The technology uses focal plane array imagers to overcome limitations of many commercial and military applications of millimeter wave images. Several systems are currently being developed to address the market need for systems for security, law enforcement, and the Department of Defense. The Millimetrix Millivision imagers make extensive use of Gaussian optics. The primary optic is a lens. The images also make extensive use of various types of Gaussian optics filters, wave plates, and other passive elements in the design of these imaging systems. Perhaps the most innovative and unique aspect of the optics design is the use of a new class of active optics employing arrays of MMIC chips to perform certain signal-processing functions of the free-space electromagnetic wave. The project also included the development of basic image-processing algorithms such as a flat-field algorithm. In addition, the project developed a prototype of a future video surveillance camera that uses passive millimeter wave imaging and provides a real-time, 30-frame-per-sedond video image of the field of view under surveillance. Photographs, figures, and copy of project report summary
Downloads
Similar Publications
- Development of Fast and Comprehensive Approaches for Gunshot Residue Interpretation Using Ambient Ionization, Mass Spectrometry, and Microparticle Sampling Studies
- A Computational Study on the Atmospheric Fate of Carbon-Centered Radicals from the 3-Methyl-2-butene-1-thiol + •OH Reaction: Mechanistic Insights and Atmospheric ImplicationsArticle link copied!
- Improved DNA Recovery and STR Profile Development from Weathered Bos Taurus Bones using Demineralized Bone Slices