Award Data

In the current SBIR program, AlphaSense aimed at developing a novel, handheld, non-destructive sensor to evaluate the integrity of Naval Advanced Amorphous Coatings (NAAC) in real time. In phase I, we have proven the feasibility of using the cavity perturbation technique to detect different types of defects present in thermal-sprayed testing coupons. Specifically, we optimized the sensor probe des ...

Scheduling is a complex, NP-hard problem that challenges the use of any single solution technique. In Phase I, we built a model that uses our multi-technique Quantum Leap Problem Solving Engine to solve a representative but simplified version of the AirForce Satellite Control Network (AFSCN) contact scheduling problem. The system demonstrated that it could schedule the hundreds (500 to 600) of t ...

The continued advance of flat panel display technology in the commercial and consumer display industry offers the opportunity to provide wide field of view high resolution displays to the flight simulation community with significantly higher performance and lower cost than previously available. These flat panel displays offer exceptional brightness and contrast and steadily increasing resolution ...

This project will create a distributed portal and virtual testbed for ATR/Fusion algorithms. The investigators will develop a CORBA architecture and software tools to support profiling of distributed software processes, workflow task management, andinterfaces to algorithm and performance measure repositories. The investigators will design and create databases for algorithm inputs, algorithm outp ...

Based on multiple technology platforms and theoretical analyses, in the Phase I program we have demonstrated the feasibility that RF polymers with desirable high frequency properties can be achieved. Following Edison¡¯s model of product and process development for technology innovations, Phase-II will pursue further incremental improvement in material properties upon the concept-proving materi ...

The Air Force has identified a need for an advanced traveling wave tube amplifier (TWTA) that supports future generations of broad bandwidth, efficient and linear military satellite and terrestrial communications. To address this need, InnoSys proposes to develop innovative solutions for advanced TWTAs that operate from 81 to 86 GHz, deliver high efficiency greater than 30% with a small signal ga ...

InnoSys proposes the advanced development of microwave power modules (MPMs) that combine monolithic microwave integrated circuit (MMIC) driver amplifiers with miniature traveling wave tube (TWT) amplifiers. This provides high power density at low cost and a small size and weight. When used as a driver amplifier in the MPM, the V/W band MMIC provides sufficient power and gain to drive the special ...

The overall objective of the Phase II effort is to demonstrate a solid oxide fuel cell stack to power unmanned undersea vehicles (UUVs). We will use established and proven solid oxide fuel cell (SOFC) technology developed at MSRI to achieve this objective. Based on the success of Phase-I effort, a scaled-up stack of 1~3 kW size with peak power of ~6 kW will be demonstrated. The stacks will be o ...

During the last two decades, there has been considerable interest and research in inorganic polymers (“geopolymers”) for high-temperature applications. Geopolymers are manufactured by combining aluminosilicate powders with activating liquids through a polycondensation reaction. The resulting cured geopolymer can exhibit high compressive strengths after only four hours of set time. Geopolyme ...

A nearly universal trend in modern technology is the continued integration of systems, and their associated devices, on decreasingly smaller scales. While this has led to personal computers that offer more functionality and faster computational speeds, ithas also spurred the development of hybrid optoelectronic systems on a chip (SOCs). Currently, such SOCs are receiving significant interest fro ...