In a move to accelerate the deployment of Europe’s third flagship space program, the European Space Agency (ESA) announced on Monday, January 26, 2026, a significant expansion of the IRIS² (Infrastructure for Resilience, Interconnectivity and Security by Satellite) network’s low-LEO segment.
Simultaneously, ESA is implementing a new fiscal policy to reimburse Non-Recurring Engineering (NRE) costs for companies scaling production. This decision addresses a critical bottleneck in the “Sovereign-Commercial Nexus,” shifting ESA’s traditional role from funding primary research to supporting the industrial mass production required for multi-orbit megaconstellations.
Strategic Shift in Procurement and Design
The expansion of the low-LEO component is designed to broaden the pool of potential industrial contributors beyond the initial prime contractors. By opening this segment, ESA allows the European space industry to propose novel payload architectures and satellite designs that can be integrated into the final operational IRIS² network. This modular approach is intended to prevent technology lock-in and ensure the constellation remains adaptable to emerging threats and technical advancements.
Context: The Financial Bridge to Mass Production
Historically, ESA funding through programs like ARTES 4.0 has prioritized the development of new, high-risk technologies. However, the unique demands of IRIS²—which requires the rapid manufacture of hundreds of satellites—have exposed a gap in conventional funding models. Under the new reimbursement framework, ESA will cover NRE expenses specifically associated with the “industrialization” of existing products. This means companies that have already developed a functional component can now receive support for the expensive transition to high-rate production lines, tooling, and automated testing rigs.
This policy change follows the December 2024 signing of the 12-year, €10.6 billion concession agreement between the European Commission and the SpaceRISE consortium. The consortium, led by SES, Eutelsat, and Hispasat, is now moving from the political planning phase into physical hardware acquisition, as evidenced by the January 5, 2026, issuance of Requests for Proposals (RFPs) for 272 Low Earth Orbit satellites.
Technical Specifications: The IRIS² Multi-Orbit Shells
The updated IRIS² architecture is structured as a resilient, multi-layered system designed to provide secure governmental communications and commercial high-speed broadband.
- Low-LEO Layer: Now expanded to invite broader participation, this segment focuses on low-latency data and secure links for governmental authorities.
- LEO-High Layer: Comprising the bulk of the 272 LEO units, with Airbus Defence and Space and Aerospacelab identified as primary candidates for the platform and payload.
- MEO Layer: Consisting of 18 satellites at an altitude of approximately 8,000 km, leveraging the existing expertise of SES to provide high-throughput backhaul and global coverage.
Rationale: Reducing Commercial Dependencies
The rationale for this dual-pronged approach—segment expansion and NRE reimbursement—is rooted in Europe’s mandate for strategic autonomy. European Commissioner for Defence and Space Andrius Kubilius and ESA Director General Josef Aschbacher have consistently emphasized the need for a “Space Shield” to protect European digital sovereignty. By reimbursing scaling costs, ESA is effectively subsidizing the modernization of the European supply chain, making it more competitive against vertically integrated entities like SpaceX. This ensures that the 30% subcontracting requirement for Small and Medium Enterprises (SMEs) is not just a regulatory quota but a viable industrial reality.
Timeline and Outlook to 2030
As the IRIS² project moves into 2026, the focus shifts to the Critical Design Review (CDR) and the mobilization of manufacturing facilities. The new reimbursement policy is expected to see immediate uptake from hardware vendors in Germany, France, and Spain who are currently retrofitting factories for the 2027 manufacturing commencement. While initial governmental services are targeted for 2030, the ability of the industry to scale tech via these new ESA reimbursements will be the primary factor in meeting the 2031 deadline for full operational readiness.