A leading defense contractor needed a mobile, rugged mission timing and sync reference that could distribute accurate timing to network devices onboard tactical vehicles. Specifically, they needed a device that could provide mission timing accuracy 24 hours per day in hostile, GPS-denied environments. The device would be part of a major C4ISR program for operational battlefield management capability for an Allied nation, and would be integrated into a continuous operations platform for situational awareness.
VersaSync Delivers Resilient PNT and Mission Timing & Sync on Tactical Vehicles
March 18, 2020
Rocket into Orbit with a GSG-8 Advanced GNSS Simulator
March 4, 2020
A major commercial aerospace manufacturer needed to launch small cube satellites into Low Earth Orbit (LEO) and Medium Earth Orbit (MEO), with small to medium sized payloads that supported Commercial Lunar Payload Services. Their goal was to simulate GNSS signals with their rockets, each of which had two antennas.
Orolia’s GSG-8 GPS/GNSS Simulator Trains Pilots to React to Real-World Situations
January 10, 2020
Military aviation programs provide standard pilot training to ensure that they can handle fighters, drone swarms and other advanced threats. But as they run complex flight training scenarios and face off against live and virtual adversaries, what may be overlooked is the value of using GPS/GNSS simulation to duplicate actual cockpit instruments, rather than relying on facsimile instruments.
GSG-8 Advanced Simulator Ensures Critical Space Mission Readiness
November 25, 2019
An Orolia customer that provides solutions for national security missions needed two perfectly synchronized GPS simulators that could simulate two synchronized trajectories in space at the same time. The customer required flawlessly synchronized receivers on two different Low Earth Orbits (LEO) with a time difference that could not exceed extremely tight constraints – within ±100 picoseconds (ps).
Precision Timing for Airborne Reconnaissance
November 13, 2019
The US military needed a time synchronization solution for critical reconnaissance data as part of an aircraft modernization program. To accurately receive sensor data, receivers on surveillance aircraft must stay on frequency and the recorded data must be time stamped for data center synchronization across the military communications network.