Patent application number | Description | Published |
20080234935 | MULTI-SENSOR DATA COLLECTION and/or PROCESSING - The subject matter disclosed herein relates to the control and utilization of multiple sensors within a device. For an example, motion of a device may be detected in response to receipt of a signal from a first sensor disposed in the device, and a power state of a second sensor also disposed in the device may be changed in response to detected motion. | 09-25-2008 |
20090053993 | REPEATER WITH POSITIONING CAPABILITIES - This disclosure is directed to a repeater ( | 02-26-2009 |
20090055048 | METHOD OF OBTAINING MEASUREMENT DATA USING A SENSOR APPLICATION INTERFACE - A method involves, via a sensor application interface, 1) receiving, from an application, a measurement request associated with a quality-of-service control; 2) in accord with the quality-of-service control, obtaining measurement data from a sensor; and 3) returning to the application i) the measurement data obtained from the sensor, and ii) an indicator of accuracy of the measurement data. | 02-26-2009 |
20090160704 | NAVIGATION RECEIVER - The subject matter disclosed herein relates to a system and method for processing navigation signals received from multiple global navigation satellite systems (GNSS′). In a particular implementation, signals received from multiple GNSS′ may be processed in a single receiver channel. | 06-25-2009 |
20090235743 | SENSOR-BASED ORIENTATION SYSTEM - A method for measuring positional changes of an object, including rotation about any or all of three axes, using linear accelerometers. There is disclosed a method of using a linear accelerometer to integrate two other 3D linear accelerometers in order to measure and supply for further use six-dimensional information, that is, translation in three dimensions and rotation about three axes. Two linear accelerometer sensors are used to determine all but one of the variables in the six degrees of freedom. Output from a third accelerometer generates the data need to determine a sixth, rotational, degree of freedom. The need for a gyroscope for detecting changes in heading (i.e., yaw or azimuth) may therefore be avoided. | 09-24-2009 |
20090259865 | Power Management Using At Least One Of A Special Purpose Processor And Motion Sensing - A power management device useable in a mobile station includes a main processor configured to execute applications including signal processing applications and further configured to enter a sleep mode in response to predetermined criteria. The device further includes a circuit configured to operate when the main processor is in the sleep mode comprising at least one of a low power processor and a sensor to monitor at least one of signals, commands, inputs, and changes in environment, the circuit waking up the main processor responsive to one of the low power processor and the sensor. The device may operate a method and may execute instructions based on a machine readable medium. | 10-15-2009 |
20090286504 | METHOD AND APPARATUS FOR COMMUNICATING EMERGENCY INFORMATION USING WIRELESS DEVICES - A method and apparatus for providing emergency notification by a wireless mobile device in response to triggering a sensor. A detection system, which may be located within a vehicle, comprises one or more sensors configured to sense an emergency event and transmit a message via a wireless link regarding the emergency event. For example, the wireless mobile device may be programmed to call a predetermined emergency number such as E911, and transmit data including position and other information from the mobile device to the emergency number in response to the received message. | 11-19-2009 |
20090295630 | METHOD AND APPARATUS FOR POSITION DETERMINATION WITH EXTENDED SPS ORBIT INFORMATION - A method and system for assisting mobile stations to locate a satellite use an efficient messaging format. A server computes a correction between coarse orbit data of a satellite and precise orbit data of the satellite. A coordinate system is chosen such that variation of the correction is substantially smooth over time. The server further approximates the correction with mathematical functions to reduce the number of bits necessary for transmission to a mobile station. The mobile station, upon receiving the coefficients, evaluates the mathematical functions using the coefficients and a time of applicability (e.g., the current time), converts the evaluated result to a standard coordinate system, and applies the conversion result to the coarse orbit data to obtain the precise orbit data. | 12-03-2009 |
20090298422 | Calibration Using Noise Power - A method calibrates a spread spectrum receiver having a received signal strength below a noise floor. The method includes estimating an input noise power, and measuring a noise power output from the receiver. The method also includes comparing the estimated input noise power with the measured output noise power to determine at least one calibration value. The method further includes calibrating the receiver based upon the at least one calibration value. | 12-03-2009 |
20090310593 | SELF-POSITIONING ACCESS POINTS - A system, method and apparatus are provided which relate to calibrating a wireless access point so as to allow proper synchronization of mobile wireless devices connecting to the wireless access point. A closed-loop filter is used to more accurately synchronize times and to more accurately determine the location of the access point for purposes of determining the position of a mobile station. | 12-17-2009 |
20090315772 | METHOD AND APPARATUS FOR POSITION DETERMINATION WITH EXTENDED SPS ORBIT INFORMATION - A method and system for assisting mobile stations to locate a satellite use an efficient messaging format. A server computes a correction between coarse orbit data of a satellite and precise orbit data of the satellite. A coordinate system is chosen such that variation of the correction is substantially smooth over time. The server further approximates the correction with mathematical functions to reduce the number of bits necessary for transmission to a mobile station. The mobile station, upon receiving the coefficients, evaluates the mathematical functions using the coefficients and a time of applicability (e.g., the current time), converts the evaluated result to a standard coordinate system, and applies the conversion result to the coarse orbit data to obtain the precise orbit data. | 12-24-2009 |
20100081458 | Mobile Terminal Motion Detection Methods and Systems - Methods and systems are provided for allowing possible motion or lack of motion of a mobile terminal to be detected based, at least in part, on at least one wireless signal. For example, according to one method a mobile terminal may be configured to operate in a first wireless communication system and the method may include detecting motion or lack of motion of the mobile terminal based, at least in part, on at least one wireless signal from at least one terrestrial-based second wireless communication system, and in response to detecting the motion or lack of motion, initiating or stopping at least one process within the mobile terminal. | 04-01-2010 |
20100088061 | GENERATING VIRTUAL BUTTONS USING MOTION SENSORS - An implementation of a system and method for using sensors such as one or more gyroscopes and/or accelerometers to sense input is provided. For example, one or more of such sensors may be use to provide virtual buttons at various areas on the housing of a mobile device, detect a force against the housing, or to detect relative movement of the mobile device. | 04-08-2010 |
20100097996 | BASE STATION ALMANAC ASSISTED POSITIONING - A database provides base station almanac information pertaining to more than one network mode of communication. A wireless device accesses this database through a centralized server or network, or via the base station, base station controller or the like, with which it is currently communicating. | 04-22-2010 |
20100136957 | METHOD AND APPARATUS FOR DETERMINING A USER INPUT FROM INERTIAL SENSORS - A system and method for determining a user input based on movements of a mobile device. In a particular implementation, angular movement of the mobile device about at least one axis of a linear plane is detected. Linear movement of the mobile device along at least one axis of the linear plane is also detected. Finally, a user input is determined based on the detection of the angular movement and the detection of the linear movement. | 06-03-2010 |
20100173647 | POSITION DETERMINATION FOR A WIRELESS TERMINAL IN A HYBRID POSITION DETERMINATION SYSTEM - Techniques to determine a position estimate for a wireless terminal. An accurate position estimate for the terminal is initially obtained (e.g., based on a first (accurate) position determination sub-system). For each of one or more transmitters (e.g., base stations) in a second (less accurate) position determination sub-system, an “expected” pseudo-range is computed based on the accurate position estimate for the terminal and the base station location, a “measured” pseudo-range is also obtained, and a pseudo-range residual is then determined based on the expected pseudo-range and the measured pseudo-range. Thereafter, to determine an updated position estimate for the terminal, measured pseudo-ranges are obtained for a sufficient number of transmitters. The measured pseudo-range for each base station may be corrected based on the associated residual. The updated position estimate is then determined based on the corrected pseudo-ranges for these transmitters. | 07-08-2010 |
20100194634 | METHOD AND APPARATUS FOR POSITION DETERMINATION WITH HYBRID SPS ORBIT DATA - A method and system for a mobile station to determine its position (or velocity) and time using a hybrid combination of satellite orbit data. In one aspect, the mobile station combines predicted orbit data from one satellite and real-time orbit data from another satellite in the determination of a fix. The combination can be made to the satellites in the same or different satellite systems. The mobile station can use the real-time orbit data of a satellite at one time period and the predicted orbit data of the same satellite at another time period. In another aspect, the mobile station can use the real-time orbit data to correct the clock bias in the predicted orbit data. The correction to the clock bias can be made to the same satellite that provides the real-time orbit data, or to a different satellite in the same or in another satellite system. | 08-05-2010 |
20100203899 | Method And Apparatus For Improving Radio Location Accuracy With Measurements - A method and apparatus to utilize a set of measurements (either partial or compete) to improve the accuracy of an initial position estimate for a wireless terminal. The initial position estimate for the terminal is first obtained (e.g., based on a cell-ID or an enhanced cell-ID solution). Measurements are obtained for the terminal. The initial position estimate is then updated with the measurements to obtain a revised position estimate for the terminal. The updating may be performed by (1) deriving a measurement vector based on the initial position estimate and the measurements, (2) forming an observation matrix for the measurements, (3) determining a matrix of weights, (4) deriving a correction vector based on the measurement vector, the observation matrix, and the weight matrix, and (5) updating the initial position estimate with the correction vector. | 08-12-2010 |
20100248662 | ALTITUDE-DEPENDENT POWER MANAGEMENT - The subject matter disclosed herein relates to changing at least one power state of a mobile station at least in part in response to information indicating a change in altitude from one or more sensors. | 09-30-2010 |
20100302028 | POWER MANAGEMENT OF SENSORS WITHIN A MOBILE DEVICE - Apparatuses and methods are provided for managing power consumption of a plurality of sensors within a mobile device. A method may include receiving a request from a sensor client regarding a sensor, determining whether the sensor client requested registration/deregistration, controlling a power supply and an operational mode of the sensor, based upon the registration/deregistration request, for reducing power consumption of the sensor, determining whether the sensor client provided a start/stop request for data from the sensor, and controlling power to the sensor, a device/driver configuration, and an operational mode of the sensor, based upon the start/stop request for data, for reducing the power consumption of the sensor. An apparatus may include a processor, a power supply coupled to the processor, a sensor coupled to the power supply, and a memory coupled to the processor, wherein the memory comprises instructions for causing the processor to execute the aforementioned method. | 12-02-2010 |
20100304761 | SENSOR USES IN COMMUNICATION SYSTEMS - Methods and apparatus are directed to mobile devices utilizing motion and/or position sensors for improving operating performance and/or power efficiency. In one example, a method for reducing power consumption in a mobile device includes receiving movement information, establishing movement data based on the movement information, determining if the mobile device is stationary using the movement data; and reducing the frequency of searching for a base station when the mobile device is stationary. In another example, a mobile device which reduces power consumption based upon movement data includes an RF front end, a receiver coupled to the RF front end, a data demodulator coupled to the receiver, a searcher, coupled to the RF front end and the receiver, which searches for base stations, and a processing unit coupled to the searcher, wherein the processing unit controls the searcher based upon the stationarity of the mobile device. | 12-02-2010 |
20100330940 | SENSOR-AIDED WIRELESS COMBINING - An apparatus and method are disclosed for achieving receiver diversity. A wireless unit includes a plurality of antennas, an antenna selector to select one or more antennas from the plurality of antennas, a processor with input data from an inertial sensor for monitoring the orientation of the wireless unit. Based on the input data, the processor commands the antenna selector to select one or more antennas. In some embodiments, the processor is a diversity processor. Based on the input data from the inertial sensor, the diversity processor computes the combination of the received signals. In another aspect, the wireless unit further includes a baseband processor to process the output of the diversity processor for a particular unit application. | 12-30-2010 |
20100331010 | Trajectory-Based Location Determination - The subject matter disclosed herein relates to determining a location of a mobile device using an estimated trajectory of motion of the mobile device, and in particular, using a comparison of the estimated trajectory with one or more predetermined candidate trajectories. | 12-30-2010 |
20110021208 | WATERMARKING ANTENNA BEAMS FOR POSITION DETERMINATION - An antenna array may stagger the signal of one or more beams within a single base station sector. The time-delayed beams may have a watermark within the signal they are carrying. The receiving unit then may identify the beam as a time-delayed beam and compensate for the delay using stored data. The receiving unit may transmit the beam identification information to the base station and receive the time delay data. | 01-27-2011 |
20110260921 | MULTI-USER INTERACTIVE MOTION TRACKING USING SENSORS - Mobile platforms exchange their positions in a three-dimensional common reference frame based on data from their respective inertial sensors. The mobile platforms establish the common reference frame, e.g., by contacting each other. The position of each mobile platform is updated in its local reference frame and the position is transformed into a position in the common reference frame. The position in the common reference frame may then be transmitted to the other mobile platform, which can then determine the spatial relationship between the mobile platforms based on the received common reference frame position. Either mobile platform may pass the common reference frame to additional mobile platforms by establishing a new reference frame with a new mobile platform, generating a transformation from the new reference frame to the common reference frame and providing the transformation to the new mobile platform. | 10-27-2011 |
20110304537 | AUTO-CORRECTION FOR MOBILE RECEIVER WITH POINTING TECHNOLOGY - A mobile station and unattached work area is used with an electronic pen, which includes a transmitter, such as an acoustic transmitter. The mobile station includes a receiver that receives signals from the transmitter and orientation sensors that detect movement of the mobile station. The position of the receiver is calibrated with respect to the unattached work area. Data from the orientation sensors is received when the mobile station, and thus, the receiver is moved with respect to the work area. A transformation matrix is generated based on the data from the orientation sensors, which can be used to correct for the movement of the receiver. The position of the transmitter in the electronic pen is calculated and mapped based on received signals and the transformation matrix and the mapped position is then displayed. | 12-15-2011 |
20120004882 | SENSOR-BASED ORIENTATION SYSTEM - A method for measuring positional changes of an object, including rotation about any or all of three axes, using linear accelerometers. There is disclosed a method of using a linear accelerometer to integrate two 3D linear accelerometers in order to measure and supply for further use six-dimensional information, that is, translation in three dimensions and rotation about three axes. Two linear accelerometer sensors are used to determine all but rotation about an imaginary axis between the accelerometers. Output from a third accelerometer may be used to generate the data needed to determine rotation about the imaginary axis. The need for a gyroscope for detecting changes in heading (i.e., yaw or azimuth) may therefore be avoided. | 01-05-2012 |
20120021758 | SENSING RELATIVE POSITION FROM A WIRELESS TRANSCEIVER - Disclosed is an apparatus, system and method for determining a location of a mobile device based on a location of a wireless network node, a distance between the wireless network node and the mobile device, and a bearing from the wireless network node to the mobile device, wherein the bearing is determined based on a directional signal and magnetometer measurements. | 01-26-2012 |
20120032846 | NAVIGATION RECEIVER - The subject matter disclosed herein relates to a system and method for processing navigation signals received from multiple global navigation satellite systems (GNSS′). In a particular implementation, signals received from multiple GNSS′ may be processed in a single receiver channel. | 02-09-2012 |
20120038510 | SYSTEM AND METHOD TO OBTAIN SIGNAL ACQUISITION ASSISTANCE DATA - Signal acquisition assistance data is obtained for receiving devices such as wireless position assisted location devices seeking signals from any source, such as satellite vehicles and base stations. The data may be obtained from previously acquired data, based upon evaluation of changes in parameters such as time and location that may jeopardize validity. In some cases the data may be adjusted for the changes in parameters. Refined data may be calculated by a receiver using partial measurements of signal sets, particularly if the acquisition assistance data provided by a remote entity includes more distinct parameters than have typically been provided. New data need not be obtained until the validity of previous data expires due to limitations upon temporal extrapolation using Doppler coefficients, unless mobile station movement that cannot be compensated is detected, and jeopardizes validity of the previous data. | 02-16-2012 |
20120040668 | SYSTEM AND METHOD TO OBTAIN SIGNAL ACQUISITION ASSISTANCE DATA - Signal acquisition assistance data is obtained for receiving devices such as wireless position assisted location devices seeking signals from any source, such as satellite vehicles and base stations. The data may be obtained from previously acquired data, based upon evaluation of changes in parameters such as time and location that may jeopardize validity. In some cases the data may be adjusted for the changes in parameters. Refined data may be calculated by a receiver using partial measurements of signal sets, particularly if the acquisition assistance data provided by a remote entity includes more distinct parameters than have typically been provided. New data need not be obtained until the validity of previous data expires due to limitations upon temporal extrapolation using Doppler coefficients, unless mobile station movement that cannot be compensated is detected, and jeopardizes validity of the previous data. | 02-16-2012 |
20120040689 | SYSTEM AND METHOD TO OBTAIN SIGNAL ACQUISITION ASSISTANCE DATA - Signal acquisition assistance data is obtained for receiving devices such as wireless position assisted location devices seeking signals from any source, such as satellite vehicles and base stations. The data may be obtained from previously acquired data, based upon evaluation of changes in parameters such as time and location that may jeopardize validity. In some cases the data may be adjusted for the changes in parameters. Refined data may be calculated by a receiver using partial measurements of signal sets, particularly if the acquisition assistance data provided by a remote entity includes more distinct parameters than have typically been provided. New data need not be obtained until the validity of previous data expires due to limitations upon temporal extrapolation using Doppler coefficients, unless mobile station movement that cannot be compensated is detected, and jeopardizes validity of the previous data. | 02-16-2012 |
20120115508 | WIRELESS NETWORK HYBRID POSITIONING - Methods and apparatuses for position determination and other operations. In one embodiment of the present invention, a mobile station uses wireless signals from a plurality of wireless networks (e.g., with different air interfaces and/or operated by different service providers) for position determination (e.g., for data communication, for obtaining time and/or frequency information, for range measurement, for sector or altitude estimation). In one embodiment of the present invention, mobile stations are used to harvest statistical data about wireless access points (e.g., the locations of mobile stations that have received signals from the wireless access points, such as from cellular base stations, wireless local area network access points, repeaters for positioning signals or other wireless communication transmitters) and to derive location information (e.g., position and coverage area of the wireless access points) for the wireless networks from the collected statistical data. | 05-10-2012 |
20120115509 | METHOD AND APPARATUS FOR IMPROVING RADIO LOCATION ACCURACY WITH MEASUREMENTS - A method and apparatus to utilize a set of measurements (either partial or compete) to improve the accuracy of an initial position estimate for a wireless terminal. The initial position estimate for the terminal is first obtained (e.g., based on a cell-ID or an enhanced cell-ID solution). Measurements are obtained for the terminal. The initial position estimate is then updated with the measurements to obtain a revised position estimate for the terminal. The updating may be performed by (1) deriving a measurement vector based on the initial position estimate and the measurements, (2) forming an observation matrix for the measurements, (3) determining a matrix of weights, (4) deriving a correction vector based on the measurement vector, the observation matrix, and the weight matrix, and (5) updating the initial position estimate with the correction vector. | 05-10-2012 |
20120179660 | BASE STATION ALMANAC ASSISTED POSITIONING - A database provides base station almanac information pertaining to more than one network mode of communication. A wireless device accesses this database through a centralized server or network, or via the base station, base station controller or the like, with which it is currently communicating. | 07-12-2012 |
20120183099 | DYNAMIC DC-OFFSET DETERMINATION FOR PROXIMITY SENSING - The subject matter disclosed herein relates to dynamically determining DC-offset used for proximity sensing of a mobile device | 07-19-2012 |
20120220294 | SYSTEM AND METHOD TO OBTAIN SIGNAL ACQUISITION ASSISTANCE DATA - Signal acquisition assistance data is obtained for receiving devices such as wireless position assisted location devices seeking signals from any source, such as satellite vehicles and base stations. The data may be obtained from previously acquired data, based upon evaluation of changes in parameters such as time and location that may jeopardize validity. In some cases the data may be adjusted for the changes in parameters. Refined data may be calculated by a receiver using partial measurements of signal sets, particularly if the acquisition assistance data provided by a remote entity includes more distinct parameters than have typically been provided. New data need not be obtained until the validity of previous data expires due to limitations upon temporal extrapolation using Doppler coefficients, unless mobile station movement that cannot be compensated is detected, and jeopardizes validity of the previous data. | 08-30-2012 |
20120244880 | POSITION DETERMINATION WITH PEER-TO-PEER COMMUNICATION - For position determination with peer-to-peer communication, a target terminal broadcasts a request for assistance in determining its position. At least one ranging terminal receives the request. Each ranging terminal sends a response with a time of arrival (TOA) measurement for the request and the position of the ranging terminal. For two-way peer-to-peer, the target terminal receives at least one response from the at least one ranging terminal, obtains a TOA measurement for each response, estimates the distance to each ranging terminal based on the TOA measurement for the request and/or the TOA measurement for the response, and computes a position estimate for itself based on the estimated distance and the position for each ranging terminal. For one-way peer-to-peer, a network entity receives at least one response from the at least one ranging terminal, computes a position estimate for the target terminal, and sends the position estimate to the target terminal. | 09-27-2012 |
20130033418 | GESTURE DETECTION USING PROXIMITY OR LIGHT SENSORS - Example methods, apparatuses, or articles of manufacture are disclosed that may be utilized, in whole or in part, to facilitate or support one or more operations or techniques for gesture detection using, at least in part, output or measurement signals from one or more ambient environment sensors, such as, for example, a proximity sensor or ambient light sensor. | 02-07-2013 |
20130035139 | SENSOR-BASED USER INTERFACE CONTROL - Methods and devices for sensor-based user interface control are disclosed. In one embodiment, a method for determining a characteristic of handedness includes sensing a rotation of a mobile device, determining a direction of rotation based at least in part on accessing information indicative of a first position state prior to sensing the rotation and accessing information indicative of a second position state subsequent to sensing the rotation, and determining the characteristic of handedness based at least in part on the direction of rotation, the first position state, and the second position state. The characteristic of handedness includes one of a left handedness or right handedness. The method further includes determining a user interface mode based on the determined characteristic of handedness, and controlling the mobile device in accordance with the determined user interface mode. | 02-07-2013 |
20130040637 | Location-aware multimodal communication system - A system and method for providing a multimodal list of transceiver devices to a remote terminal is disclosed. A positioning unit determines a location of a remote terminal. A processor identifies transceivers for communicating in at least a first communication mode and a second communication mode according to the location of the remote terminal. The processor retrieves information about the identified transceivers from a database and generates a multimodal list. The processor causes a transceiver to transmit the multimodal list of transceiver devices to the remote terminal using a communication mode of the remote terminal. | 02-14-2013 |
20130095850 | Local area network assisted positioning - A system and method of locating a position of a wireless device in range of one or more base stations. Three signals are received that each contain a unique identifier for a base station. An estimate of the distance between the wireless device and each base station is performed. Previously determined locations for each base station are referenced. At least one of the three base stations is capable of communication to remote locations and unavailable to the wireless device for communication to remote locations. | 04-18-2013 |
20130130725 | DEAD RECKONING USING PROXIMITY SENSORS - Various arrangements for limiting inaccuracy of dead reckoning are presented. Proximity data may be collected using a plurality of proximity sensors of a mobile device. A position of the mobile device may be determined in relation to a user using the proximity data. Whether to determine a location of the mobile device using a dead reckoning technique may be determined at least partially based on the position of the mobile device in relation to the user | 05-23-2013 |
20130201056 | METHOD AND APPARATUS FOR POSITION DETERMINATION WITH EXTENDED SPS ORBIT INFORMATION - A method and system for assisting mobile stations to locate a satellite use an efficient messaging format. A server computes a correction between coarse orbit data of a satellite and precise orbit data of the satellite. A coordinate system is chosen such that variation of the correction is substantially smooth over time. The server further approximates the correction with mathematical functions to reduce the number of bits necessary for transmission to a mobile station. The mobile station, upon receiving the coefficients, evaluates the mathematical functions using the coefficients and a time of applicability (e.g., the current time), converts the evaluated result to a standard coordinate system, and applies the conversion result to the coarse orbit data to obtain the precise orbit data. | 08-08-2013 |
20130201059 | METHOD AND APPARATUS FOR POSITION DETERMINATION WITH EXTENDED SPS ORBIT INFORMATION - A method and system for assisting mobile stations to locate a satellite use an efficient messaging format. A server computes a correction between coarse orbit data of a satellite and precise orbit data of the satellite. A coordinate system is chosen such that variation of the correction is substantially smooth over time. The server further approximates the correction with mathematical functions to reduce the number of bits necessary for transmission to a mobile station. The mobile station, upon receiving the coefficients, evaluates the mathematical functions using the coefficients and a time of applicability (e.g., the current time), converts the evaluated result to a standard coordinate system, and applies the conversion result to the coarse orbit data to obtain the precise orbit data. | 08-08-2013 |
20130222280 | INTEGRATING SENSATION FUNCTIONALITIES INTO A MOBILE DEVICE USING A HAPTIC SLEEVE - Methods, apparatuses, systems, and computer-readable media for integrating sensation functionalities into a mobile device using a haptic sleeve are presented. According to one or more aspects of the disclosure, a computing device may receive, via a haptic sleeve, sensation input captured by one or more haptic components of the haptic sleeve. Subsequently, the computing device may store haptic data corresponding to the received sensation input. For example, in storing such haptic data, the computing device may store information describing one or more electrical signals received via the one or more haptic components of the haptic sleeve during a period of time corresponding to a particular event, and this stored information may reflect various characteristics of the sensation input received by the computing device in connection with the particular event, such as the magnitude(s), position(s), duration, and/or type(s) of sensation(s) captured during the period of time. | 08-29-2013 |
20130227409 | INTEGRATING SENSATION FUNCTIONALITIES INTO SOCIAL NETWORKING SERVICES AND APPLICATIONS - Methods, apparatuses, systems, and computer-readable media for integrating sensation functionalities into social networking services and/or applications are presented. According to one or more aspects, a computing device may receive a status update associated with a social networking service, and the status update may include haptic data. Subsequently, the computing device may cause haptic feedback to be provided to at least one user of the social networking service, based at least in part on the haptic data and the at least one user's relationship with a sender of the status update within the social networking service. In at least one arrangement, first haptic feedback is provided to the user if the user is within a first group of users, and second haptic feedback different from the first haptic feedback is provided to the user if the user is within a second group of users different from the first group of users. | 08-29-2013 |
20130227410 | USING HAPTIC TECHNOLOGIES TO PROVIDE ENHANCED MEDIA EXPERIENCES - Methods, apparatuses, systems, and computer-readable media for using haptic technologies to provide enhanced media experiences are presented. According to one or more aspects of the disclosure, a computing device, such as a smart phone, tablet computer, or portable media player, may establish a connection with a local content receiver. Subsequently, the computing device may receive, from the local content receiver, a sensation data signal that specifies one or more haptic effects to be provided at a particular time relative to playback of a media content item received by the local content receiver. Thereafter, the computing device may provide the one or more haptic effects. | 08-29-2013 |
20130227411 | SENSATION ENHANCED MESSAGING - Methods, apparatuses, systems, and computer-readable media for providing sensation enhanced messaging are presented. According to one or more aspects, a computing device may receive an electronic message, and the electronic message may include sender-specified haptic data that identifies at least one non-vibratory haptic sensation to be provided to a recipient of the electronic message. Subsequently, the computing device may cause haptic feedback to be provided to a user based on the sender-specified haptic data. In at least one arrangement, the at least one non-vibratory haptic sensation may include one or more pressure characteristics, texture characteristics, wetness characteristics, adhesion characteristics, thermal characteristics, and/or movement characteristics. | 08-29-2013 |
20130288655 | USE OF PROXIMITY SENSORS FOR INTERACTING WITH MOBILE DEVICES - Various arrangements for handling a call by a mobile device and/or selecting a function for execution by the mobile device are presented. A phone call may be commenced by a mobile device. During the phone call, the mobile device may collect proximity data that indicates the mobile device is not proximate to an ear of a user. The microphone of the mobile device may be muted in response to the proximity data that indicates the mobile device is not proximate to the ear of the user. | 10-31-2013 |
20140038637 | METHOD AND APPARATUS FOR IMPROVING RADIO LOCATION ACCURACY WITH MEASUREMENTS - A method and apparatus to utilize a set of measurements (either partial or compete) to improve the accuracy of an initial position estimate for a wireless terminal. The initial position estimate for the terminal is first obtained (e.g., based on a cell-ID or an enhanced cell-ID solution). Measurements are obtained for the terminal. The initial position estimate is then updated with the measurements to obtain a revised position estimate for the terminal. The updating may be performed by (1) deriving a measurement vector based on the initial position estimate and the measurements, (2) forming an observation matrix for the measurements, (3) determining a matrix of weights, (4) deriving a correction vector based on the measurement vector, the observation matrix, and the weight matrix, and (5) updating the initial position estimate with the correction vector. | 02-06-2014 |
20140111187 | DYNAMIC DC-OFFSET DETERMINATION FOR PROXIMITY SENSING - The subject matter disclosed herein relates to dynamically determining DC-offset used for proximity sensing of a mobile device. | 04-24-2014 |
20140116133 | Multi-Sensor Data Collection and/or Processing - The subject matter disclosed herein relates to the control and utilization of multiple sensors within a device. For an example, motion of a device may be detected in response to receipt of a signal from a first sensor disposed in the device, and a power state of a second sensor also disposed in the device may be changed in response to detected motion. | 05-01-2014 |
20140145943 | SENSOR-BASED USER INTERFACE CONTROL - Methods and devices for sensor-based user interface control are disclosed. In one embodiment, a method for determining a characteristic of handedness includes sensing a rotation of a mobile device, determining a direction of rotation based at least in part on accessing information indicative of a first position state prior to sensing the rotation and accessing information indicative of a second position state subsequent to sensing the rotation, and determining the characteristic of handedness based at least in part on the direction of rotation, the first position state, and the second position state. The characteristic of handedness includes one of a left handedness or right handedness. The method further includes determining a user interface mode based on the characteristic of handedness determined, and controlling the mobile device in accordance with the user interface mode determined. | 05-29-2014 |
20140267431 | INTELLIGENT DISPLAY IMAGE ORIENTATION BASED ON RELATIVE MOTION DETECTION - Techniques for display rotation are disclosed. In one aspect, raw angular motion sensor (AMS) data can be accessed. A motion state of the mobile device can be determined based at least in part on processing the raw AMS data. AMS data can be further processed to determine whether to perform a rotation of the display image based at least in part on applying at least one pre-defined criterion to the AMS data. | 09-18-2014 |
20140337732 | MUSIC PLAYBACK CONTROL WITH GESTURE DETECTION USING PROXIMITY OR LIGHT SENSORS - Example methods, apparatuses, or articles of manufacture are disclosed that may be utilized, in whole or in part, to facilitate or support one or more operations or techniques for music playback control with gesture detection using proximity or light sensors using, at least in part, output or measurement signals from one or more ambient environment sensors, such as, for example, a proximity sensor or ambient light sensor. | 11-13-2014 |
20140357251 | USE OF PROXIMITY SENSORS FOR INTERACTING WITH MOBILE DEVICES - Various arrangements for handling a call by a mobile device and/or selecting a function for execution by the mobile device are presented. A phone call may be commenced by a mobile device. During the phone call, the mobile device may collect proximity data that indicates the mobile device is not proximate to an ear of a user. The microphone of the mobile device may be muted in response to the proximity data that indicates the mobile device is not proximate to the ear of the user. | 12-04-2014 |
20150018009 | METHOD AND APPARATUS FOR WIRELESS NETWORK HYBRID POSITIONING - Methods and apparatuses for position determination and other operations. In one embodiment of the present invention, a mobile station uses wireless signals from a plurality of wireless networks (e.g., with different air interfaces and/or operated by different service providers) for position determination (e.g., for data communication, for obtaining time and/or frequency information, for range measurement, for sector or altitude estimation). In one embodiment of the present invention, mobile stations are used to harvest statistical data about wireless access points (e.g., the locations of mobile stations that have received signals from the wireless access points, such as from cellular base stations, wireless local area network access points, repeaters for positioning signals, or other wireless communication transmitters) and to derive location information (e.g., position and coverage area of the wireless access points) for the wireless networks from the collected statistical data. | 01-15-2015 |
20150057018 | WIRELESS NETWORK HYBRID POSITIONING - Methods and apparatuses for position determination and other operations. In one embodiment of the present invention, a mobile station uses wireless signals from a plurality of wireless networks (e.g., with different air interfaces and/or operated by different service providers) for position determination (e.g., for data communication, for obtaining time and/or frequency information, for range measurement, for sector or altitude estimation). In one embodiment of the present invention, mobile stations are used to harvest statistical data about wireless access points (e.g., the locations of mobile stations that have received signals from the wireless access points, such as from cellular base stations, wireless local area network access points, repeaters for positioning signals or other wireless communication transmitters) and to derive location information (e.g., position and coverage area of the wireless access points) for the wireless networks from the collected statistical data. | 02-26-2015 |
20150066538 | Communication Device Resource Allocation Based On Medical Data Criticality and Resource Status - Methods and devices are disclosed for managing a resource of a communication device configured to process and communicate medical data in addition to other data. The systems and devices may implement the method, including determining whether to switch to a medical mode based on at least one signal. In response to determining to switch to the medical mode, the communication device may be switched to the medical mode. A resource status associated with a plurality of resources used by the communication device may be weighed against a medical data criticality associated with the medical data managed by the communication device. The method may include allocating a resource of the plurality of resources on a sliding priority scale. The allocating may include allocating a resource of the plurality of resources preferentially to the medical data over the other data. | 03-05-2015 |