Designers of rugged embedded computing systems, laptop computers, and tablet computers balance the need to operate in harsh conditions, as well as meet growing requirements for open-systems standards.
The Raspberry Pi SWaP-C Revolution: Driving Battlefield IoT
For size, weight, power, and cost (SWaP-C)-constrained applications, a military-grade Raspberry Pi-based mission computer defines a whole new class of solution for intelligence and connectivity at the tactical edge.
The U.S. Army’s Mounted Assured PNT System (MAPS) program was initiated to replace existing GPS receivers and antennas in most of the Army’s ground vehicle variants.
It's nearly impossible to use power efficiently enough to eliminate waste heat altogether. Enhancing efficiency can help reduce waste heat -- but only to a degree.
One of the key tenets of Multi-INT or multi-modality is that the architecture by its very nature is realizable through the core components of a sensing system which can accommodate more than one mission at the same time.
SOSA and Open Standards for Military Embedded Computing
Embedded computing systems in forward-deployed vehicles that meet SOSA certification will enable easier replacement of components and even upgrades thanks to vendor-agnostic requirements.
The Sensor- and Signal-Processing Challenges of Electronic Warfare
Greater processing power, advanced filtering, and better signal rejection are among the digital signal processing enabling technologies for electronic warfare projects today.