MOTIV: Material Online Transport Inventory Visability
Based on Navy SBIR-developed technology, MOTIV applies artificial intelligence to supply data to help logistics analysts predict where and when parts and other supply materiel will be available, and to better understand the implications of transferring materiel from one place to another.
A Fully Loaded Aerial and Data Platform for all things Unmanned
Quark has pioneered a next generation small Unmanned Aircraft System with a full suite geospatial data analysis toolkit. Quark’s first drone, named the Revenant, was engineered to fundamentally change the way humans interact with unmanned systems. It is a class leading drone in interoperability, durability, and AI capabilities.
A large Legged Robot Capable of Operating on Unstructured Terrain with Heavy Payload
RMD has developed a large, legged robotic platform capable of operating on unstructured terrain while carrying a large payload relative to the vehicle's mass. The two prototype vehicles are able to carry 1200lbs and 3000lbs of payload, respectively. A network of real time sensors enables good off-road performance.
Revolutionary, autonomous, long-duration, multi-hulled sailing cargo vessel
These will represent a new generation of small, affordable, autonomous, rugged, long-duration, hard-to-find cargo vessels that are 100% energy harvesting that can deliver cargo and/or equipment (like UUVs) to locations on the coast and ocean.
Through-Barrier Wireless Power and Data Communication
SWR Technology offers a smarter way to power the AIOT world. Our patented technology enables efficient wireless power and data communication through barriers. In addition to being used in innovative automotive/commercial designs, it also provides highly reliable, maintenance-free, electrical connections for industrial/defense/space applications.
Micro Scalable Thrusters for Adaptive Mission Profiles in Space (µSTAMPS)
µSTAMPS is an electric micro-propulsion solution for Cubesats. The propellants are low melting temperature liquid salts (Ionic Liquids). The novel and proprietary design is robust and monolithic, optimized using computational methods, and easy to fabricate. It presents precise, ultrasharp, and consistent geometries that favor efficient operation and modest operating voltages.