite) to the ARGOS satellite fleet, a world reference in the collection of transmitter data for the study and protection of the environment, offers new data collection capabilities. The ARGOS Neo instrument is the first of a new generation: this technological wonder has passed the challenge of miniaturization by being ten times lighter (2 kg) and three times more energy-efficient than previous generations.

Executive Comments

“All the innovations developed on board of the satellite in orbit has immediate benefits for users. In practical terms, this new instrument allows the transmitters to become smaller and lighter, which opens up the range of objects inside which they can be fitted. While the ANGELS model already offers exceptional performance, the 25 similar nanosatellites of the future constellation will meet even more demanding specifications,” explained Alexandre Tisserant, CEO of Kinéis.

Caroline Laurent, CNES’s Director of Orbital Systems, remarked, “The opening of new services and the inclusion of ANGELS in the ARGOS satellite fleet represent a new milestone in the ARGOS system success story. This was made possible thanks to the unique partnership between CNES, Thales Alenia Space, Syrlinks and HEMERIA. ANGELS is the symbol of French New Space: innovative working methods in action. Designed, developed, manufactured and qualified in record time, ANGELS announces the starting point for the marketing of a range of nanosatellites weighing less than 50 kg. It is carrying ARGOS Neo, itself the precursor of a new generation of low-cost, highly miniaturized instruments.”

Benoit Broudy, VP of the Navigation business at Thales Alenia Space in France, added, “We are proud to have supplied the ARGOS Neo instrument, and of its successful commissioning on ANGELS. It represents an important milestone in Thales Alenia Space’s New Space and innovation approach. The ARGOS system is the global benchmark in satellite location and data collection. Instrument miniaturization offers new spaceflight solutions such as nanosatellite constellations and creates new opportunities in satellite navigation and the Internet of Things. We are happy to share the success of the ANGELS mission, which should spur the development of a French nanosatellite sector to address the booming New Space market.”

Nicolas Multan, CEO of HEMERIA, reported, “I am delighted and proud of the progress made since 2016, a time when questions were being asked about ‘how cube- and nanosats can be turned into industrial products with promising performance’. I think we can say that ANGELS clearly demonstrates French know-how in the New Space area, from CNES labs all the way through to the industrial sector, which we are working to unite. This demonstrator, which is now operational, is good news for the constellation of 25 satellites soon to be launched, which will make Kinéis a unique player in tomorrow’s IoT world.”

Christophe Vassal, President of CLS, provider of ARGOS environmental services, mentioned, “According to WWF’s latest Living Planet Report, populations of vertebrates – fish, birds, mammals, amphibians and reptiles – fell by 68% between 1970 and 2016. ANGELS and the forthcoming Kinéis constellation are flying strategic technologies for improving knowledge and protection of biodiversity. ANGELS therefore opens the path to a bright future for wildlife conservation, but also for the sustainable management of marine resources with the monitoring of traditional fishing vessels, or the study of our Blue Planet with the establishment of a digital twin of the ocean. From now on, any sponsor of a project offering connected solutions for the environment can obtain assistance in developing applications. The Kinéis and CLS teams will provide technical and commercial support to all pro-planet players in the creation of novel space applications.”

Guy Richard, President and CEO of Syrlinks, said, “Syrlinks is proud to have taken part in designing the ARGOS Neo miniaturized payload with Thales Alenia Space. We contributed our expertise in space radio communications, digital signal processing and software, and our mastery of the New Space system. Syrlinks also provided ARGOS Neo with an ultra-stable reference clock, essential for locating ARGOS transmitters. Developing payloads is fully in line with the company’s strategy and allows us to diversify our range of satcom products with more advanced features.“