Program objective is to develop an easy to use hyperspectral visualization tool to assist the layman, whether they are the warfighter or first-responder, in quickly identifying anomalies in the area of interest. Historically, hyperspectral processing has been accomplished by imaging research scientists using highly complex procedures and laboratory-derived signature databases to match known signatures of known materials to extracted signatures for ID purposes. Challenges in working with hyperspectral data include the sheer volume of the data, incorporation of spectral libraries, and compensating for the affects of the atmosphere. Currently with only three bands visible at a time, there is a need for more visualization innovation. As the hyperspectral market grows there will be an increasing need for cost-effective simplified hyperspectral tools that work under a range of field conditions (i.e. not just the laboratory). The proposed research will develop a cost effective, easy to use hyperspectral visualization and exploitation tool for the non-scientist and layout a plan for incorporating new visualization and exploitation innovations. This hyperspectral visualization and exploitation technology will save time and money for the government and commercial sectors.
Benefits: Hyperspectral visualization and spectral exploitation of hyperspectral data is a relatively new technology that can extend the capabilities of traditional electro-optical imaging systems by offering improved procedures, algorithms, and accuracy for target detection and material identification. Such improvements would include both military and commercial applications, including detecting the use of camouflage, concealment and deception (CC&D), the development and deployment of nuclear, biological and chemical (NBC) weapons, as well as agricultural, emergency response, environmental monitoring and geological assessments, and homeland security.
Keywords: Hyperspectral Imaging, Image Processing and Exploitation, Camouflage, Concealment, Deception(CC&D), Spectral Signature Analysis, Nuclear, Biological and Chemical (NBC)