| Last Name | Name | Awards | Contact | |
|---|---|---|---|---|
| Knobbe | Edward T. Knobbe | 12 | Message | |
| Knobbe | Edward Knobbe | 2 | Message | |
| Dees | Stacy Dees | 2 | Message | |
| Bingham | Adam Bingham | 1 | Message |
Phase 2 SBIR
Technical Abstract (Limit to 200 words with no classified or proprietary information). The proposed Phase II project focuses on the development and demonstration of a re-configurable, real-time portable infrared hyperspectral imaging (HSI) system. The envisioned sensor will provide users with significantly enhanced, multi-mission oriented capab...
Phase 1 SBIR
Develop and, in phase II demonstrate, a re-configurable, real-time portable infrared hyperspectral imaging system. The envisioned capability will have demonstrated utility in detection and identification of critical targets in complex, highly variable backgrounds. The project team proposes to develop a concept for an infrared hyperspectral ima...
Phase 1 SBIR
ABSTRACT: The Phase I effort will focus on a design tradeoff study to address the mission requirements and how alternate HSI sensor system designs address the requirements. These trades will include field of view and sampling rate versus target velocity within the scene, focal plane array size, number of spectral bands, spatial resolution, scan...
Phase 1 SBIR
Spectrum Photonics will utilize our 20 years of experience in developing and employing multi-spectral disturbed earth sensors to develop a vehiclemounted, low-cost mobile footprint detector. To meet the specifications described in the SBIR topic, our team will develop a multi-spectral long wave infrared sensor that will exploit the restrstrahlen...
Phase 1 SBIR
Hyperspectral sensors have demonstrated the ability to provide remote sensing utility and actionable information to the warfighter. Currently deployed airborne hyperspectral platforms feature near real-time processing to generate detection products in minutes. Extending this functionality to the ground-to-ground (G2G) scenario however presents...
Phase 2 SBIR
The US Army, in support of the Joint Contaminated Surface Detector program (JCSD) program, has expressed a need to extend the advantages of wide area passive infrared sensing of chemical contaminants to the problem of detecting liquids contaminants on surfaces. A passive wide area monitoring system would allow rapid evaluation of large areas for...
Phase 1 SBIR
Our goal is to design and build a lightweight, wide area passive standoff imaging detection system capable of rapidly detecting liquids on surfaces for the purpose of contamination avoidance and reconnaissance. The envisioned technology extends the advantages of wide area passive infrared sensing of chemical contaminants to include detection of...
Phase 2 SBIR
Project goal is to develop and demonstrate a chemical/explosive sensor system to provide enhanced detection and classification in missions for which acoustic or optical imaging alone are not effective. The chemical sensor package developed and delivered during this SBIR effort will be lightweight, low power, and modular for efficient integration...
Phase 2 SBIR
The objective of this project is to investigate an emerging spectral imaging technology having the capability of detecting and identifying improvised explosive devices (IEDs) and explosively formed penetrators (EFPs), or landmines; at standoff distances of between 100 meters to 250 meters. Goal is to enable the warfighter to attain a 30 kph rate...
Phase 2 SBIR
Due to the potential detection benefits offered by hyperspectral imaging spectroscopy, this is an area of great interest in terms of early detection of plume threats. The major constraint is in costs of components. Under this SBIR, our team will investigate innovative advances in the integration of uncooled microbolometer technologies to deter...
