Eutelsat Ends Russian Spacecraft
Leases (Source: Space News)
Eutelsat has ended capacity leases on two Russian spacecraft after one
failed in orbit and the other is set to relocate. Eutelsat had planned
to lease capacity for at least three more years from Express-AT1 and
Express-AT2, two Russian satellites in GEO, but Express-AT1
malfunctioned earlier this month. Eutelsat said it expected only a "low
single-digit million" loss of revenue that would be offset by lower
costs by terminating the leases. It allows Eutelsat to get out of
contracts hit by Western sanctions and the structural decline in TV
broadcasts. (3/16)
Iran War Driving Geospatial Demand (Source:
Space News)
Iran's blockade of the Strait of Hormuz is driving demand for
commercial geospatial intelligence services. The busy shipping corridor
has become a contested maritime environment where governments, energy
companies, insurers and militaries are trying to understand events as
they unfold. One geospatial intelligence company, Danti, said the
crisis is driving demand for tools that combine satellite imagery with
other sources of intelligence, such as radio-frequency and other
signals data and automatic identification system (AIS) ship tracking
feeds. Danti says AI analysis of that data can help detect trends
early. (3/16)
Starcloud Plans 88,000 Satellite Data
Center Constellation (Source: Space News)
A startup has filed plans with the FCC for a constellation of up to
88,000 orbital data center satellites. The FCC accepted for filing
Friday an application by Starcloud for that constellation, which would
feature spacecraft operating in a series of low Earth orbits to provide
computation for AI models and other services. The application provided
few details about the satellites themselves, such as their size.
Starcloud launched a smallsat last November with an Nvidia processor
for testing AI models and is working on a second, commercial satellite
for launch in 2027. The filing comes after SpaceX proposed in late
January an orbital data center constellation of up to one million
satellites. (3/16)
China Unveils Economical Lunar
Transport (Source: Space News)
A Chinese state-owned space contractor has unveiled a concept for an
"economical lunar cargo transport" system. At a conference exhibit last
week, the Shanghai Academy of Spaceflight Technology showed off plans
for a family of cargo landers capable of delivering between 120 and
5,000 kilograms to the lunar surface. The tiered payload classes
suggest a logistics architecture capable of supporting regular cargo
deliveries to the lunar surface, suggesting a shift in China from
single flagship lander missions. SAST has developed a prototype that
has performed takeoff and landing tests. (3/16)
Sweden's First Astronaut Urges
Filipino Students to Pursue STEM Careers (Source: Manila
Bulletin)
For Dr. Christer Fuglesang, the first Swedish astronaut to travel to
space, the journey began with something simple: curiosity. Speaking to
students at De La Salle University (DLSU) in Manila on March 14,
Fuglesang encouraged young people to explore careers in science,
technology, engineering, and mathematics, or STEM, emphasizing that
curiosity and passion for learning are often the first steps toward
extraordinary opportunities. (3/16)
Hanwha Acquires KAI Stake After 7
Years, Accelerating 'Korean SpaceX' Ambitions (Source: Seoul
Economic Daily)
Hanwha Group, South Korea's largest aerospace and defense conglomerate,
has made a substantial investment in Korea Aerospace Industries (KAI),
signaling its commitment to the "Korean SpaceX" initiative that has
drawn attention from both government and industry. According to
Financial Supervisory Service disclosures on the 15th, Hanwha Systems,
Hanwha's defense subsidiary, announced through its business report
filed on the 13th that it purchased 566,635 common shares of KAI for
59.9 billion won. (3/16)
China's Kuaizhou-11 Y7 Rocket Launches
8 New Satellites (Source: Global Times)
China on Monday launched the Kuaizhou-11 Y7 carrier rocket from the
Jiuquan Satellite Launch Center in Northwest China's Gansu Province,
sending eight new satellites into preset orbits, the Xinhua News Agency
reported. The mission marked the fifth flight of the Kuaizhou-11
rocket. The "Kuaizhou" series of small solid-propellant launch vehicles
was developed by the China Aerospace Science and Industry Corp (CASIC)
and represents China's first small solid rocket capable of rapid
integration and rapid orbital insertion, setting the country's fastest
record for launch preparation. (3/16)
ispace Opens New Headquarters “Earth
Base” in Tokyo (Source: ispace)
ispace, a global lunar exploration company, announced effective today
its new headquarters location, “Earth Base” has opened in the central
Nihonbashi section of Tokyo. The location in the heart of Tokyo is
quickly becoming an ecosystem for space startups and space-focused
companies and organizations. (3/9)
Nvidia Unveils AI Computing Module for
Space-Based Data Centers (Source: Space News)
Nvidia is pushing its artificial-intelligence hardware beyond Earth,
unveiling a computing module designed for space missions and potential
orbital data centers. The Space-1 Vera Rubin Module is a specialized AI
computing module engineered for satellites and potential orbital data
centers, designed to operate in environments where size, weight, and
power are constrained. (3/16)
Kayrros Sale Signals Rising Demand for
Satellite Intelligence Amid Hormuz Crisis (Source: Space News)
Tensions around the Strait of Hormuz have pushed interest in commercial
geospatial intelligence services to unprecedented levels, an executive
at Kayrros said after the French satellite analytics provider agreed to
be acquired by U.K.-based Energy Aspects. (3/16)
Spanish MoD, Hisdesat Near Choice of
Airbus To Replace Airbus-Built SpainSat NG2, Ask ITU to OK a 2030 Launch
(Source: Space Intel Report)
The Spanish government and Spain’s Hisdesat satellite operator have
tentatively selected Airbus Defence and Space to build the SpainSat NG3
UHF-, X- and military-Ka-band satellite to replace the Airbus-built
NG2, which failed in orbit in November five weeks after launch. The
failure occurred during SpainSat NG2’s orbit-raising maneuver on the
way to its final geostationary position at 30 degrees west following
what Airbus has concluded was a micrometeorite or other space particle.
(3/16)
Swedish Military Advances Esrange
Satellite Launch Site Plans with SSC Space (Source: Flight
Global)
NATO member Sweden has signed an agreement paving the way for it to
commence satellite launch services from late this decade. Announced by
Stockholm’s FMV defense materiel administration on 16 March and valued
at SKr209 million ($22.3 million), the pact with SSC Space will lead to
the “establishment of satellite launch capability from the company’s
Esrange Space Center”. “The capability will give the [Swedish] armed
forces the capacity and availability to launch their own satellites
into orbit,” the FMV says. (3/16)
Isaacman Plans Monthly Uncrewed Lunar
Landings In 2027 (Source: Payload)
NASA Administrator Jared Isaacman is going all in on building a Moon
base, with initial plans kicking off next year. Isaacman is calling for
monthly lunar lander missions to the South Pole starting in 2027,
saying the only way to build a Moon base is with regular, frequent
missions. Those missions will largely rely on the CLPS program
framework, he said. “We are going to plus up for Moon base construction
in a huge way,” said during an interview with Spaceflight Now that was
released late Friday night. (3/16)
Egyptian Space Agency Launches Space
Academy for Regional Capacity Building and Future Skills Development
(Source: Spacewatch Global)
The Egyptian Space Agency has launched the Egyptian Space Academy, a
specialized training entity dedicated to developing skills in future
technologies, as part of its strategic role in supporting the
localization of the space industry and strengthening human capacity in
space science and technology in the region. The Space Academy's
establishment builds upon the efforts undertaken by EgSA over the past
years in capacity building and human capital development. (3/16)
Investing in Student Programs is
Essential for America’s Lead in Space (Source: Space News)
The University of Illinois’ Space Entanglement and Annealing Quantum
Experiment (SEAQUE) is a compelling success story in the global race to
develop quantum communication networks in space. The experiment’s
success was enabled by a novel collaboration approach across academia,
industry and government. As such, SEAQUE is more than a physics
experiment. It’s a demonstration of student-driven innovation,
commercial collaboration, and American ingenuity at the edge of science
that offers a model for how the United States can lead on crucial
space-based quantum technologies. But that model could be at risk if
not financially supported. (3/16)
Europe’s Space Future Depends on
Smarter Funding Frameworks (Source: Spacewatch Global)
How should Europe evolve its space funding frameworks to remain
competitive in a rapidly transforming global space economy? The
industry is increasingly commercial, investment-driven, and globally
competitive. The ability to translate innovation into scalable
commercial activity will determine which regions lead the next phase of
growth. This is where funding frameworks become decisive.
Too often, companies approach funding opportunities
opportunistically—pursuing grants because they exist rather than
because they align with a long-term growth trajectory. The most
successful organizations tend to reverse that approach. They begin with
a clear industrial roadmap, identify where technology risks must be
reduced, and then strategically use funding mechanisms to support each
phase—from research and development to demonstration,
industrialization, and ultimately commercialization.
Funding is most effective when it serves as a catalyst for growth, not
the driver of strategy itself. In the coming decade, Europe will need
to focus more deliberately on funding mechanisms that enable companies
to move beyond research and prototypes toward production, market
expansion, and global competitiveness. (3/16)
Orbit Fab Enters New Growth Chapter
Amidst Leadership Transition and $20 Million Raised (Source:
Spacewatch Global)
Orbit Fab is entering a decisive stage in its evolution as it
transitions from developing on-orbit refueling technology to
large-scale commercialization, having successfully secured $20 million
Series B funding, led by Stride Capital, to strengthen its capital
foundation as it moves into its next phase of growth. Furthermore, the
company's erstwhile CEO, Daniel Faber, has stepped down from his
day-to-day responsibilities as Orbit Fab establishes an Executive
Committee to ensure its stability and operational continuity. (3/16)
ESA Contracts OKAPI:Orbits, TU
Braunschweig and DLR for Space-Air Traffic Integration (Source:
Spacewatch Global)
The European Space Agency has awarded a contract to OKAPI:Orbits to
lead a project that will bridge the gap between space traffic
coordination and air traffic management, marking an important step
toward integrated operations in an era of growing launch and re-entry
activity. The contract is in collaboration with the Institute of Space
Systems from Technische Universität Braunschweig (TU Braunschweig) and
the Institute of Flight Guidance from the German Aerospace Center (DLR).
OKAPI:Orbits, TU Braunschweig, and DLR will jointly address several key
challenges in integrating space and air traffic systems. This includes
defining realistic operational scenarios for launches and re-entries,
developing methods to quantify uncertainties, and creating tools that
allow air traffic management to respond dynamically to space
activities. Furthermore, the interface will support both nominal and
off-nominal conditions, including controlled and uncontrolled
re-entries, ensuring robust coordination across domains. (3/16)
Before the Lunar Economy, the
Infrastructure That Must Exist on the Moon (Source: Space
Geotech)
Most discussions about returning to the Moon focus on rockets, landers,
and astronauts. These systems solve the transportation problem. They
deliver payloads to the lunar surface, but they do not create an
operating environment. Sustained activity on the Moon will depend on
something far less visible: infrastructure interacting with the ground.
Every landing, rover movement, excavation system, power plant, and
habitat ultimately transfers loads to the lunar surface.
Yet the mechanical behavior of that surface under operational
conditions remains largely unexplored. Before any lunar economy can
emerge, the Moon will require a capability that is still missing today:
the ability to prepare, stabilize, and build on the ground.
Infrastructure begins when activities can repeat with predictable
performance. It requires stable ground conditions, controlled operating
zones, and systems designed to interact reliably with the surface. None
of these elements currently exists on the Moon. Click here.
(3/12)
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