Roble
Brett Roble, Riverside, CA US
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20140166772 | MECHANICAL APPLICATOR FOR HIGH VISCOUS MATERIALS - An apparatus and method for applying an agricultural management material to targeted area. Exemplary agricultural management materials include viscous materials. | 06-19-2014 |
Craig R. Roble, Oshkosh, WI US
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20080315671 | DUAL WHEELEND FOR A VEHICLE - An axle assembly for a vehicle comprising a stationary spindle and a rotatable axle shaft. An intermediate hub is supported on the spindle. Adjacent inner and outer wheel hubs are supported on the intermediate hub. A differential mechanism interconnects the inner and outer wheel hubs for driving both of the wheel hubs and for permitting relative rotation between the wheel hubs. At least one differential bushing is disposed between the differential mechanism and the intermediate hub. A gear reduction system interconnects the intermediate hub and the axle shaft for providing torque multiplication. A wet disc brake device is coupled between the spindle and the intermediate hub. | 12-25-2008 |
20100289322 | DUAL WHEELEND FOR A VEHICLE - An axle assembly for a vehicle comprising a stationary spindle and a rotatable axle shaft. An intermediate hub is supported on the spindle. Adjacent inner and outer wheel hubs are supported on the intermediate hub. A differential mechanism interconnects the inner and outer wheel hubs for driving both of the wheel hubs and for permitting relative rotation between the wheel hubs. At least one differential bushing is disposed between the differential mechanism and the intermediate hub. A gear reduction system interconnects the intermediate hub and the axle shaft for providing torque multiplication. A wet disc brake device is coupled between the spindle and the intermediate hub. | 11-18-2010 |
20120223570 | DUAL WHEELEND FOR A VEHICLE - A dual wheelend for an axle assembly having a rotatable axle shaft. The wheelend comprises a spindle defining a first axis. An intermediate hub is supported on the spindle for rotation about the first axis during rotation of the axle shaft. An inner wheel hub and an outer wheel hub are adjacent one another and are each supported on the intermediate hub for rotation about the first axis. A differential mechanism interconnects the inner and outer wheel hubs. A pin is disposed through a pinion along a second axis and couples the differential mechanism to the intermediate hub for driving the wheel hubs during rotation of the intermediate hub and permitting relative rotation between the wheel hubs relative to the intermediate hub. The pin includes proximal end with a head disposed on the proximal end for engaging the pinion and sandwiching the pinion between the head and the intermediate hub. | 09-06-2012 |
Doug Roble, Venice, CA US
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20090027390 | METHOD AND SYSTEM FOR SCATTERED SPHERICAL HARMONIC APPROXIMATION - A scattered spherical harmonic (SH) approximation method is proposed for pre-computation of SH coefficients at sampling vertices of an object to be rendered. The approach sparsely populates the object with a plurality of SH sampling vertices and uses the least squares approximation to calculate the SH coefficients at any (other) arbitrary point of the object by extrapolating from the computed SH coefficients at the SH sampling vertices. | 01-29-2009 |
20090040218 | FITTING CURVES FROM ONE MODEL TO ANOTHER - A method and system for variational and iterative fitting of complex curves (such as Super Helix curves) to arbitrary regular parametric curves is described, called a curve fitting system. The curve fitting system uses data reduction and error-analysis often found in mesh decimation schemes as well as non-linear minimization. The curve fitting system takes full advantage of the large body of existing work on parametric curve modeling, while utilizing new and beneficial curve models for simulation. | 02-12-2009 |
Doug Roble, Culver City, CA US
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20090041387 | System and method of image zooming with intensity preservation - Systems and methods image zooming with intensity preservation is disclosed. In one aspect, embodiments of the present disclosure include a method, which may be implemented on a system, of minimizing energy levels over a set of high-resolution image pixels of a high-resolution image via total variational filtering to obtain the high-resolution image from at least a portion of a low-resolution image; the low-resolution image having a first energy level, the high resolution image having a second energy level, and the first energy level to be substantially similar in value as the second energy level. One embodiment can include, determining a pixel value of a particular high-resolution image pixel based on the pixel values of a plurality of pixels of the at least a portion of the low-resolution image and the pixel values of the high-resolution image pixels not including the particular high-resolution image pixel. | 02-12-2009 |
Douglas Roble, Culver City, CA US
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20100156910 | SYSTEM AND METHOD FOR MESH STABILIZATION OF FACIAL MOTION CAPTURE DATA - A method and system for removing head motion from facial motion capture data. The method includes receiving a set of measured points of a target model, wherein each point is associated with coordinates in a 3D space. The method includes computing an optimal affine transformation function. The computing includes selecting an unprocessed point from the set of measured points. The computing includes selecting two nearby neighboring points of the unprocessed point. The computing includes computing an affine transformation function that minimizes an L2-norm error. The computing includes identifying the optimal affine transformation function from a set of computed affine transformation functions. The method includes displaying an aligned target model and reference model utilizing the optimal affine transformation function. The method includes outputting the optimal affine function to a computer-readable storage medium. | 06-24-2010 |
Michael T. Roble, Mazeppa, MN US
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20140101455 | IMPLEMENTING DYNAMIC BANDING OF SELF ENCRYPTING DRIVE - A method and controller for implementing dynamic banding of a storage device, such as a Self Encrypting Device (SED) in a data storage array, and a design structure on which the subject controller circuit resides are provided. The controller dynamically identifies band boundaries for the storage device at the time a data storage array is created, when one or more devices are added into an existing data storage array, and when a replacement device is rebuilt into an exposed array, or an array with a failed device. A storage device band definition is provided based upon the dynamically identified band boundaries for the storage device. | 04-10-2014 |