EPISYS SCIENCE, INC.
We propose to develop a Bio-inspired Autonomic Airborne Infrastructure (BAAI) aimed at dynamically reconfiguring and redeploying the airborne infrastructure of predominantly/entirely unmanned airborne ...SBIR Phase I 2011 Department of Defense
This project challenges conventional assumptions being made on future airborne networking for both manned and unmanned platforms such as sparse connectivity, sensor-centric mission, and single-mode co ...SBIR Phase II 2012 Department of Defense
We propose to develop, implement and demonstrate Multi-Function Cognitive Radio Architecture (MF-CRA), a novel software-defined cognitive radio architecture that simultaneously achieves robust tactica ...SBIR Phase I 2013 Department of Defense
Traditionally, a SIGINT system requires special-purpose hardware (both RF and digital) and custom-design algorithms to rapidly and reliably detect targeted"signals of interests"known a prior ...SBIR Phase I 2014 NavyDepartment of Defense
EpiSys Science, Inc. and University of Arizona propose to develop, implement, and demonstrate Multi-Function Cognitive Radio Architecture (MF-CRA) for Space Communications, a novel software-defined ra ...SBIR Phase I 2014 National Aeronautics and Space Administration
We propose to develop and demonstrate BioComm, a bio-inspired autonomous communications system (ACS) aimed at dynamically reconfiguring and redeploying autonomous communication assets in accordance wi ...STTR Phase I 2014 National Aeronautics and Space Administration