An image of the SpaceX Falcon 9 rocket launching with the RESILIENCE lunar lander on board. (Photo: Business Wire)
RESILIENCE Lander Embarks on Second Journey to Deep Space and the Moon
TOKYO, January 15, 2025--(BUSINESS WIRE)--ispace, inc. (ispace)(TOKYO: 9348), a global lunar exploration company, announced today that its RESILIENCE lunar lander has successfully deployed from a SpaceX Falcon 9 rocket following its launch at 1:11 a.m., Wednesday, Jan. 15, 2025 (U.S. Eastern Time). The deployment completes Success 2 of the Mission 2 Milestones.
"Today’s launch and deployment are another significant achievement for ispace and all of our stakeholders," said Takeshi Hakamada, Founder & CEO of ispace. "This marks the beginning of a new chapter for our company as we develop the cislunar economy and deliver our customers payloads to the lunar surface. Now RESILIENCE is on its second journey into deep space and to the Moon. We will provide updates as we achieve further success milestones."
Mission 2 Milestones
ispace has released a transparent set of criteria known as Mission 2 Milestones between launch and landing and aims to achieve the success criteria established for each of these milestones. The results from this mission as part of the HAKUTO-R lunar exploration program, will be weighed and evaluated against the criteria and lessons learned will be incorporated into future missions already in development.
Milestone
Milestone Success Criteria
Success 1
Complete
Completion of Launch Preparations
Complete all development processes of the RESILIENCE lunar lander before flight operations
Contract and prepare launch vehicle, and complete integration of lunar lander into the launch vehicle
Prove ability to flexibly manufacture and assemble landers in various geographic locations of the world
Success 2
Complete
Completion of Launch and Deployment
Complete successful separation of the lunar lander from the launch vehicle
Reaffirm that ispace’s lander design and structure is capable of withstanding the harsh conditions during launch on its second mission, offering valuable information towards future development and missions
Success 3
Establishment of Steady Operation State
Establish communication link between the lander and Mission Control Center, confirm a stable attitude as well as start stable generation of electrical power in orbit
Success 4
Completion of first Orbital Control Maneuver
Complete the first orbit control maneuver, setting the lander on a course towards the Moon
Success 5
Completion of Lunar Flyby
Complete a lunar flyby approximately one month after launch
Begin Deep Space Flight operations
Success 6
Completion of all Deep-Space Orbital Control Maneuvers before LOI
Complete all planned deep space orbit control maneuvers by utilizing gravity assist effects and successfully target the first lunar orbit insertion maneuver.
Reaffirm the deep-space survivability of ispace’s lander designs, as well as the viability of space’s lunar planning.
Success 7
Enter Lunar Orbit
Complete the first lunar orbit insertion maneuver and confirm that the lander is in a lunar orbit
Reaffirm the ability of ispace to deliver spacecraft and payloads into stable lunar orbits
Success 8
Completion of all Orbital Control Maneuvers in lunar orbit
Complete all planned lunar orbital control maneuvers before the landing sequence
Confirm the lander is ready to start the landing sequence
Success 9
Completion of Lunar Landing Sequence
Complete the landing sequence, verifying key landing abilities for future missions
Success 10
Establish Steady System after Landing
Establish a steady telecommunication and power supply on the lunar surface after landing
Payloads
On board the RESILIENCE lunar lander will be commercial customer payloads including:
Water electrolyzer equipment: From Takasago Thermal Engineering Co.
Food production experiment: A self-contained module from Euglena Co.
Deep space radiation probe: Developed by the Department of Space Science and Engineering, National Central University, Taiwan
Commemorative alloy plate: Developed by Bandai Namco Research Institute, Inc. and modeled after "Charter of the Universal Century" from the animation Mobile Suit Gundam UC
TENACIOUS micro rover: Developed by ispace-EUROPE, this rover will explore the landing site, collect lunar regolith, and relay data back to the lander. It will be equipped with a forward-mounted HD camera and a shovel.
Moonhouse: A model house by Swedish artist Mikael Genberg that will be mounted on the rover.
The RESILIENCE lander will serve as a cultural artifact, carrying a UNESCO memory disk that preserves linguistic and cultural diversity.
ispace is leveraging its global presence through its three business units in Japan, the U.S., and Luxembourg, for the simultaneous development of upcoming missions. Mission 2, featuring the RESILIENCE lunar lander, is led by ispace Japan and was launched on January 15, 2025. In this mission, TENACIOUS micro rover developed by ispace Europe SA to be deployed on the lunar surface to conduct technological demonstration of regolith extraction as well as mobility on the lunar surface Mission 3, debuting the APEX 1.0 lunar lander, is led by ispace-U.S. and is expected to launch in 2026. Mission 6, which will utilize the Series 3 lander, currently being designed in Japan, is scheduled to be launched by 2027.
ispace, a global lunar resource development company with the vision, "Expand our planet. Expand our future.", specializes in designing and building lunar landers and rovers. ispace aims to extend the sphere of human life into space and create a sustainable world by providing high-frequency, low-cost transportation services to the Moon. The company has business entities in Japan, Luxembourg, and the United States with more than 300 employees worldwide. For more information, visit: www.ispace-inc.com and follow us on X: @ispace_inc.
