Patent application number | Description | Published |
20110175912 | SYSTEM AND METHOD FOR MESOSCOPIC GEOMETRY MODULATION - A computer-implemented method for generating a three-dimensional model of an object. The method includes generating a coarse geometry mesh of the object; calculating an optimization for the coarse geometry mesh based on photometric consistency and surface consistency associated with the coarse geometry mesh; and refining the coarse geometry mesh with the optimization to generate the three-dimensional model for the object. | 07-21-2011 |
20110304633 | DISPLAY WITH ROBOTIC PIXELS - Techniques are disclosed for controlling robot pixels to display a visual representation of an input. The input to the system could be an image of a face, and the robot pixels deploy in a physical arrangement to display a visual representation of the face, and would change their physical arrangement over time to represent changing facial expressions. The robot pixels function as a display device for a given allocation of robot pixels. Techniques are also disclosed for distributed collision avoidance among multiple non-holonomic robots to guarantee smooth and collision-free motions. The collision avoidance technique works for multiple robots by decoupling path planning and coordination. | 12-15-2011 |
20120182390 | Counting system for vehicle riders - There is provided a system and method for counting riders arbitrarily positioned in a vehicle. There is provided a method comprising receiving, from at least one camera filtered to capture non-visible light, video data corresponding to the vehicle passing through a light source filtered for non-visible light, converting the video data into a 3D height map, and analyzing the 3D height map to determine a number of riders in the vehicle. The camera and light source may be mounted in a permanent position using a gantry or another suitable system where the vehicle travels across the camera and light system in a determined manner, for example through a vehicle track. Multiple cameras may be used to increase detection accuracy. To detect persons in the 3D height map, the analysis may search for height patterns indicating heads and shoulders of persons, compare against height map templates, or use machine-learning methods. | 07-19-2012 |
20120206473 | ROBOTIC TEXTURE - Techniques are disclosed for controlling robot pixels to display a visual representation of a real-world video texture. Mobile robots with controllable color may generate visual representations of the real-world video texture to create an effect like fire, sunlight on water, leaves fluttering in sunlight, a wheat field swaying in the wind, crowd flow in a busy city, and clouds in the sky. The robot pixels function as a display device for a given allocation of robot pixels. Techniques are also disclosed for distributed collision avoidance among multiple non-holonomic and holonomic robots to guarantee smooth and collision-free motions. | 08-16-2012 |
20120313937 | COUPLED RECONSTRUCTION OF HAIR AND SKIN - Techniques are provided to model hair and skin. Multiscopic images are received that depict at least part of a subject having hair. The multiscopic images are analyzed to determine hairs depicted. Two-dimensional hair segments are generated that represent the hairs. Three-dimensional hair segments are generated based on the two-dimensional hair segments. A three-dimensional model of skin is generated based on the three-dimensional hair segments. | 12-13-2012 |
20140198221 | IMAGE CAPTURE DEVICE CALIBRATION - A three-dimensional coordinate position of a calibration device is determined. Further, a code is emitted to an image capture device. The code indicates the three-dimensional coordinate position of the calibration device. In addition, an image of light emitted from the calibration device is captured. The light includes the code. An image capture device three-dimensional coordinate position of the calibration device is calibrated according to the real world three-dimensional coordinate position of the calibration device indicated by the code. | 07-17-2014 |
20140292770 | DISPLAY WITH ROBOTIC PIXELS - Techniques are disclosed for controlling robot pixels to display a visual representation of an input. The input to the system could be an image of a face, and the robot pixels deploy in a physical arrangement to display a visual representation of the face, and would change their physical arrangement over time to represent changing facial expressions. The robot pixels function as a display device for a given allocation of robot pixels. Techniques are also disclosed for distributed collision avoidance among multiple non-holonomic robots to guarantee smooth and collision-free motions. The collision avoidance technique works for multiple robots by decoupling path planning and coordination. | 10-02-2014 |
20150078620 | Aircraft, Methods for Providing Optical Information, Method for Transmission of Acoustic Information and Method for Observing or Tracking an Object - Provided is an aircraft having a spherical body which generates buoyancy or which may generate buoyancy when filled with gas, wherein the aircraft further comprises four actuation units arranged on the surface of the body for movement of the aircraft in a translation and/or rotation through air, and at least one camera arranged on or in the surface of the body. Further provided is a method for providing optical information to a person in the environment of a flying aircraft, a method for providing optical information about an object and/or surveying of an object, a method for transmission of acoustic information and a method for observing or tracking an object. | 03-19-2015 |