Patent application number | Description | Published |
20130002534 | Systems and Methods for Controlling a Cursor on a Display Using a Trackpad Input Device - Systems and methods for controlling a cursor on a display using a trackpad input device are disclosed. The systems and methods may be directed to controlling the cursor on a display separate from the trackpad input device, based on information identified about a motion of a trackpad input device or a computing device. A conversion factor may be determined to relate input to the trackpad input device with control of the cursor on the display in response to the input. The conversion factor can be adjusted when the motion information indicates that the trackpad input device or computing device is in motion. An input signal from an input to the trackpad input device may be smoothed by filtering out a mechanical vibration signal within the input signal. The input signal may also be smoothed by subtracting the absolute motion of the trackpad input device from the input signal. | 01-03-2013 |
20130002545 | WEARABLE COMPUTER WITH CURVED DISPLAY AND NAVIGATION TOOL - Disclosed are systems, methods, and devices for interfacing with a wearable heads-up display via a touch-operable input device. The wearable heads-up display may include a display element for receiving and displaying display information received from a processor, and may also include a wearable frame structure supporting the display element and having a side-arm extending away from the display element. In some embodiments, the display information may appear at least partially curved to a user. In some embodiments, only a portion of the display information is shown on the at least one display element. The side-arm may be configured to secure the heads-up display to a user's body in a manner such that the display element is disposed within a field of view of the user. The touch-operable input device secured to the wearable frame structure is configured to sense at least one of a position and movement of a touch or finger along a planar direction relative to a surface of the input device, and to provide corresponding input information to the processor. A navigation tool may also be displayed on the at least one display element for indicating the location of the touch on the touch-operable input device. | 01-03-2013 |
20130002724 | WEARABLE COMPUTER WITH CURVED DISPLAY AND NAVIGATION TOOL - Disclosed are systems, methods, and devices for interfacing with a wearable heads-up display via a touch-operable input device. The wearable heads-up display may include a display element for receiving and displaying display information received from a processor, and may also include a wearable frame structure supporting the display element and having a side-arm extending away from the display element. In some embodiments, the display information may appear at least partially curved to a user. In some embodiments, only a portion of the display information is shown on the at least one display element. The side-arm may be configured to secure the heads-up display to a user's body in a manner such that the display element is disposed within a field of view of the user. The touch-operable input device secured to the wearable frame structure is configured to sense at least one of a position and movement of a touch or finger along a planar direction relative to a surface of the input device, and to provide corresponding input information to the processor. A navigation tool may also be displayed on the at least one display element for indicating the location of the touch on the touch-operable input device. | 01-03-2013 |
20130007672 | Methods and Systems for Correlating Head Movement with Items Displayed on a User Interface - The present description discloses systems and methods for moving and selecting items in a row on a user interface in correlation with a user's head movements. One embodiment may include measuring an orientation of a user's head and communicating the measurement to a device. Next, the device can be configured to execute instructions to correlate the measurement with a shift of a row of items displayed in a user interface, and execute instructions to cause the items to move in accordance with the correlation. The device may also receive a measurement of an acceleration of the user's head movement, and can be configured to execute instructions to cause the items to move at an acceleration comparable to the measured acceleration. | 01-03-2013 |
20130021225 | Nose Bridge Sensor - Systems and methods for selecting an action associated with a power state transition of a head-mounted display (HMD) in the form of eyeglasses are disclosed. A signal may be received from a sensor on a nose bridge of the eyeglasses indicating if the HMD is in use. Based on the received signal, a first powers state for the HMD may be determined. Responsive to the determined first power state, an action associated with a power state transition of the HMD from an existing power state to the first power state may be selected. The action may be selected from among a plurality of actions associated with a plurality of state transitions. Also, the action may be a sequence of functions performed by the HMD including modifying an operating state of a primary processing component of the HMD and a detector of the HMD configured to image an environment. | 01-24-2013 |
20130154906 | DETERMINING WHETHER A WEARABLE DEVICE IS IN USE - Systems and methods for selecting an action associated with a power state transition of a head-mounted display (HMD) in the form of eyeglasses are disclosed. A signal may be received from a sensor on a nose bridge of the eyeglasses indicating if the HMD is in use. Based on the received signal, a first powers state for the HMD may be determined. Responsive to the determined first power state, an action associated with a power state transition of the HMD from an existing power state to the first power state may be selected. The action may be selected from among a plurality of actions associated with a plurality of state transitions. Also, the action may be a sequence of functions performed by the HMD including modifying an operating state of a primary processing component of the HMD and a detector of the HMD configured to image an environment. | 06-20-2013 |
20130311506 | METHOD AND APPARATUS FOR USER QUERY DISAMBIGUATION - A method and apparatus for enabling user query disambiguation based on a user context of a mobile computing device. According to embodiments of the invention, a first user search query, along with sensor data, is received from a mobile computing device. A recognition process is performed on the sensor data to identify at least one item. In response to determining the at least one item is a result for the first search query, data identifying the at least one item is transmitted to the mobile computing device as a response to the first search query. In response to determining the at least one item is not the result for the first search query, search results of a second search query is transmitted to the mobile computing device as the response to the first search query, the second search query comprising a query of the at least one item. | 11-21-2013 |
20140039888 | SPEECH RECOGNITION MODELS BASED ON LOCATION INDICIA - Methods, systems, and apparatus, including computer programs encoded on a computer storage medium, for performing speech recognition using models that are based on where, within a building, a speaker makes an utterance are disclosed. The methods, systems, and apparatus include actions of receiving data corresponding to an utterance, and obtaining location indicia for an area within a building where the utterance was spoken. Further actions include selecting one or more models for speech recognition based on the location indicia, wherein each of the selected one or more models is associated with a weight based on the location indicia. Additionally, the actions include generating a composite model using the selected one or more models and the respective weights of the selected one or more models. And the actions also include generating a transcription of the utterance using the composite model. | 02-06-2014 |