08/07/2026
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Working throughout 140 million km of area, the management crew for ESA’s Hera mission have succeeded in upgrading the software program operating the spacecraft, leaving it able to discover the distant Dimorphos and Didymos asteroids this autumn.
Think about being tasked to put in new software program onto a multi-million-euro laptop, sight unseen. You don’t get to the touch the {hardware} in query as a result of it’s already busy overseeing a spacecraft in deep area, in onward movement at greater than 12 km per second.
As a substitute you ship directions by textual content message, relayed through 35-m diameter communication antennas directed at exactly the precise patch of sky, working round a virtually eight-minute one-way sign delay because of the inherent distance concerned.
Having uploaded the software program efficiently, then comes the essential part when the complete spacecraft must be rebooted – twice!
Hera’s onboard laptop, overseeing all its devices and subsystems, runs on parallel processor streams for redundancy. A pair of reboots allowed every to be evaluated in flip. The seven-strong core Hera crew stood prepared of their management room in case the spacecraft didn’t sign again as scheduled, however fortunately it rebooted nominally on every event, proper on time.
“The success of this extra that two week operation leaves Hera lastly prepared for what we name its ‘asteroid part’,” says Anna Schiavo, Hera Spacecraft Operations Engineer. “The replace will permit us to fee the entire spacecraft’s remaining devices and to make use of the autonomous performance that Hera will depend on to navigate round its goal asteroids – together with the inter-satellite hyperlinks Hera will make use of to speak with the 2 CubeSats it can deploy early subsequent 12 months.”
Earlier than being utilized in flight the software program underwent some of the sophisticated take a look at campaigns ever undertaken at ESA’s ESOC mission management centre in Darmstadt, Germany. Occurring over a 12 months and a half and requiring 50 floor take a look at days in all, this concerned rehearsing all Hera’s autonomous performance round its two goal asteroids and in addition interactions with its CubeSats.
Sylvain Lodiot, heading ESA’s Outer Photo voltaic System and Planetary Defence Operations, explains: “The testing concerned operating the software program on a useful duplicate of Hera situated on the mission’s prime contractor OHB in Bremen, referred to as the ‘Bench’, flying round simulated fashions of the asteroids and speaking with precise CubeSat replicas although the inter-satellite hyperlinks.”
Caglayan Guerbuez, Hera Spacecraft Operations Supervisor.: “It’s not so uncommon {that a} deep area mission is launched with out its closing software program aboard, however Hera was actually a mission in a rush: it needed to launch when it did in October 2024 in an effort to profit from a flyby previous Mars the next spring, in any other case the mission would have taken years longer to achieve Dimorphos.
“So we’ve been saved busy in the course of the cruise part to catch up, with the valued help of software program supplier Spacebel in addition to OHB.”
Hera is ESA’s first planetary defence mission. The van-sized spacecraft is headed to the Dimorphos asteroid, which orbits in flip across the bigger Didymos asteroid. Dimorphos is already historic as the primary object within the Photo voltaic System to have had its orbit modified by human motion – when NASA’s DART spacecraft impacted it in September 2022.
DART’s influence brought about a brightening seen from distant Earth telescopes, however no person is aware of what it did to Dimorphos itself. Hera goes there to carry out a close-up crash website survey, to assist flip DART’s kinetic influence experiment right into a properly understood planetary defence that could be tailor-made in opposition to incoming objects if required.








