Traditionally the electronic warfare (EW) market has been flavored with customized systems and stovepipe technology based on closed architectures...
Author: embedded e-cast
As the variety and complexity of communication systems in the modern RF battlefield increase, the need to quickly design, deploy and field upgrad...
Learn from proven, successful, and feature-rich SWaP-C optimized deployments. It is more and more difficult to meet expanding I/O needs, tight bu...
Many of the feats accomplished by modern military radar and electronic warfare (EW) systems are enabled by commercial technology -- from the sign...
Today's military sensor and other high-performing processing systems generate massive amounts of data. Often, this sensitive or mission critical ...
Commercial processors and FPGAs promise and deliver performance advantages for military communications systems, sensor applications, radar, and e...
Autonomous aircraft -- from hand-thrown unmanned aerial vehicles (UAVs) to high-flying jet-powered platforms are close to being certified to fly ...
Military radar and electronic warfare (EW) system designers are leveraging Gallium Nitride (GaN) technology more and more for their RF solutions ...
Safety critical systems, whether in avionics, automotive, and medical applications are built on requirements. Today the complexity of these syste...
Military signal intelligence (SIGINT) and image processing applications require the processing of very large data sets to predict and evaluate fu...