Photo Credit: ESA
Artist’s illustration of European Space Agency’s Aeolus satellite
A European space probe has performed an evasive manoeuvre to avoid a possible collision with another satellite after its operator, private firm SpaceX, failed to receive a warning message.
Officials at the European Space Agency said Tuesday that engineers decided to move the Aeolus satellite into a higher orbit after being told last month by SpaceX that it had no intention of changing the course of its Starlink 44 satellite.
SpaceX said that what appeared to be a hard-nosed stance was actually the result of a communications error.
The two operators last exchanged messages August 28, when the probability of a collision was far below the threshold for evasive manoeuvre, the California-based company said in a statement.
The US Air Force’s 18th Space Control Squadron, which monitors objects in orbit, later raised the probability of a collision to more than 1 in 10,000, requiring an evasive manoeuvre.
“But a bug in our on-call paging system prevented the Starlink operator from seeing the follow-on correspondence on this probability increase,” SpaceX said, adding that had the message been seen it would have coordinated with the Europeans to determine who should give way.
The company said it is investigating the issue and plans to implement “corrective actions.”
The European Space Agency said the manoeuvre didn’t affect operations of Aeolus, which was launched in August 2018 to measure global wind speeds and directions, thereby improving weather forecasts.
But ESA said the incident, along with the absence of firm traffic rules in orbit, highlighted the need to improve coordination among satellite operators.
“Today, this negotiation is done through exchanging emails, an archaic process that is no longer viable as increasing numbers of satellites in space mean more space traffic,” said Holger Krag, head of space safety at ESA. The agency is proposing an automated system to deal with collision risk.
A crash could have sprayed thousands of pieces of debris across a wide area, greatly increasing the chances of further collisions between satellites and clouds of space junk.