SPACE

Global push for cooperation as space traffic crowds Earth orbit

By R Anil Kumar

  • Over 14,000 satellites, 120 million bits of debris in key orbits

  • Tracking, managing clutter crucial to safe orbiting, UN says

  • Panel calls for greater international cooperation, data sharing

Vienna, Austria, December 15. The rapid increase in satellites and space junk will make low Earth orbit unusable unless countries and companies cooperate and share the data needed to manage that most accessible region of space, experts and industry insiders said.

Aarti Holla-Maini, Director, United Nations Office for Outer Space Affairs.

A United Nations panel on space traffic coordination in late October determined that urgent action was necessary and called for a comprehensive shared database of orbital objects as well as an international framework to track and manage them.

More than 14,000 satellites including some 3,500 inactive surround the globe in low Earth orbit, showed data from US-based Slingshot Aerospace. Alongside those are about 120 million pieces of debris from launches, collisions and wear-and-tear of which only a few thousand are large enough to track.

“There’s no time to lose on space traffic coordination. With so many objects being launched into space, we have to do everything we can to ensure space safety, and that means facilitating the sharing of information between operators, be they public or private, in order to avoid collisions,” said panel co-chair Aarti Holla-Maini, Director of the United Nations Office for Outer Space Affairs.

Low Earth orbit must remain safe to prevent costly disruption to the technology behind global communication, navigation and scientific exploration, she said.

Yet there is no centralised system that all space-faring nations can leverage and even persuading them to use such a system has many obstacles. Whereas some countries are willing to share data, others fear compromising security, particularly as satellites are often dual-use and include defence purposes. Moreover, enterprises are keen to guard commercial secrets.

Low Earth orbit is the region most congested with human-made objects as it offers a balance between cost and proximity, making it a prime target for the rapidly growing commercial space sector. It has also seen a 17% rise in close approaches per satellite over the past year, Slingshot data showed.

Projections point, opens new tab to tens of thousands more satellites entering orbit in the coming years. The potential financial risk of collisions is likely to be $556 million over five years, based on a modelled scenario with a 3.13% annual collision probability and $111 million in yearly damages, said Montreal-based NorthStar Earth & Space.

“We are at a critical point with respect to putting regulations and structure in space to monitor and manage the growing congestion. With Starlink launching thousands of satellites per year, China and others preparing to follow, we will soon push the bearing capacity of prime orbits,” said NorthStar CEO Stewart Bain.

An area chart that shows the staggering increase in satellites and other payloads being launched into space over the last five years compared with data from 1960.

RISKY BUSINESS

Low Earth orbit is densely packed, with bands such as the one for satellite internet service Starlink from commercial space company SpaceX – at an altitude of 540–570 km (336-354 miles). As of Nov. 27, Starlink had 6,764 satellites in orbit, Jonathan’s Space Report showed.

SpaceX data showed Starlink satellites performed nearly 50,000 collision-avoidance manoeuvres in the first half of 2024, about double the previous six months.

The European Space Agency, which has fewer spacecraft than SpaceX, said in 2021 its manoeuvres have increased to three or four times per craft versus a historical average of one.

The 800–900 km band contains fewer satellites but has 3,114 objects – including operational and non-operational payloads, rocket bodies and fragments – which make up 20% of the total mass of objects in low Earth orbit, posing significant collision risk, LeoLabs data showed.

Expired satellites add to the clutter as they stay in orbit until they fall into – and burn up in – Earth’s atmosphere years later or are flown to a “graveyard orbit” some 36,000 km away.

Russia drew global criticism in November 2021 when it test fired a missile at a defunct satellite in orbit, creating thousands of fragments of debris. Russia invaded Ukraine three months after the test.

“The potential for conflicts between states has been on a steep rise in the recent past. If these extend to space it could complicate the outer space environment. We urgently need common global rules for coordination,” said Anirudh Sharma, CEO of Bengaluru-based Digantara, which specialises in space situational awareness.

FINAL FRONTIER

The UN’s Aarti Holla-Maini, whose office serves as secretariat for the Committee on the Peaceful Uses of Outer Space, said the October panel aimed to bring together public- and private-sector experts to outline steps needed to start work on coordination. It will present its findings at a committee meeting next year.

Global cooperation is essential to developing enforceable rules akin to those used by the International Civil Aviation Organization for air traffic.

Such effort would involve the use of existing tools, such as databases, telescopes, radars and other sensors to track objects while improving coverage, early detection and data precision.

Yet geopolitical tension and reluctance to share data with nations deemed unfriendly as well as commercial concerns over protecting proprietary information and competitive advantages remain significant barriers.

That leaves operators of orbital equipment relying on informal or semi-formal methods of avoiding collisions, such as drawing on data from the US Space Force or groups like the Space Data Association. However, this can involve issues such as accountability and inconsistent data standards.

“The top challenges are speed – as consensus-building takes time – and trust,” Holla-Maini said. “Some countries simply can’t communicate with others, but the U.N. can facilitate this process. Speed is our biggest enemy, but there’s no alternative. It must be done.”

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