Curtiss-Wright
Suite 200
Ashburn, Virginia 20147 [email protected]
https://www.curtisswrightds.com/
Creating the data fabric for tactical edge with software-defined wide area networking - Story
June 23, 2022A software-defined WAN (SD-WAN) can establish a data fabric capable of dealing with any tactical edge scenario where reliable WAN is needed.
Bringing security to legacy systems for modern missions - Story
June 22, 2022Many defense and aerospace processing systems are upgraded or refreshed rather than replaced for cost efficiency and to reduce out-of-service time.
Secure wireless communication supports mounted and dismounted connectivity - Story
April 26, 2022Secure wireless communications (SWC) technology for vehicle-to-vehicle (V2V) and vehicle-to-end user device (V2E) communication is useful for tactical environments as it improves network flexibility and operational maneuverability while reducing management complexity and cost. As seen in the commercial market, securely implementing wireless local area network (WLAN) communication opens the door for innovative solutions to existing and future operational challenges.
Migrating legacy software from obsolete hardware to modern system environments - Story
April 26, 2022Virtualization software and model-based design provide a path that not only enables system designers to maintain legacy software for avionics and other mission-critical systems but also makes it possible to migrate that code to modern higher-performance processing platforms, for example from an older PowerPC-based VME board over to a new x86 or Arm-based VME or OpenVPX module.
Curtiss-Wright Debuts First Raspberry Pi Powered Ultra-Small Form Factor Rugged Mission Computer for Defense and Aerospace Applications - Press Release
March 14, 2022ASHBURN, Va. – March 14, 2022 – Curtiss-Wright's Defense Solutions division, a leading supplier of modular open systems approach (MOSA) solutions engineered to succeed, today introduced the Parvus DuraCOR Pi, the embedded industry’s first Raspberry Pi (RPi) powered mission computer for defense and aerospace applications.
Sensor Open Systems Architecture (SOSA), unmanned vehicles, and trusted computing - Story
March 08, 2022Today, with the increasing use of unmanned platforms to host intelligence, surveillance, and reconnaissance [ISR] sensor applications, system integrators need to ensure that the sensor systems and the critical data they collect and store are protected from falling into the wrong hands. By their very nature, unmanned platforms – whether airborne, on land, or at sea – pose more complex problems for security. All systems, regardless if deployed on manned or unmanned platforms, are now required to adhere to the Department of Defense (DoD) mandate for a Modular Open Systems Approach (MOSA). The good news for unmanned ISR system designers is that The Open Group’s SOSA [Sensor Open System Architecture] Consortium recently released Technical Standard for SOSA Reference Architecture, Edition 1.0, which defines many aspects of trusted computing for sensor systems. The SOSA standard combines MOSA principles with security to enable the rapid and affordable deployment of secure sensor systems on unmanned platforms.
Unmanned ISR payloads leverage MOSA designs - Story
March 04, 2022See more, detect more, and decode more – these are the primary requirements being asked of unmanned systems in the military, and proprietary hardware and software can make achieving those goals a challenge. This is why Army, Navy, and Air Force leaders mandated a Modular Open Systems Approach (MOSA) for all new programs and upgrades. MOSA examples include the Sensor Open Systems Architecture (SOSA) Technical Standard and the Future Airborne Capability Environment (FACE) Technical Standard. These initiatives among others, aim to offer commonality of hardware to enable easier and more affordable technology insertion in unmanned systems.