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The Defense Advanced Research Projects Agency (DARPA) Blackjack program has awarded Northrop Grumman Corporation (NYSE: NOC) a contract for Phase 2 development of an advanced, software-defined positioning, navigation and timing (PNT) payload, with options to build units destined for space flight.

Northrop Grumman’s advanced, software-enabled PNT payload has been developed to keep forces on target in difficult environments against advanced threats – even if the availability of existing satellite navigation systems are degraded or denied. The PNT payload work is led by Northrop Grumman’s Future PNT Systems Operating Unit in Woodland Hills. The team supports the DARPA Tactical Technology Office’s goal of achieving capable, resilient and affordable national security space capabilities from LEO.

The PNT payload features Northrop Grumman’s Software Enabled Reconfigurable Global Navigation Satellite System (GNSS) Embedded Architecture for Navigation and Timing (SERGEANT) capability. The Phase 2 development effort is valued at $13.3 million if all options are exercised through emulation, critical design and build.

“Northrop Grumman’s software-defined Positioning, Navigation and Timing technology will offer military users an agile new signal from LEO that is not dependent on existing satellite navigation systems,” said Dr. Nicholas Paraskevopoulos, chief technology officer and sector vice president, emerging capabilities development, Northrop Grumman. “Warfighters depend on assured PNT for traditional missions like force projection and joint operations, but also for emerging autonomous and distributed missions.”

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OneWeb has successfully launched 34 of their constellation satellites via Arianespace from the Baikonur Cosmodrome in Kazakhstan.

This latest, successful launch brings OneWeb’s total on-orbit constellation to 322 satellites, nearly half of the company’s entire 648 LEO satellite fleet that will deliver high-speed, low-latency global connectivity.

The successful launch builds on the strategic distribution partnerships and agreements across a wide array of providers and businesses, including several earlier this month, including with AT&T, Hughes Network Systems and Peraton. These agreements, along with others struck earlier with partners including Alaska Communications, BT, and Northwestel, are aimed at bringing improved digital communication services to some of the hardest to reach parts of the world.

Liftoff occurred on September 14 at 7:07 p.m., BST. OneWeb’s satellites separated from the rocket and were dispensed in nine batches after 3 hours 45 minutes into the flight, with signal acquisition on all 34 satellites confirmed. With this launch, Arianespace also celebrates passing the mark of 1,000 satellites successfully launched to space.

OneWeb remains on track to start service this year at the 50th parallel and above with its constellation and to deliver global service in 2022. The company continues to see growing demand from telecommunications providers, ISPs, and governments worldwide to offer its low-latency, high-speed connectivity services to the hardest to reach places. OneWeb has raised $2.7 billion since November 2020, with no debt issuance.

Neil Masterson, OneWeb CEO, said, “The team continues to stay focused on execution and delivering our network. I am enormously grateful to the team and all our partners who are making these milestones possible. We continue to see a huge and growing demand for our services from global customers, and we are incredibly excited about both introducing commercial service and scaling our global network.”

With the separation of the latest 34 OneWeb satellites, RUAG Space successfully placed more than 1,031 satellites into space.

On Tuesday, September 14, another 34 OneWeb internet satellites have been separated from the Soyuz launch vehicle and placed into orbit with a dispenser from RUAG Space. With this, the Swiss-based space supplier has successfully placed 1,031 satellites into orbit. The RUAG Space separation systems are being produced at the firm’s site in Linköping, Sweden, and the 34 OneWeb satellites were launched with a separation system on a dispenser that was manufactured by RUAG Space. The dispenser system makes it possible to separate multiple satellites at a time in a specific sequence in order to exactly attain the correct orbit.

“When it comes to satellite separations we are leading the market for commercial launch vehicles. Successfully deploying more than 1000 satellites in orbit underlines our leading position in this field and especially in the fast-growing New Space and constellation market,” said Holger Wentscher, Vice President Program Launchers at RUAG Space. “We can offer a 100% success rate and are able to meet customer expectations in the extreme environment of space. We meet customer expectations in extreme environments. Our separation systems ensure that satellite and rocket remain securely attached to one another during the tough journey into space, and then deliver the valuable payloads into orbit with precision.”

RUAG Space is a world leader for satellite separation systems for commercial launch vehicles. All of the more than 1,000 satellite separations have been carried out with a 100 percent success rate. They are the result of an advanced position in the commercial space industry and a long and trusted collaboration with NASA and the European Space Agency (ESA).

RUAG Space is a leading supplier to the space industry in Europe and has a growing presence in the United States. Around 1,300 employees across six countries (Switzerland, Sweden, Austria, Germany, USA and Finland) develop and manufacture products for satellites and launch vehicles—for both the institutional and commercial space market. RUAG Space is part of RUAG International, a Swiss technology group, which is divided into four divisions: Space, Aerostructures, MRO International and Ammotec.

Kleos Space S.A. (ASX: KSS, Frankfurt: KS1) is investing for future growth and is moving their Luxembourg headquarters to a new bespoke facility to incorporate the company’s key functions under the one roof starting on from November 1, 2021.

Located in the newly-built ParcLuxite Business Park in Kockelscheuer, Luxembourg, Kleos’ new headquarters will be home to the company’s engineering and operations facilities, housing environmental test chambers and a dedicated clean room space for the assembly, integration and test of sensitive space hardware as well as its mission control center. It enables Kleos to scale its global geolocation data-as-a-service, and further support its additional engineering teams in the UK and the US.

ParcLuxite is a 65-hectare complex dedicated to innovation and high-tech companies on the historical site of the Poudrerie de Luxembourg. It is considered Luxembourg’s equivalent of a mini–Silicon Valley.

Kleos’ satellites detect and geolocate radio frequency signals to improve the detection of illegal and hidden activity such as piracy, drug and people smuggling, illegal fishing and border challenges. Its independent geolocation data complements existing datasets and enhances the intelligence, surveillance, and reconnaissance (ISR) capabilities of governments and commercial entities.

Kleos is rapidly building its satellite constellation and currently has eight satellites in space, flown in clusters of four in close formation, with a third cluster in build for a launch in the coming months onboard a SpaceX Falcon 9. Each new cluster launched adds to the data products available to the customer base, with the target to launch up to twenty clusters for near-real time global observation.

Kleos’ COO, Heribert Kraemer, said, “Our new Luxite facility will enable us to be immersed in a tech environment. It will provide Kleos with the right framework to foster innovation and the capacity to support our growing operations. The office will host the mission operations team, global finance, and communications. As we continue to build our constellation and commercialize our data products, we are also increasing our team to support long-term growth. Our newly-built office will provide a great working environment for the team to ensure we continue to meet the needs of our customers.”

Kleos CEO, Andy Bowyer, said, “It’s an exciting period for Kleos as we transition from an R&D company into a commercial provider of geolocation intelligence data. Our new facility will support our constellation growth, enhancing our global coverage and providing our customers with access to specific areas of interest and multiple datasets. Our data is already being delivered to early adopter customers and we are currently in discussion with a number of potential European-based subscribers.”

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Kleos Space S.A. (ASX: KSS, Frankfurt: KS1) is investing for future growth and is moving their Luxembourg headquarters to a new bespoke facility to incorporate the company’s key functions under the one roof starting on from November 1, 2021.

Located in the newly-built ParcLuxite Business Park in Kockelscheuer, Luxembourg, Kleos’ new headquarters will be home to the company’s engineering and operations facilities, housing environmental test chambers and a dedicated clean room space for the assembly, integration and test of sensitive space hardware as well as its mission control center. It enables Kleos to scale its global geolocation data-as-a-service, and further support its additional engineering teams in the UK and the US.

ParcLuxite is a 65-hectare complex dedicated to innovation and high-tech companies on the historical site of the Poudrerie de Luxembourg. It is considered Luxembourg’s equivalent of a mini–Silicon Valley.

Kleos’ satellites detect and geolocate radio frequency signals to improve the detection of illegal and hidden activity such as piracy, drug and people smuggling, illegal fishing and border challenges. Its independent geolocation data complements existing datasets and enhances the intelligence, surveillance, and reconnaissance (ISR) capabilities of governments and commercial entities.

Kleos is rapidly building its satellite constellation and currently has eight satellites in space, flown in clusters of four in close formation, with a third cluster in build for a launch in the coming months onboard a SpaceX Falcon 9. Each new cluster launched adds to the data products available to the customer base, with the target to launch up to twenty clusters for near-real time global observation.

Kleos’ COO, Heribert Kraemer, said, “Our new Luxite facility will enable us to be immersed in a tech environment. It will provide Kleos with the right framework to foster innovation and the capacity to support our growing operations. The office will host the mission operations team, global finance, and communications. As we continue to build our constellation and commercialize our data products, we are also increasing our team to support long-term growth. Our newly-built office will provide a great working environment for the team to ensure we continue to meet the needs of our customers.”

Kleos CEO, Andy Bowyer, said, “It’s an exciting period for Kleos as we transition from an R&D company into a commercial provider of geolocation intelligence data. Our new facility will support our constellation growth, enhancing our global coverage and providing our customers with access to specific areas of interest and multiple datasets. Our data is already being delivered to early adopter customers and we are currently in discussion with a number of potential European-based subscribers.”

SWISSto12, a provider of payload systems for telecommunication satellites based on 3D printing technologies, and Saturn Satellite Networks, a developer of small GEO satellite missions, have signed a collaboration agreement whereby they join forces to build and market GEO telecom missions based on both MicroGEO, ISN and Nationsat satellites.

These missions will deliver highly competitive connectivity from GEO orbit based on small and affordable satellites, thereby enabling new application cases for satellite connectivity that complement the offering of larger legacy satellites.

In this collaboration, SWISSto12 will make its end-to-end advanced flexible payloads available to be matched with three different classes of smallsat platforms: the MicroGEO, the Intelligent Space Node (ISN), or the Nationsat which are all enabled by the cutting edge bus, with proven GEO heritage from Saturn’s affiliate company, NovaWurks and its HISat technology.

SWISSto12 will lead the marketing of turnkey GEO telecom satellites based on the MicroGEO platform of approximately 2kW payload power, while Saturn Satellite Networks will lead the marketing of turnkey GEO telecom and high throughput satellites (HTS) based on the ISN and Nationsat platforms of approximately 5kW payload power. These classes of satellites complement each other in the emerging segment of smaller GEO telecommunication satellites and offer a complete set of solutions to address specific requirements of satellite operators.

Missions addressed range from BSS and FSS spacecraft, which can provide a competitive replacement option for aging satellites, to HTS satellites for flexible global coverage or offering regional coverage for existing or emerging operators. Available frequencies range from C-band to Q/V-band.

The partnership capitalizes on the experience of spacecraft and payload engineering teams from both companies with workforce based both in Europe and the U.S.

“There is a lot of opportunity in MicroGEO satellites which is currently not addressed. Combining best of breed payload and platform solutions through this cooperation enables missions that can truly handle the performance and cost challenges of smaller missions in GEO while mitigating the risks of space,” said Dr. Emile de Rijk, CEO of SWISSto12. “We are extremely excited to enable new mission opportunities for the satellite communications industry together with Saturn.”

“This cooperation with SWISSto12 strengthens our mission to provide robust and affordable satellite platforms for nations lacking the resources for affordable space-based services using a national asset. Our innovative satellite platform designs, combined with SWISSto12’s payload technology and expertise improve our satellite products and provides nations, satellite operators, and most importantly, end users, an affordable, reliable service from GEO,” said Thomas Choi, CEO of Saturn Satellite Networks. “We are very pleased to work with SWISSto12 to bring novel designs using flight proven technologies and innovative solutions to our customers.”

AT&T has signed a strategic agreement with OneWeb to harness the capabilities of satellite technology to improve access for AT&T business customers into remote and challenging geographic locations — this new connectivity will complement existing AT&T access technologies.

AT&T’s business fiber network enables high-speed connections to more than 2.5 million U.S. business customer locations. Nationwide, more than 9 million business customer locations are within 1,000 feet of AT&T fiber.¹ However, there are still remote areas that existing networks can’t reach with the high-speed, low-latency broadband essential to business operations.

AT&T will use this technology to enhance connectivity when connecting to its enterprise, small and medium-sized business and government customers as well as hard-to-reach cell towers.

The AT&T service will be supported by OneWeb’s network of satellites. OneWeb has launched 288 satellites and expects to attain global coverage with a total fleet of 648 satellites by the end of 2022. AT&T business and government customers in Alaska and northern U.S. states will be covered later this year.

“Working with OneWeb, we’ll be able to enhance high-speed connectivity in places that we don’t serve today and meet our customers wherever they are,” said Scott Mair, President, Network Engineering and Operations, AT&T. “We’re expanding our network with one more option to help ensure that our business customers have the high-speed, low-latency connectivity they need to thrive as the nation recovers from COVID-19.”

“OneWeb’s enterprise-grade network has a unique capability to serve hard-to-reach businesses and communities. Our work with AT&T will focus on how satellite technology can support improved capacity and coverage in remote, rural and challenging geographic locations,” said Neil Masterson, OneWeb Chief Executive Officer. “Today’s agreement with AT&T demonstrates OneWeb’s execution momentum and the confidence customers such as AT&T have in its services and offering.”

¹ The over 2.5 million U.S. business customer locations, which AT&T provides high-speed fiber connections, is included within the >9M U.S. business customer locations on or within 1,000 feet of our fiber.