GITAI

Self-sustaining robotics for the lunar frontier. On the Moon, there are no repair shops. Our R1 rover demonstrates its ability to perform self-maintenance, including a full tire change in a desert-analogue environment. This is a core capability for lunar exploration and infrastructure development, ensuring mission longevity without human intervention. Join us: https://lnkd.in/ghZYMa3z #spacerobotics #GITAI #engineering #moon #spacetech

Tapping into lunar resources. Our rover demonstrates the versatility of our inchworm arm technology, switching between drilling and shoveling to collect regolith. This capability is essential for space exploration and infrastructure development, specifically for in-situ resource utilization. By mastering these tasks today, we are providing the labor needed to build a sustainable presence on the Moon. Be a part of what’s next: https://lnkd.in/ghZYMa3z #rover #humanoid #spacetech #moon #spacerobotics

Designed for the dust. Lunar regolith isn’t just sand—it’s abrasive, electrostatic, and a major challenge for space hardware. In our regolith chamber, we put the R1 rover through its paces, ensuring every joint and motor can withstand the harshest conditions. These simulations are vital for the long-term success of lunar infrastructure development. The lunar surface is our next worksite. Get on board: https://lnkd.in/ghZYMa3z #lunarregolith #spaceengineering #spacetech #GITAI #rover

Mobility across lunar systems. Our "inchworm" robotic arm (IN1) demonstrates its ability to move between a lander and a rover, a key capability for future lunar exploration. By enabling robotic mobility across different surface systems, IN1 helps support the assembly, maintenance, and operation of lunar infrastructure. Join the mission: https://lnkd.in/ghZYMa3z #robotics #GITAI #lunarlander #spacetech

Robotic deconstruction for lunar expansion Watch as our rover grinds and recovers material directly from a mock lunar lander. This capability allows us to "upcycle" hardware already on the surface into resources. Mastering this process is a core requirement for near-future lunar exploration, ensuring we can expand our footprint using the assets we already have. The lunar surface is our next worksite. Get on board: https://lnkd.in/ghZYMa3z #moon #spacetech #spacerobotics #GITAI #upcycling

Modular construction, scaled for the Moon. A coordinated effort between three inchworm arms and a rover to assemble a tower. This demonstration shows how modular robotic systems can collaboratively build the essential power and communication networks required for human presence. The lunar surface is our next worksite. Get on board: https://lnkd.in/ghZYMa3z #lunarexploration #spacetech #GITAI #roboticsengineering

Coordinated robotic work for lunar surface operations. Our systems demonstrate drilling, excavation, and material handling in a field test designed to validate core capabilities for near-future lunar exploration. Join the mission: https://lnkd.in/ghZYMa3z #spacetech #futuretech #robotics #engineering #GITAI

Regolith handling is lunar infrastructure work. In this demonstration, GITAI’s R1 rover collects regolith simulant and stores it onboard using dual-arm coordination. The Moon will need robots that can dig, move, and manage surface material without constant human hands on site. Be a part of what’s next: https://lnkd.in/ghZYMa3z #spacetech #engineering #GITAI #hiring

From robotic systems to independent spacecraft. GITAI’s in-house developed 16U satellite, SC1, has completed its space demonstration in low Earth orbit. The mission verified communication, onboard system functionality, attitude control, propulsion-based maneuvers, and image/video data transmission from orbit. This is a step toward GITAI’s full on-orbit servicing capability. Be a part of what’s next: https://lnkd.in/ghZYMa3z #spacetech #satellite #engineeringjobs #hiring #GITAI

Redefining mobility on the lunar surface. Our IN1 "inchworm" robotic arm demonstrates its unique ability to walk down from a lander to a rover dynamically. This flexible maneuvering system is a vital capability for near-future lunar exploration and infrastructure development. By creating robots that can cross-navigate different vehicles, we eliminate the need for fixed, single-purpose arms. See what’s next: https://lnkd.in/ghZYMa3z #mobility #spacetech #engineering #spacerobotics #GITAI