Yazid
Yazid Al Haj Eid, London GB
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20140177982 | HAND WRAPS DECREASER, ROLLER, AND WASHING BAG. - This device is used to decrease, roll, and wash hand wraps that boxers and martial artists use, the domes and their covers decrease the wraps, the axle rolls them inside the bag, and the mesh structure allows a thorough washing of the hand wraps inside the bag by placing it in a washing machine. | 06-26-2014 |
Yazid Benazzouz, Valence FR
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20130226849 | Adapting the Operation of an Appliance - A method for adapting the operation of an apparatus connected to a network deployed in an environment, including the steps of: collecting data relating to the environment from a plurality of sources; identifying usual environmental situations from an analysis of the collected data; detecting a deviation from at least one identified usual situation; and sending a control to the apparatus for adapting the operation thereof to the detected deviation. | 08-29-2013 |
Yazid Nemouchi, Berkshire GB
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20080291995 | Adaptive video encoding apparatus and methods - Methods and apparatus for adaptive encoding of data such as for example video data. In one exemplary embodiment, a real-time video encoder is disclosed that changes video encoding processes to produce the best quality encoded video whilst maintaining a target encoding frame rate, according to one or more operating constraints. | 11-27-2008 |
Yazid Tohme, Sanford, FL US
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20140028805 | SYSTEM AND METHOD OF ACQUIRING THREE-DIMENSIONAL COORDINATES USING MULTIPLE COORDINATE MEASURMENT DEVICES - A method is provided of determining three-dimensional coordinates of an object surface with a laser tracker and structured light scanner. The method includes providing the scanner having a body, a pair of cameras, a projector, and a processor. The projector and cameras are positioned in a non-collinear arrangement. The projector is configured to project a first pattern onto the surface. The method also includes providing the tracker which emits a beam of light onto the retroreflector. The tracker receives a reflected beam of light. The first location is measured with the tracker. The first orientation is measured with the tracker. The first surface pattern is projected onto the surface. A pair of images of the surface pattern is acquired with cameras. The processor determines the 3D coordinates of a first plurality of points in the tracker frame of reference based in part on epipolar constraints of the cameras and projector. | 01-30-2014 |
20140267629 | DIAGNOSING MULTIPATH INTERFERENCE AND ELIMINATING MULTIPATH INTERFERENCE IN 3D SCANNERS USING AUTOMATED REPOSITIONING - A method for determining 3D coordinates of points on a surface of the object by providing a 3D coordinate measurement device attached to a moveable apparatus that is coupled to a position sensing mechanism, all coupled to a processor, projecting a pattern of light onto the surface to determine a first set of 3D coordinates of points on the surface, determining susceptibility of the object to multipath interference by projecting and reflecting rays from the measured 3D coordinates of the points, moving the moveable apparatus under processor control to change the relative position of the device and the object, and projecting the a pattern of light onto the surface to determine a second set of 3D coordinates. | 09-18-2014 |
20150192407 | DIAGNOSING MULTIPATH INTERFERENCE AND ELIMINATING MULTIPATH INTERFERENCE IN 3D SCANNERS USING AUTOMATED REPOSITIONING - A method for determining 3D coordinates of points on a surface of the object by providing a 3D coordinate measurement device attached to a moveable apparatus that is coupled to a position sensing mechanism, all coupled to a processor, projecting a pattern of light onto the surface to determine a first set of 3D coordinates of points on the surface, determining susceptibility of the object to multipath interference by projecting and reflecting rays from the measured 3D coordinates of the points, moving the moveable apparatus under processor control to change the relative position of the device and the object, and projecting the a pattern of light onto the surface to determine a second set of 3D coordinates. | 07-09-2015 |
Yazid Tohme, Sanford LB
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20140267623 | Three-Dimensional Scanner With External Tactical Probe and Illuminated Guidance - An assembly that includes a projector and camera is used with a processor to determine three-dimensional (3D) coordinates of an object surface. The processor fits collected 3D coordinates to a mathematical representation provided for a shape of a surface feature. The processor fits the measured 3D coordinates to the shape and, if the goodness of fit is not acceptable, selects and performs at least one of: changing a pose of the assembly, changing an illumination level of the light source, changing a pattern of the transmitted With the changes in place, another scan is made to obtain 3D coordinates. | 09-18-2014 |
Yazid Tohme, Chadds Ford, PA US
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20140268093 | THREE-DIMENSIONAL COORDINATE SCANNER AND METHOD OF OPERATION - A noncontact optical three-dimensional measuring device that includes a projector, a first camera, and a second camera; a processor electrically coupled to the projector, the first camera and the second camera; and computer readable media which, when executed by the processor, causes the first digital signal to be collected at a first time and the second digital signal to be collected at a second time different than the first time and determines three-dimensional coordinates of a first point on the surface based at least in part on the first digital signal and the first distance and determines three-dimensional coordinates of a second point on the surface based at least in part on the second digital signal and the second distance. | 09-18-2014 |
Yazid Tohme, West Chester, PA US
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20150276996 | SPHERICALLY MOUNTED RETROREFLECTOR AND METHOD OF MAKING THE SAME - A spherically mounted retroreflector (SMR) includes a substrate, an optic, and an adhesive. The substrate has a partially spherical outer surface and a cavity, the partially spherical outer surface has a sphere center. The optic has a cube-corner retroreflector fixedly disposed within the cavity; the cube-corner retroreflector has an optical vertex. The adhesive is disposed between the optic and the substrate and fixedly adheres the optic to the substrate. The optical vertex is coincident with the sphere center. The substrate is made from a ferromagnetic material and has an electroless nickel outer coating. | 10-01-2015 |