BAE Systems’ Combat System Mission Crew Workstation Qualified for P-8A Poseidon aircraft

Aug. 31, 2022
Poseidon takes to the sky with BAE Systems’ mission computing technology.

BAE Systems’ Combat System Mission Crew Workstation (CSMCW) is now qualified for the P-8A Poseidon Multi-mission Maritime Patrol Aircraft – adding to the aircraft’s mission capability. The qualification follows a successful test flight of the first combat system-capable P-8A test aircraft in June 2022.

The workstation is the aircrew’s primary interface to mission-critical systems, allowing them to successfully navigate demanding anti-submarine, anti-surface, and intelligence, surveillance, and reconnaissance missions. There are two systems per aircraft, which control the aircraft’s sonar, radar, sensors, and weapon systems.

“Our mission computing and display system provides the reliability required for aircrews to operate in challenging environments,” said Donna Linke-Klein, director of Tactical Systems at BAE Systems. “This newly qualified workstation will enable superior mission computing performance while providing size, weight, power, and ergonomic benefits.”

Built with ultra-strong lightweight composite materials, the workstations improve aircraft and weapon systems’ performance. They are also designed with ergonomic considerations, such as an optimal viewing angle for both seated and standing crewmembers.

With installation potential on approximately 130 aircraft for the U.S. Navy, and additional Foreign Military Sale opportunities, this qualification, completed at the BAE Systems’ Greenlawn, New York site, also positions the workstations for mission enhancements on future aircraft.

BAE Systems has been designing and manufacturing cost-effective military computer and display systems for more than 50 years. The company provides state-of-the-art identification and mission computing products, leveraging commercial off-the-shelf hardware to develop modular, scalable, and flexible systems that reduce development costs for new and emerging platforms.