| Patent application number | Description | Published |
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| 20080204410 | RECOGNIZING A MOTION OF A POINTING DEVICE - The present invention is directed toward a system and process that controls a group of networked electronic components using a multimodal integration scheme in which inputs from a speech recognition subsystem, gesture recognition subsystem employing a wireless pointing device and pointing analysis subsystem also employing the pointing device, are combined to determine what component a user wants to control and what control action is desired. In this multimodal integration scheme, the desired action concerning an electronic component is decomposed into a command and a referent pair. The referent can be identified using the pointing device to identify the component by pointing at the component or an object associated with it, by using speech recognition, or both. The command may be specified by pressing a button on the pointing device, by a gesture performed with the pointing device, by a speech recognition event, or by any combination of these inputs. | 08-28-2008 |
| 20080204411 | RECOGNIZING A MOVEMENT OF A POINTING DEVICE - The present invention is directed toward a system and process that controls a group of networked electronic components using a multimodal integration scheme in which inputs from a speech recognition subsystem, gesture recognition subsystem employing a wireless pointing device and pointing analysis subsystem also employing the pointing device, are combined to determine what component a user wants to control and what control action is desired. In this multimodal integration scheme, the desired action concerning an electronic component is decomposed into a command and a referent pair. The referent can be identified using the pointing device to identify the component by pointing at the component or an object associated with it, by using speech recognition, or both. The command may be specified by pressing a button on the pointing device, by a gesture performed with the pointing device, by a speech recognition event, or by any combination of these inputs. | 08-28-2008 |
| 20080259055 | Manipulating An Object Utilizing A Pointing Device - The present invention is directed toward a system and process that controls a group of networked electronic components using a multimodal integration scheme in which inputs from a speech recognition subsystem, gesture recognition subsystem employing a wireless pointing device and pointing analysis subsystem also employing the pointing device, are combined to determine what component a user wants to control and what control action is desired. In this multimodal integration scheme, the desired action concerning an electronic component is decomposed into a command and a referent pair. The referent can be identified using the pointing device to identify the component by pointing at the component or an object associated with it, by using speech recognition, or both. The command may be specified by pressing a button on the pointing device, by a gesture performed with the pointing device, by a speech recognition event, or by any combination of these inputs. | 10-23-2008 |
| 20080313575 | SYSTEM AND PROCESS FOR CONTROLLING ELECTRONIC COMPONENTS IN A UBIQUITOUS COMPUTING ENVIRONMENT USING MULTIMODAL INTEGRATION - The present invention is directed toward a system and process that controls a group of networked electronic components using a multimodal integration scheme in which inputs from a speech recognition subsystem, gesture recognition subsystem employing a wireless pointing device and pointing analysis subsystem also employing the pointing device, are combined to determine what component a user wants to control and what control action is desired. In this multimodal integration scheme, the desired action concerning an electronic component is decomposed into a command and a referent pair. The referent can be identified using the pointing device to identify the component by pointing at the component or an object associated with it, by using speech recognition, or both. The command may be specified by pressing a button on the pointing device, by a gesture performed with the pointing device, by a speech recognition event, or by any combination of these inputs. | 12-18-2008 |
| 20090164952 | CONTROLLING AN OBJECT WITHIN AN ENVIRONMENT USING A POINTING DEVICE - The present invention is directed toward a system and process that controls a group of networked electronic components using a multimodal integration scheme in which inputs from a speech recognition subsystem, gesture recognition subsystem employing a wireless pointing device and pointing analysis subsystem also employing the pointing device, are combined to determine what component a user wants to control and what control action is desired. In this multimodal integration scheme, the desired action concerning an electronic component is decomposed into a command and a referent pair. The referent can be identified using the pointing device to identify the component by pointing at the component or an object associated with it, by using speech recognition, or both. The command may be specified by pressing a button on the pointing device, by a gesture performed with the pointing device, by a speech recognition event, or by any combination of these inputs. | 06-25-2009 |
| 20090189857 | TOUCH SENSING FOR CURVED DISPLAYS - Described herein is an apparatus that includes a curved display surface that has an interior and an exterior. The curved display surface is configured to display images thereon. The apparatus also includes an emitter that emits light through the interior of the curved display surface. A detector component analyzes light reflected from the curved display surface to detect a position on the curved display surface where a first member is in physical contact with the exterior of the curved display surface. | 07-30-2009 |
| 20090189917 | PROJECTION OF GRAPHICAL OBJECTS ON INTERACTIVE IRREGULAR DISPLAYS - A method for displaying images on a curved display surface is described herein. The method includes receiving a graphical object and distorting the graphical object at run-time such that an appearance of the graphical object on the curved display surface will be substantially similar regardless of a position of the graphical object on the curved display surface when viewed at a viewing axis that is approximately orthogonal to a plane that is tangential to the curved display surface at a center of the graphical object. The method may further include displaying the graphical object on the curved display surface. | 07-30-2009 |
| 20090198354 | CONTROLLING OBJECTS VIA GESTURING - The present invention is directed toward a system and process that controls a group of networked electronic components using a multimodal integration scheme in which inputs from a speech recognition subsystem, gesture recognition subsystem employing a wireless pointing device and pointing analysis subsystem also employing the pointing device, are combined to determine what component a user wants to control and what control action is desired. In this multimodal integration scheme, the desired action concerning an electronic component is decomposed into a command and a referent pair. The referent can be identified using the pointing device to identify the component by pointing at the component or an object associated with it, by using speech recognition, or both. The command may be specified by pressing a button on the pointing device, by a gesture performed with the pointing device, by a speech recognition event, or by any combination of these inputs. | 08-06-2009 |
| 20090207135 | SYSTEM AND METHOD FOR DETERMINING INPUT FROM SPATIAL POSITION OF AN OBJECT - A system and method for determining an input is provided. The system includes an object position determination device and an input determination device. The object position determination device is configured to determine a first position of an object at a first time and a second position of the object at a second time. The object position determination device includes a camera configured to detect light traveling from the object to the camera. The input determination device is configured to determine an input based at least partly upon the first position and the second position. The object position determination device can include a second camera. The object can include a radio frequency emitter. The object can include an infrared emitter. The object can be an electronic device. | 08-20-2009 |
| 20090271691 | LINKING DIGITAL AND PAPER DOCUMENTS - Various embodiments facilitate linking physical documents to digital documents. Links link physical documents to digital documents. Using a sensor, the physical documents are automatically detected and identified on a digital workspace. A computer is capable of displaying graphics, and user interaction with displayed graphics can be detected. The digital workspace displays a GUI component having one or more controls, and the GUI component is displayed at a location relative to a physical document on the digital workspace. User interaction with the control is detected and either a link between the physical document and one of the digital documents is edited, or an existing link between the physical document and a digital document is used to perform an operation on the digital document. Alternatively or additionally, links may be automatically generated digital documents determined to be implicitly related to the physical document. | 10-29-2009 |
| 20100078303 | MECHANICAL ARCHITECTURE FOR DISPLAY KEYBOARD KEYS - Mechanical architecture for providing maximum viewing area on key button tops of keys for a user input device. The viewing area is for the display of information on the key buttons, and also includes tactile feedback similar to standard laptop keyboards, all using low cost manufacturing methods such as injection molding. The architecture optimizes an aperture through the core of the key switch assembly in order to project an image through the aperture and onto the display area of the key button. The architecture relocates in at least one embodiment the tactile feedback mechanism (e.g., dome assembly) out from underneath the key button to the perimeter or side of the key switch assembly. The architecture finds particular application to input devices such as keyboards, game pods, data entry device, etc., that operate in combination with an optical surface (e.g., wedge lens). | 04-01-2010 |
| 20100103269 | DETERMINING ORIENTATION IN AN EXTERNAL REFERENCE FRAME - Orientation in an external reference is determined. An external-frame acceleration for a device is determined, the external-frame acceleration being in an external reference frame relative to the device. An internal-frame acceleration for the device is determined, the internal-frame acceleration being in an internal reference frame relative to the device. An orientation of the device is determined based on a comparison between a direction of the external-frame acceleration and a direction of the internal-frame acceleration. | 04-29-2010 |
| 20100105479 | DETERMINING ORIENTATION IN AN EXTERNAL REFERENCE FRAME - Orientation in an external reference is determined. An external-frame acceleration for a device is determined, the external-frame acceleration being in an external reference frame relative to the device. An internal-frame acceleration for the device is determined, the internal-frame acceleration being in an internal reference frame relative to the device. An orientation of the device is determined based on a comparison between a direction of the external-frame acceleration and a direction of the internal-frame acceleration. | 04-29-2010 |
| 20100123605 | System and method for determining 3D orientation of a pointing device - The present invention is directed toward a system and process that controls a group of networked electronic components using a multimodal integration scheme in which inputs from a speech recognition subsystem, gesture recognition subsystem employing a wireless pointing device and pointing analysis subsystem also employing the pointing device, are combined to determine what component a user wants to control and what control action is desired. In this multimodal integration scheme, the desired action concerning an electronic component is decomposed into a command and a referent pair. The referent can be identified using the pointing device to identify the component by pointing at the component or an object associated with it, by using speech recognition, or both. The command may be specified by pressing a button on the pointing device, by a gesture performed with the pointing device, by a speech recognition event, or by any combination of these inputs. | 05-20-2010 |
| 20100253624 | SYSTEM FOR DISPLAYING AND CONTROLLING ELECTRONIC OBJECTS - The present invention is directed toward a system and process that controls a group of networked electronic components using a multimodal integration scheme in which inputs from a speech recognition subsystem, gesture recognition subsystem employing a wireless pointing device and pointing analysis subsystem also employing the pointing device, are combined to determine what component a user wants to control and what control action is desired. In this multimodal integration scheme, the desired action concerning an electronic component is decomposed into a command and a referent pair. The referent can be identified using the pointing device to identify the component by pointing at the component or an object associated with it, by using speech recognition, or both. The command may be specified by pressing a button on the pointing device, by a gesture performed with the pointing device, by a speech recognition event, or by any combination of these inputs. | 10-07-2010 |
| 20110001696 | MANIPULATING OBJECTS DISPLAYED ON A DISPLAY SCREEN - Embodiments of the present invention is directed toward determining a location where a pointing device is directed. In one embodiment, the method includes receiving a message at the computing device from the pointing device. Sensor data is extracted from the message, the sensor data comprising accelerometer data, gyroscope data, or a combination thereof. A position of the pointing device in three-dimensional space is identified. An orientation of the pointing device in three-dimensional space is identified using the sensor data. A location to which the pointing device is directed is determined by utilizing the identified position of the pointing device and the identified orientation of the pointing device, and an object on a display screen at the location where the pointing device is directed is altered. | 01-06-2011 |
| 20110004329 | CONTROLLING ELECTRONIC COMPONENTS IN A COMPUTING ENVIRONMENT - The present invention is directed toward a system and process that controls a group of networked electronic components using a multimodal integration scheme in which inputs from a speech recognition subsystem, gesture recognition subsystem employing a wireless pointing device and pointing analysis subsystem also employing the pointing device, are combined to determine what component a user wants to control and what control action is desired. In this multimodal integration scheme, the desired action concerning an electronic component is decomposed into a command and a referent pair. The referent can be identified using the pointing device to identify the component by pointing at the component or an object associated with it, by using speech recognition, or both. The command may be specified by pressing a button on the pointing device, by a gesture performed with the pointing device, by a speech recognition event, or by any combination of these inputs. | 01-06-2011 |
| 20110041098 | MANIPULATION OF 3-DIMENSIONAL GRAPHICAL OBJECTS OR VIEW IN A MULTI-TOUCH DISPLAY - A system described herein provides six degrees of freedom with respect to a three-dimensional object rendered on a multi-touch display through utilization of three touch points. Multiple axes of rotation are established based at least in part upon location of a first touch point and a second touch point on a multi-touch display. Movement of a third touch point controls appearance of rotation of the three-dimensional object about two axes, and rotational movement of the first touch point relative to the second touch point controls appearance of rotation of the three-dimensional object about a third axis. | 02-17-2011 |
