MOSA and JADC2 Driving Innovation in Military Vetronics Applications
Vetronics systems today are increasingly focused on C4ISR [command, control, communications, computers, intelligence, surveillance, and reconnaissance], interoperability with other battlefield elements, and the capability to be optionally unmanned if necessary.
Minimizing Latency Can Enhance Situational Awareness In Tactical Ground Vehicles
Through-armor video systems provide in-vehicle crews of manned and remote crews of unmanned ground vehicles with critical visibility and situational awareness. This vital visual information needs to be accessible as close to real-time as possible.
Designing Rugged SWaP-Optimized MOSA Solutions for UUVs
As the U.S. Navy increases its investment in its fleet of unmanned undersea vehicles (UUV), suppliers of rugged commercial-off-the-shelf (COTS) subsystems, providing solutions for mission computers, network switches, and routers, and data storage are meeting the needs of these unique platforms.
Sensor Open Systems Architecture (SOSA): Enabling the Next Generation of Flexible and Adaptable Radar Systems
In order to keep up with the continued acceleration of new technology and to be able to protect the warfighter from the latest threats, it is essential that we can turn our deployed platforms into adaptable entities that can evolve over time and are not static. The SOSA [Sensor Open Systems Architecture] Technical Standard is the next major step in realizing this goal.
Designing Multifunction Radar and EW Systems Means Staying Ahead of the Tech Curve
Tammy Carter and David Jedynak discuss how huge data demands are pushing radar and electronic warfare (EW) developers to seek new ways to deliver multifunction systems that also meet strict size, weight, and power (SWaP) requirements.