초록 ▼

A visual cognition system immersed in a medium with object and the system is also an object. The system includes means for conveying energy, which include one or more dispersive elements. The system includes means for sensing energy. The means for sensing include a plurality of detectors. The system

A visual cognition system immersed in a medium with object and the system is also an object. The system includes means for conveying energy, which include one or more dispersive elements. The system includes means for sensing energy. The means for sensing include a plurality of detectors. The system includes means for modeling sensed energy, thereby creating a sensed energy model. The sensed energy model represents the sensed energy at a plurality of frequency bands, a plurality of polarization states, a plurality of positions and a plurality of times, using the sensed data. The system includes means for modeling a scene, thereby creating a scene model. The scene model represents the scene in three-dimensional space. The means for modeling a scene uses the sensed energy model from a plurality of directions at a plurality of times.

대표청구항 ▼

1. A visual cognition system, the system is immersed in a medium, one or more objects are immersed in the medium, the system is also an object, electromagnetic energy propagates in the medium, the objects, the energy and the medium comprise a 3D scene, the boundaries between the objects and the medi

1. A visual cognition system, the system is immersed in a medium, one or more objects are immersed in the medium, the system is also an object, electromagnetic energy propagates in the medium, the objects, the energy and the medium comprise a 3D scene, the boundaries between the objects and the medium are surfaces, some of the electromagnetic energy scatters from the surfaces, the system includes: means for conveying energy, which include one or more dispersive elements, the means for conveying receives some of the energy from the scene,means for sensing energy, the sensed energy is received from the means for conveying, the means for sensing include a plurality of detectors, the detectors detect the intensity of sensed energy at video rates and at high dynamic range, thereby creating sensed data,means for modeling sensed energy, thereby creating a sensed energy model, the sensed energy model represents the sensed energy at a plurality of frequency bands, a plurality of polarization states, a plurality of positions and a plurality of times, using the sensed data, andmeans for modeling a scene, thereby creating a scene model, the scene model represents the scene in three-dimensional space, the means for modeling a scene uses the sensed energy model from a plurality of directions at a plurality of times. 2. The system of claim 1 wherein the means for modeling sensed energy includes a means for performing computational tomography and the sensed energy model is an image hypercube. 3. The system of claim 1 wherein the means for modeling a scene further includes means to represent the surface elements in one or more of the following morphologies: rigid, deformable and particle. 4. The system of claim 1 wherein the means for modeling a scene further includes means for modeling changing polarization of the energy as it interacts with the surfaces. 5. The system of claim 1 wherein the scene model is solid, spatially sorted and hierarchical. 6. The system of claim 1 wherein the means for conveying includes one or more of a refractive element, a reflective element, a diffractive element, a lens, a mirror, a fiber optic element, a microlens array, a baffle, a micromirror array, a catoptric element, a holographic optical element, a diffractive optical element, a beam steering mechanism, an element including metamaterials, an element including birefringents, a liquid crystal, a nematic liquid crystal, a ferroelectric liquid crystal, a linear polarizer, a wave plate, a beam splitter or a light emitting diode a form birefringent. 7. The system of claim 1 wherein the means for sensing includes one or more of a focal plane array, a direct image sensor, a multi-sampling sensor, a photon counter, a plasmonic crystal, quantum dots, an antenna-coupled metal-oxide-metal diode. 8. The system of claim 1 wherein the means for sensing includes one or more on-chip means to increase dynamic range, including one or more of an active pixel sensor, a delta-sigma converter and a subtraction technique under which sets of adjacent pixels are subtracted to form auxiliary on-chip differences that can be used to compute the orientations of surface elements. 9. The system of claim 1 which further includes means for sensing one or more range characteristics to the scene, the means for modeling a scene utilizing the range characteristics. 10. The system of claim 1 which further includes means for sensing one or more location characteristics of the system in the scene, the means for modeling a scene utilizing the location characteristics. 11. The system of claim 1 wherein the means for modeling a scene further includes means to represent a plurality of scattering modes including at least two of specular reflection, diffuse reflection, micro facet reflection, retro-reflection, transmission and emission. 12. The system of claim 1 which further includes means for determining from a plurality of polarization characteristics one or more of a tag location or information encoded into the tag including a 3D image, the means for modeling a scene utilizing the location or the information encoded into the tag. 13. The system of claim 1 which further includes means for displaying the scene model in real-time, wherein said means for displaying includes means for synthesizing depth cues. 14. The system of claim 1 which further includes means for extracting information about the scene using the scene model, thereby creating auxiliary models, wherein the auxiliary models represent one or more of a 3D video, a compressed 3D video, a noise suppressed 3D video, a route, a description, an anomaly, a change, a feature, a shape, sizes, poses, dimensions, motions, speeds, velocities, accelerations, expressions, gestures, emotions, deception, postures, activities, behaviors, faces, lips, ears, eyes, irises, veins, moles, wounds, birthmarks, freckles, scars, wrinkles, fingerprints, thumbprints, palm prints, warts, categories, identities, instances, scene of internal organs, breasts, skin tumors, skin cancers, dysmorphologies, abnormalities, teeth, gums, facial expressions, facial macro expressions, facial micro expressions, facial subtle expressions, head gestures, hand gestures, arm gestures, gaits, body gestures, wagging tails, athletic motions, fighting positions, lip reading, crawling, talking, screaming, barking, breathing, running, galloping, eating, gun raising, axe swinging, phone talking, guitar playing, crowd behavior, health, mental state, range of motion, performance, weight, volume and concealed objects.