Japanese startup ispace’s failed Hakuto-R moon landing mission last month was caused by an altitude miscalculation that meant the spacecraft ran out of fuel, the company says.
Tokyo-based ispace lost connection with the Hakuto-R Mission 1 lander after the spacecraft attempted what would have been the world’s first commercial soft-landing on the moon’s surface.
The crash was the latest setback in Japan’s space program.
The country’s space agency in March had to destroy its new medium-lift H3 rocket after it reached space and its solid-fuel Epsilon rocket failed after launch in October.
Improvements would be made for the next two missions, ispace said.
“Through these two missions, it is very important for us to increase our knowledge as much as possible to achieve stable commercialisation in the future,” ispace Chief Executive Takeshi Hakamada told reporters at the Japan National Press Club.
Whereas national space agencies dominated space exploration in decades past, numerous private players are competing in a new space race between the United States and its allies versus an increasingly ambitious China.
NASA has relied on Elon Musk’s SpaceX to carry many of its payloads into orbit, and last week the agency awarded a lunar lander contract to a team led by Jeff Bezos’ Blue Origin.
After launching its Hakuto-R lander aboard a SpaceX rocket with much fanfare in December, ispace shares made a blistering debut on the Tokyo Stock Exchange in April.
But during the final landing phase in the early hours of April 26, ispace lost contact with the craft and the share price tumbled.
Photos of debris and an impact crater at the Hakuto-R’s intended landing site were released this week by NASA, which scanned the area with its Lunar Reconnaissance Orbiter.
An ispace investigation showed that after the vehicle passed over a large lunar cliff, a sensor software glitch caused a discrepancy between its actual and expected altitude, and after its fuel ran out, it plummeted the last 5km to the moon’s surface.
Ryo Ujiie, ispace’s chief technology officer, told reporters he partially blamed ispace’s mission parameters and other settings for the glitch of the software, which was provided by US space software developer Draper.
The company had changed the targeted landing location as late as seven months before the touchdown attempt, foregoing a flatter terrain selected in 2021 for the newer site near a cliff “to maximise the benefit of the mission,” Ujiie told reporters.
He declined to say specifically when the change was made.
“That landing site change impacted on this issue,” Ujiie said.
“We might have (had) a chance to successfully land on the moon if we didn’t change that landing site but it’s just a hypothesis.”
A second ispace mission is scheduled in 2024, with another M1 lander due to carry the company’s own rover.
From 2025, the company is set to work with Draper to bring NASA payloads to the moon, aiming to build a permanently staffed lunar colony by 2040.
Australian Associated Press