Space Robotics Workers Selects Spacedock Interface for Modular Space Assembly Systems

Space Robotics Workers has selected Spacedock's intelligent interface for integration with its robotic Smart Truss system, a modular structural element designed for orbital assembly and maintenance of space infrastructure. This partnership represents a significant advancement in autonomous space construction technologies that could transform how orbital infrastructure is built and maintained.

The companies will conduct a ground demonstration in early 2026 to validate autonomous capture and structural connection between Smart Truss units using Spacedock's interface for autonomous berthing, docking, and power, fluid, and data transfer. The test, conducted in a ground-based analog environment, marks a milestone toward SRW's roadmap for robotic construction of Commercial LEO Destination platforms, solar power stations, and other persistent orbital structures. This demonstration will prove the viability of modular assembly approaches that could reduce costs and increase reliability for future space missions.

Negar Feher, CEO of Spacedock, emphasized the broader implications of this collaboration, stating that it shows how Spacedock's intelligent interface accelerates the shift to a modular, serviceable, and sustainable space ecosystem. By making orbital systems upgradeable and maintainable, the technology helps the industry protect billions in assets and extend mission lifetimes. This approach addresses one of the most significant challenges in space operations: the inability to service and upgrade expensive hardware once deployed.

Raffaele Vitulli, Technical Director of SRW, explained that selecting Spacedock reflects more than just an interface choice but rather confidence in an architecture that can scale with their vision for a permanent and vigorous human presence in orbit. The partnership combines SRW's expertise in autonomous robotics technologies for on-orbit assembly and servicing with Spacedock's universal interface technology, creating a comprehensive solution for future space infrastructure needs.

Spacedock is developing the universal interface for space systems—an AI-powered, cyber-secure hardware-and-software layer that enables rapid hosted-payload integration and secure berthing, docking, and transfer of power, data, and fluids. Each Spacedock interface acts as a data node for AI-driven diagnostics, cybersecurity, and optimization, forming the backbone of interoperable, upgradable space infrastructure. This technology could standardize how different space systems connect and communicate, potentially revolutionizing space industry interoperability.

The implications of this technology extend beyond immediate commercial applications. The ability to autonomously assemble and maintain structures in orbit could enable larger, more complex space stations, facilitate space-based manufacturing, support satellite servicing missions, and contribute to space debris removal efforts. As the space industry continues to grow, technologies that enable sustainable, scalable operations will become increasingly critical for long-term viability and safety in the orbital environment.

For more information about Spacedock's technology, visit https://Spacedock.co. Details about Space Robotics Workers' systems can be found at https://spaceroboticsworkers.com. The successful implementation of this interface technology could establish new standards for modular space systems, potentially influencing how future space infrastructure is designed, deployed, and maintained across the global space industry.