MOTION IMAGERY MANAGEMENT SYSTEM COMPRISED

Brand Owner (click to sort) Address Description
MAAS GENERAL DYNAMICS ADVANCED INFORMATION SYSTEMS, INC. Suite 800 12450 Fair Lakes Circle Fairfax VA 22033 Motion imagery management system comprised of computer [ hardware, ] software [, and middleware ] for use by the military, intelligence and defense community;
MULTI-INT ANALYSIS AND ARCHIVE SYSTEM GENERAL DYNAMICS MISSION SYSTEMS, INC. 12450 Fair Lakes Circle Fairfax VA 22033 Motion imagery management system comprised of computer hardware, software, and middleware to capture, exploit, disseminate, and archive motion imagery, full motion video, and various multimedia data types for use by the military, intelligence and defense community;ANALYSIS AND ARCHIVE SYSTEM;
MULTIMEDIA ANALYSIS AND ARCHIVE SYSTEM GENERAL DYNAMICS ADVANCED INFORMATION SYSTEMS, INC. Suite 800 12450 Fair Lakes Circle Fairfax VA 22033 Motion imagery management system comprised of computer hardware, software, and middleware for use by the military, intelligence and defense community;SYSTEM;
TAC-MAAS GENERAL DYNAMICS MISSION SYSTEMS, INC. 12450 Fair Lakes Circle Fairfax VA 22033 Motion imagery management system comprised of computer software and middleware to capture, exploit, disseminate, view, analyze, and archive motion imagery, full motion video, and multimedia data for use by the military, intelligence and defense communities;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. The image registration systems and methods according to this invention register reflectance and fluorescence hyperspectral imagery and provide the spatial image transformation between the reflectance and fluorescence hyperspectral imagery. A reflectance image is embedded into the fluorescence hyperspectral imagery and thereby resolves the resemblance problem of reflectance and fluorescence hyperspectral imagery. The reflectance image is embedded into the fluorescence hyperspectral imagery using (1) light from a narrow-band source embedded in Ultraviolet (UV) excitation light, (2) second order diffracted light, and/or (3) Ultraviolet (UV) excitation light reflectance. Resembling reflectance images are calculated from the reflectance hyperspectral imagery and the embedded reflectance image in the fluorescence hyperspectral imagery. The two respective reflectance images are pre-processed to maximize the resemblance between them. Image registration algorithms use the two pre-processed reflectance images and calculate the spatial image transformation that allows to map the spatial coordinates from the reflectance to the fluorescence hyperspectral imagery (and vice versa).