Currently, Special Forces radios are spatially inefficient, temperature limited, and heavy, limiting mobility. However, this can be fixed by the novel use of commercial next-gen materials.
Our persistent isotopic battery and comm solution will make US Army Special Forces Operation's Equipment up to 75% lighter while providing more than 72 hrs of power and live-feeding UHD video
Modular computing and communications platform that is smart, adaptable, and interoperable
Optical communication leveraging existing gear to allow for new solutions
One compressor to compressor them all!
A portable communications dongle to turn teams into dynamic organisms.
Transmit encrypted data over voice comms paths from an Android app.
A rugged portable printing system allowing for modification and adaptation of equipment in the field.
CREATE SUPER COMPUTER WITH DISTRIBUTION OF MINI COMPUTERS IN UNIFORMS
We're building an aerial mapping drone that will create a 3 dimensional map of the area for route planning or mission briefings.
We make the warfighter safer. We make top secret information securely transmittable. We make power storage lighter, smarter, and leaner and we make on-the-fly authentication and encryption possible.
TACP abstracts data transfer from hardware & network constraints to enable teams in austere environments to deliver secure, adaptive communications across military, indigenous & non-standard networks.
A cognitive radio that dynamically and automatically change and combine channels to conserve power and increase bandwidth
Use machine learning and graphic overlays in order to augment, enchance, and simplify the harsh and hectic environments faced by soldiers in the battlefield.
See what you need
SOF are often put under situations wherein every piece of information is crucial to the success of the mission and ensures their own safety. We developed a method to relay visual intel more reliably.
Real time adaptive image compression for limited bandwidth field environments.
1 – 19 of 19