| Patent application number | Description | Published |
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| 20080201138 | Headset for Separation of Speech Signals in a Noisy Environment - A headset is constructed to generate an acoustically distinct speech signal in a noisy acoustic environment. The headset positions a pair of spaced-apart microphones near a user's mouth. The microphones each receive the user s speech, and also receive acoustic environmental noise. The microphone signals, which have both a noise and information component, are received into a separation process. The separation process generates a speech signal that has a substantial reduced noise component. The speech signal is then processed for transmission. In one example, the transmission process includes sending the speech signal to a local control module using a Bluetooth radio. | 08-21-2008 |
| 20110058802 | SIGNAL MEASUREMENTS EMPLOYED TO AFFECT PHOTOGRAPHIC PARAMETERS - Subject matter disclosed herein relates to setting photographic parameters based, at least in part, on signal measurements, such as, for example, without limitation, position of the Sun. Briefly, in accordance with one embodiment, an apparatus may comprise the following: a wireless communication capable device (E.G., | 03-10-2011 |
| 20110167391 | USER INTERFACE METHODS AND SYSTEMS FOR PROVIDING FORCE-SENSITIVE INPUT - Methods and systems implement touch sensors or force sensitive materials disposed on the case of a computing device in order to enable user input gestures to be performed on portions of the device case. The force sensitive elements may generate an electrical signal in response to a gesture, such as a tap, squeeze, swipe or twist. The properties of the generated electrical signal may be compared to various reference templates to recognize particular input gestures. The force sensitive elements may operate in conjunction with more traditional input methods, such as touch-screen display and electromechanical buttons. By enabling user input gestures on the case of computing devices, the various aspects permit one hand operation of the devices including intuitive gestures that do not require the users focused attention to accomplish. Thus the various aspects may enable users to utilize their computing devices in situations not suitable to conventional user input technologies. | 07-07-2011 |
| 20110304550 | AUTO-MORPHING ADAPTIVE USER INTERFACE DEVICE AND METHODS - An adaptive user interface device capable of implementing multiple modes of input and configuration may adapt to current user inputs, and may include configuration changes. In an aspect, an adaptive user interface device may be configured for a finger sensing in a touchpad mode, and configured for stylus sensing in a digital tablet mode. In another aspect, surface features of the adaptive user interface device may change shape, such as by raising buttons in response to entering a keyboard or keypad mode. Various mechanisms may be used for raising buttons, and may enable presenting buttons in a variety of shapes and locations on the interface. The configuration of the adaptive user interface device may depend upon the user actions and user identity. Configuration modes may be organized according to many levels enabling a single user interface to support a large number of input options functionality within a limited surface area. | 12-15-2011 |
| 20110312349 | LAYOUT DESIGN OF PROXIMITY SENSORS TO ENABLE SHORTCUTS - A mobile platform includes a plurality of proximity sensors coupled to a housing including on the sides, front and back of the housing. Signals from the proximity sensors are analyzed to determine configuration of the proximity sensors that are activated. The configuration may be a sequence of proximity sensors that are activated, e.g., when a gesture is detected, or the locations of the proximity sensors that are activated when the mobile platform is held in different manners. Mobile platform applications associated with the configuration are determined and automatically launched. For example, the applications may include a camera application or short message service (SMS) application, as well as controlling telephony operations, controlling a music player, and providing status information. Information from an orientation sensor and/or ambient light detector may also be used to assist in determining the applications to be launched. | 12-22-2011 |
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| 20110018679 | BATTERY CHARGING TO EXTEND BATTERY LIFE AND IMPROVE EFFICIENCY - Exemplary charging device includes a processor and charging current for coupling to a battery. In an exemplary embodiment, the processor defines charging profiles for charging the battery at different charge rates. A profile can be selected based on a determinable time event and may be modified based on a charging history. Adjustable charging power is supplied to the battery at a power level, a charging duration, or a combination thereof based on the selected profile. A wireless power transmitter can also define charging profiles and charging histories for receivers that receive power from the transmitter based on an identifier from the receiver. The transmitter can select the charging profile based on a determinable time event and may be modified based on a charging history. The transmitter supplies power through the wireless power link at a power level, a charging duration, or a combination thereof based on the selected profile. | 01-27-2011 |
| 20110288860 | SYSTEMS, METHODS, APPARATUS, AND COMPUTER-READABLE MEDIA FOR PROCESSING OF SPEECH SIGNALS USING HEAD-MOUNTED MICROPHONE PAIR - A noise cancelling headset for voice communications contains a microphone at each of the user's ears and a voice microphone. The headset shares the use of the ear microphones for improving signal-to-noise ratio on both the transmit path and the receive path. | 11-24-2011 |
| 20110306304 | PRE-FETCHING INFORMATION BASED ON GESTURE AND/OR LOCATION - Example methods, apparatuses, and articles of manufacture are disclosed that may be utilized to pre-fetch and/or obtain information for use with mobile devices based, at least in part, on a gesture of a user and/or location of a mobile device. By way of example, a method may include detecting an arrival of a mobile device at a location; and pre-fetching, in response to the detection of the arrival, information in connection with executing one or more applications and/or functions on the mobile device. In certain implementations, a method may include processing signals received from at least one sensor at a mobile device; inferring, in response to the processing the signals, a likelihood of a user executing one or more applications and/or functions on the mobile device; and pre-fetching information in connection with the executing applications and/or functions on the mobile device based, at least in part, on the likelihood. | 12-15-2011 |
