Award Data

The objective of this research is to develop beta versions of tools for automatically migrating radiation effects predicted in TCAD level tools to compact modeling tools. This transition will enable compact models that possess radiation effects to be quickly generated, which can then be used in circuit design activity. This approach is a substantial improvement over the current ad hoc approaches. ...

The current project will develop and demonstrate a prototype compact, power-efficient all-fiber lidar unit for wind profiling on board UAV's and other aircraft. The system leverages Oceanit's current fiber-laser based lidar development efforts. A unique design provides a rugged system with no moving parts and little maintenance requirements. Efforts in the current project will include prototype s ...

Oceanit proposes to develop a reliable, low-cost, easy-to-install, self-monitoring, and self-expanding wireless communication system to enable remote monitoring and tracking of sensors on emergency first responders in hostile environments. The heart of the system will use a Zigbee wireless mesh networking IC for low power and low cost communications. By using a wireless mesh network, low power wir ...

High quantum efficiency (QE), fast (

The applicant will develop a wave energy harvesting system for NOAA buoys. It will ve entirely self-contained (no protruding elements), modular, scalable, and easily deployed. The system employs a unique, inertial mechanism that responds to acceleration forces created by waves. This mechanism will be combined with (1) a proprietary generator that is sensitive to very low levels of torque and ha ...

Single chirality of single-walled carbon nanotubes (SWCNTs) is critical for their superb mechanical, thermal, optical and electronic properties. All known methods for producing nanotubes give mixtures of tubes with different chiralities. Physical separation of SWCNT by chirality is thus an enabling step for many potential applications and fundamental studies. The existing anion exchange resins are ...

One of the most critical challenges facing our war fighter is to detect enemy fire quickly and accurately for force protection. Existing acoustic systems protect against gunshots only and are relatively slow; optical systems are large and expensive, suffer from a high false alarm rate, and do not provide 360 degree coverage. To address these issues, Oceanit has developed an enhanced Hostile Fire ...