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The future of orbital construction is taking a significant step forward through a new strategic partnership. Space Robotics Workers (SRW) has selected Spacedock's intelligent interface for integration with its robotic Smart Truss system, a key modular component for building and maintaining space infrastructure. The collaboration will be validated in a ground demonstration in early 2026, marking a critical milestone for autonomous orbital assembly.
Quick Intel
Space Robotics Workers (SRW) integrates Spacedock's interface into its Smart Truss system.
A ground demonstration is scheduled for early 2026 to validate autonomous capture and connection.
The partnership supports SRW's roadmap for building Commercial LEO Destinations and solar power stations.
Spacedock's interface enables berthing, docking, and transfer of power, fluid, and data.
The technology aims to create a modular, upgradeable, and sustainable space ecosystem.
This advancement is crucial for protecting assets and extending mission lifetimes in orbit.
Validating Autonomous Orbital Construction
The core of this partnership is an upcoming ground demonstration designed to prove the viability of autonomous robotic construction in space. The test will take place in a ground-based analog environment and will focus on validating the autonomous capture and structural connection between SRW's Smart Truss units using Spacedock's interface. This successful demonstration is a key technical step toward SRW's broader vision of robotically assembling large-scale orbital structures.
Building a Scalable and Serviceable Space Ecosystem
The selection of Spacedock's technology is strategic, moving beyond a simple component choice to embrace an architecture for future growth. The intelligent interface is designed to be the universal connector for space systems, providing a cyber-secure hardware and software layer that enables berthing, docking, and the transfer of power, data, and fluids. "By making orbital systems upgradeable and maintainable, we're helping the industry protect billions in assets and extend mission lifetimes," said Negar Feher, CEO of Spacedock.
Paving the Way for a Permanent Human Presence
This collaboration directly supports the development of a more permanent and vigorous human presence in orbit. The ability to autonomously assemble and maintain large infrastructure, such as commercial space stations and power stations, is a foundational capability. Raffaele Vitulli, Technical Director of SRW, emphasized the strategic nature of the partnership, stating, "Selecting Spacedock reflects more than just an interface choice. It reflects confidence in an architecture that can scale with our vision for a permanent and vigorous human presence in orbit."
The partnership between SRW and Spacedock represents a tangible advancement in making scalable space infrastructure a reality. By combining SRW's robotic assembly expertise with Spacedock's universal interface, the companies are laying the groundwork for a new era of sustainable and interoperable operations in space, fundamentally changing how future orbital assets are built and maintained.
Founded by veterans of SpaceX, Maxar, and Stanford, Spacedock is building the intelligent interface for scalable space operations. Learn more at Spacedock.co or follow @Spacedock on LinkedIn and @Spacedock_ on X.
SRW develops robotic systems for in-orbit assembly, maintenance, manufacturing, and debris removal — pioneering technologies for a lasting human presence in space.
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