Award Data

The proposing team will continue the development, testing, and productization of a Small, Image-aided Navigation and Autonomous Path-planning System (SINAPS) for UAVs. The SINAPS utilizes a capable suite of sensors together with state-of-the-art computing to enable real-time autonomous sensing and maneuvering at high speeds even in obstacle-rich environments. Due to the limitations and power req ...

The USAF recognizes that benefits to cold working fastener holes include significantly increased life of a structure subjected to fatigue loading. However, full realization of this potential from a maintenance and engineering standpoint is hindered by the fact that there is currently no adequate field technique for determining how well the material structure immediately surrounding the hole has re ...

The objective of this work is to develop ATR algorithms that use the spectropolarimetric information in multi-discriminant ladar images to segment, detect and identify hidden targets. Hidden targets using camouflage, concealment and deception are difficult to detect with standard weapons sensors including basic ladar systems. A multi-discriminant ladar having polarized, multi-spectral, and multi ...

In this Phase I SBIR program, Brewer Science, Inc. (BSI), a leader in innovative microelectronic materials, and our pioneering additive manufacturing partner will develop and demonstrate a cost-effective materials production process for fabricating high-performance thin-film transistors (TFTs) using single-wall carbon nanotubes (SWCNTs) and manufacturing-scalable direct printing technology. In re ...

We study the problem of sensor calibration as it might be applied to a tactical UAV system where operability and robustness are paramount. A large number of airframes and diversity of sensor types argues for an approach that is low cost (exploiting calibration targets in the field) and applicable for various sensors. The study considers various approaches to sensor calibration and measurements e ...

We will develop "flexible sensing" techniques that will enable a single sensor to perform the functions of both a "seeker" and a "target detection device". One set of approaches will comprise resolution enhancement and other techniques to extract target identification and tracking information, as would be provided by a "seeker", from a low resolution / high update rate sensor. Hyperacuity-based a ...

InGaN-based thin multijunction solar cells will be developed to achieve an efficiency as high as 40%. These solar cells are of light weight and high radiaton hardness which are most suitable for space application.

High temperature wireless sensors and data acquisition electronics are proposed to provide active monitoring of tire bead temperature, tire pressure, and brake temperature on landing gear. The proposal includes versatile packaging of sensors and electronics for installation and multiple channel data-acquistition on virtually any set of landing gear.

ENGeniousMicro proposes to develop a micromachined sensor that will operate at high temperatures with high frequency response to measure surface pressure, shear stress, and heat flux distributions. Through the use of micromachining technologies, we will develop a sensor that has a small form factor and can be flush mounted on the object to be monitored. Our sensor will be designed to have a freq ...

The objective of this project is to optimize the design of a microwave interference scanning system and application procedure for use in the Ceramic Matrix Composite (CMC) manufacturing process. Quick, efficient in-process measurement of part porosity will be an integral part of pyrolysis cycle optimization. The feasibility of this application of the novel Evisive Scan microwave interference sca ...