Patent application number | Description | Published |
20100220063 | SYSTEM AND METHODS FOR CALIBRATABLE TRANSLATION OF POSITION - A calibratable system for translating a position input by a user to a first device to a position output of a second device includes a translation module and a calibration module. The translation module receives the position input by the user to the first device and that translates the position input to position output for the second device based on a plurality of parameters and a translation method. The calibration module selectively generates the plurality of parameters based on a calibration method that commands the user to move the position input to locations defined by the calibration method. | 09-02-2010 |
20110291997 | SYSTEM AND METHODS FOR CALIBRATABLE TRANSLATION OF POSITION - A calibratable system for translating a position input by a user to a first device to a position output of a second device includes a translation module and a calibration module. The translation module receives the position input by the user to the first device and that translates the position input to position output for the second device based on a plurality of parameters and a translation method. The calibration module selectively generates the plurality of parameters based on a calibration method that commands the user to move the position input to locations defined by the calibration method. | 12-01-2011 |
20130093674 | Hybrid Pointing System and Method - A handheld controller which includes at least two disparate sensors, such as a motion sensor and a touchpad sensor. A processor deployed in either handheld controller or separate product implements a hybrid pointing and selection method that uses data from the first sensor to adjust the sensitivity to stimulus of the second sensor, and vice versa. The respective sensor data are thus tempered and combined to generate a cursor control signal that includes a large scale control component to control size and movement of a rough pointer region, and a fine scale control component to control position of a precise pointer within the rough pointer region. | 04-18-2013 |
20140118254 | INFORMATION INPUT APPARATUS AND METHOD FOR CONTROLLING INFORMATION INPUT APPARATUS - The handheld controller controls a graphic cursor on a display. A motion sensor responds to user movement of a first type producing motion data. A touchpad responds to user movement of a second type more precise than the first type producing second sensor data. A processor calculates a hybrid cursor movement signal having a large scale movement component corresponding to movement of the first type and a fine scale movement component corresponding to movement of the second type, the hybrid cursor movement signal being for moving the graphic cursor. A processor calculates the large scale movement component based on a first sensitivity parameter representing sensitivity of the motion sensor determined by associating the touchpad data with the motion data, and the fine scale movement component based on a second sensitivity parameter representing sensitivity of the touchpad determined by associating the motion data with the touchpad data. | 05-01-2014 |
20140139426 | SmartLight Interaction System - The conference room automation apparatus employs a processor-based integrated movement sensor, lights, cameras, and display device, such as a projector, that senses and interprets human movement within the room to control the projector in response to that movement and that captures events occurring in the room. Preferably packed in a common integrated package, the apparatus employs a layered software/hardware architecture that may be readily extended as a platform to support additional third-party functionality. | 05-22-2014 |
20140293017 | Method of Automatically Forming One Three-Dimensional Space with Multiple Screens - Multiple electronic displays are arranged to define an ensemble of the user's choosing. The processor generates and displays a uniquely encoded emblem encoding a unique identifier for that display. A camera captures at least one image of the ensemble so that the encoded emblem for each display is captured. The captured images are then processed to extract the following attributes: a) unique identifier of the display; b) position of the encoded emblem relative to the reference coordinate system; and c) pointing direction of the encoded emblem relative to the reference coordinate system. The processor collectively processes the attributes for each of the emblem images to compute for each display a transformation matrix that selects a portion of the image data for display on that monitor and performs pointing direction correction so that the information presented on that display appears spatially consistent with the information presented on the other displays. | 10-02-2014 |
20140306875 | INTERACTIVE INPUT SYSTEM AND METHOD - A method for three-dimensional (3D) sensing. The method includes obtaining a first two-dimensional (2D) skeleton of an object, obtaining a second 2D skeleton of the object different from the first 2D skeleton, and calculating a 3D skeleton of the object based on the first and second 2D skeletons. | 10-16-2014 |
20140354602 | INTERACTIVE INPUT SYSTEM AND METHOD - A method for generating and displaying a graphic representation of an object on a display screen. The method includes capturing at least one image of the object using at least one image sensor, determining, according to the at least one image, three-dimensional (3D) coordinates of a 3D point on the object in a 3D coordinate system defined in a space containing the object, defining a touch interactive surface in the space, performing a projection of the 3D point onto a projection point on the touch interactive surface, determining 3D coordinates of the projection point in the 3D coordinate system according to the projection, determining a displaying position of the graphic representation on the display screen according to the 3D coordinates of the projection point, and displaying the graphic representation at the displaying position on the display screen. | 12-04-2014 |