NASA Ames Robotics Automation and Assembly Webinar
When: Wed, 10/15/2025 at 2:00 PM (Eastern Time)
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Explore how NASA Ames Research Center is bringing autonomous structural assembly to life with a suite of robotics technologies now available for licensing. This webinar will highlight three innovations: a mobile bipedal robot system that can carry, position, and assemble lightweight lattice modules into large-scale structures; a reversible fastener designed for high-strength, robot-friendly connections; and a novel modular method for building cuboctahedron lattice materials.
Together, these technologies allow robots to construct, monitor, and even repair complex structures without human intervention — whether on the Moon, in orbit, or here on Earth.
Join us to learn how they can accelerate your next-generation robotics, aerospace, or adaptive infrastructure projects.
Please see below for more information on the technologies.
Robotic system for assembly and maintenance of lightweight reconfigurable structures
Method for discrete assembly of Cuboctahedron Lattice Materials
Greenfield Trinh is an engineer at NASA’s Ames Research Center, serving as project manager for the Autonomous Robotic Construction of Lunar Surface Infrastructure (ARC-LSI) project. He works with teams across NASA centers to develop robotic assembly and construction technologies that support the agency’s goal of sustainable, long-term human presence in orbit and on planetary surfaces.
Prior to this role, Greenfield supported robotic construction technology development and small satellite missions, with experience spanning systems engineering, mechanical design, and robotics. His work focuses on aligning technology development and mission architecture to ensure that autonomous construction capabilities directly advance NASA’s exploration goals.”
