GPS World

Tag: resilient GPS

  • US Space Force cancels smallsat project for Resilient GPS program

    US Space Force cancels smallsat project for Resilient GPS program

    The U.S. Space Force has ended an exploratory effort to add smaller, lower-cost navigation satellites to strengthen the existing GPS constellation, reports Space News.

    The Space Force does not plan to move forward with on-orbit demonstrations of industy-designed smallsats under the Resilient GPS (R-GPS) program, which began in 2024. In September of that year, the Space Force selected Astranis, L3Harris Technologies and Sierra Space to develop concepts for small, cost-effective navigation satellites to increase GPS resilience, using an expedited “quick start” contract process.

    But funding for the next phase of the program was not included in the fiscal year 2026 budget because of higher Department of the Air Force priorities, according to the report.

    R-GPS was part of a broader push by the Pentagon to diversify satellite architectures amid concerns that spacecraft are vulnerable to interference or attack.

    The Space Force has not said whether it plans to pursue alternative positioning, navigation and timing (PNT) efforts in place of R-GPS.

    Lawmakers have repeatedly raised concerns about GPS vulnerability and have called for studies examining commercial low Earth orbit navigation services as potential complements or backups to GPS.

  • L3Harris demonstrates reprogrammable PNT system for US Space Force

    L3Harris demonstrates reprogrammable PNT system for US Space Force

    L3Harris has demonstrated a positioning, navigation and timing (PNT) solution for the U.S. Space Force’s Space Systems Command that is adaptable across platforms, fully reprogrammable on orbit and scalable to support more signals and increased power as PNT threats evolve. According to L3Harris, the solution is designed to provide the Space Force with the flexibility to deploy smaller, multi-launch-capable satellites, thereby strengthening or diversifying its satellite constellation.

    During a two-day design concept review, L3Harris presented a resilient-GPS (R-GPS) prototype that exceeded current requirements, highlighting its potential to accelerate the Space Force’s roadmap for a stronger, more adaptable PNT infrastructure. Using the Navigation Technology Satellite-3 reprogrammable payload and NSA-certified cryptography, the company simulated the operation of an R-GPS satellite transmitting navigation signals. These signals were successfully acquired and tracked by monitoring stations, military receivers and commercial equipment, demonstrating that R-GPS technology can be seamlessly integrated into the existing GPS framework.

    “Our team transmitted, tested and validated a core set of R-GPS signals across the entire enterprise to demonstrate a fully reprogrammable, resilient PNT solution for the Department of Defense,” said Ed Zoiss, president of Space and Airborne Systems at L3Harris. “We leveraged best-in-class commercial technology and the government’s investment in NTS-3 PNT technologies.”

    L3Harris followed a “prototyping with purpose” approach that showcased maturity far beyond a traditional Preliminary Design Review, resulting in a low-risk, achievable plan for the future development phases of the R-GPS program. The L3Harris R-GPS design includes capabilities aligned to future Lite Evolving Augmented Proliferation, providing an opportunity for roadmap acceleration and reduction in lifecycle costs. 

    “Our approach supports satellite design verification, proves compatibility with the Control Segment and user equipment, and enables early integration opportunities,” Zoiss said. “After more than five decades in the field, we understand the challenges in aligning the Space, Control and User segments of the GPS enterprise, so we used a holistic, unified approach.”

    The Design Concept Review demonstrated how the L3Harris R-GPS satellite can minimize impact on existing control systems while maintaining backward compatibility with current and future user equipment. In 2024, L3Harris was selected to design concepts for Phase 0 of the R-GPS program through the Space Enterprise Consortium, which the National Security Technology Accelerator manages. The agile R-GPS satellite program aims to reduce costs by launching eight smaller, more advanced space vehicles simultaneously, allowing the United States to quickly modernize GPS.

  • Sierra Space demonstrates resilient GPS technology for US Space Force

    Sierra Space demonstrates resilient GPS technology for US Space Force

    Sierra Space, a commercial space and defense technology company, has successfully completed another demonstration of its resilient GPS (R-GPS) technology for the U.S. Space Force. This achievement marks the third major milestone for the program, which is designed to enhance the resilience of GPS infrastructure against threats such as jamming and spoofing. The recent demonstration included early integration of R-GPS satellite technology using FlatSat flight software and hardware subsystem testing, as well as successful communication with ground software systems.

    The R-GPS effort is part of a broader initiative by the U.S. Space Force’s Space Systems Command to develop smaller, more cost-effective GPS satellites. Sierra Space was awarded a Quick Start contract in September 2024 to produce design concepts for these satellites, aiming to rapidly bring advanced technology to the national security space sector. The company’s progress comes just six months after the program’s inception, highlighting its ability to accelerate technology development in response to evolving defense needs.

    GPS technology is integral to both civilian life and military operations, supporting applications that range from smartphone navigation to critical defense activities. As adversarial threats become more sophisticated, the need for resilient GPS systems has grown. The R-GPS program addresses this by planning to augment the existing GPS architecture with a network of smaller satellites, which would provide additional layers of security and rapid deployment capabilities.

    The latest testing milestone demonstrated the flow of commands and telemetry between Sierra Space’s ground software and a ground stations service provider, establishing that the technology can operate effectively between orbit and ground-based facilities. The FlatSat testing format, where satellite components are evaluated while laid out flat, allowed for early integration of flight software and hardware subsystems.