Patent application number | Description | Published |
20090131124 | WIRELESS EARPIECE DETERMINING PROXIMITY TO USER AND OPERATION BASED THEREON - A wireless earpiece that is configured to fit to an ear of a user includes a sensor for sensing the proximity of the wireless earpiece to the user. The sensor produces a proximity signal indicative of whether the wireless earpiece is engaged with the user. If the proximity signal indicates that the wireless earpiece is engaged with the user, the wireless earpiece automatically initiates communication with a radio device. | 05-21-2009 |
20090189810 | WEIGHTED AIDING FOR POSITIONING SYSTEMS - Location information provided by multiple positioning systems is combined to provide an estimated user location. In performing the combination, location information provided by the positioning system that is currently deemed more reliable is provided greater weight than the location information provided from the other positioning system(s). Alternatively, one of multiple positioning systems is selected to calculate an estimated user location. The selected system is the one that is currently deemed more reliable based on some indicia of reliability. Using either approach, an accurate estimate of a user's location can be provided both in rural areas or other sparsely-populated areas as well as in urban areas or other areas prone to high multipath effects. | 07-30-2009 |
20110199185 | BUILDING A LOCATION BASED SERVICE REFERENCE DATABASE BASED ON ENCOUNTERED RFID TAGS - A RFID reader of a RFID enabled mobile device receives RFID information from a RFID tag attached to an object. In instances where the RFID enabled mobile device is GNSS enabled, a GNSS position of the RFID enabled mobile device is determined to associate, for example, by location stamping, with the received RFID information. The location-stamped RFID information is communicated to a remote location server, where location-based RFID information is received from a plurality of users. The RFID enabled mobile device may communicate at least a portion of the received RFID information to the remote location server. When GNSS is not enabled, the RFID enabled mobile device estimates its own location utilizing location information, if available, for the object in the received RFID information. Otherwise, the RFID enabled mobile device acquires location-based RFID information from the remote location server so as to determine its own location. | 08-18-2011 |
20110199259 | SENSOR-ASSISTED LOCATION-AWARE MOBILE DEVICE - A GNSS enabled mobile device moves from a first area where GNSS signal quality and/or level is above a threshold to a second area where GNSS signal quality and/or level is below the threshold. The GNSS enabled mobile device in the second area determines its own location utilizing previous GNSS measurements in the first area. GNSS signals are received to calculate GNSS measurements whenever the GNSS enabled mobile device is in the first area. The calculated GNSS measurements are utilized to determine a location of the GNSS enabled mobile device within the first area. The GNSS enabled mobile device in the second area utilizes the most current GNSS measurements in the first area to determine its own location. Sensors such as an image sensor, a light sensor, an audio sensor and/or a location sensor are used to refine the location of the GNSS enabled mobile device in the second area. | 08-18-2011 |
20110199260 | METHOD AND SYSTEM FOR DETERMINING A LOCATION OF A CELLULAR BASE STATION UTILIZING MOBILE GNSS VELOCITY AND CORRESPONDING CELLULAR DOPPLER - A GNSS enabled mobile device concurrently receives GNSS signals from GNSS satellites and transmissions from a cellular base station. GNSS-based velocities and GNSS locations are determined for the GNSS enabled mobile device utilizing the received GNSS signals. A cellular Doppler is measured on the cellular base station. A location of the cellular base station is determined based on the determined GNSS-based velocity and corresponding cellular Doppler measurements. The cellular base station may be located by the GNSS enabled mobile device and/or by a remote location server. In this regard, the remote location server may determine the location for the cellular base station utilizing GNSS velocities and corresponding cellular Doppler measurements received from plural GNSS enabled mobile devices in a coverage area of the cellular base station. The determined location of the cellular base station is used to refine GNSS locations of the plurality of GNSS enabled mobile devices when needed. | 08-18-2011 |
20110199262 | ESTIMATING FREQUENCY OF A GNSS ENABLED DEVICE BASED ON TIME STAMPS - A GNSS enabled device that is communicatively coupled to a network, receives time stamps via the network. The time stamps are generated based on reference clock signals within the network. GNSS receiver clock signal frequency may be adjusted based on the time stamps. When GNSS satellite signals and/or SRN signals are not available, the time stamps enable synchronization with GNSS satellites. Network clock signals and/or time stamps may be generated by an access point, a DSL modem, a cable modem and/or a primary reference clock within the network. A series of time stamps may be utilized for adjusting frequencies. Clock signals may be generated for adjusting frequencies based on a comparison between time stamps and oscillator or mixer output. Clock signals are generated for baseband, intermediate and/or RF frequency signal processing. GNSS satellite signals may be demodulated, correlated with a pseudonoise code sequence and/or synchronized based on the time stamps. | 08-18-2011 |
20110199916 | METHOD AND SYSTEM FOR DETERMINING THE LOCATION OF A WIRELESS ACCESS POINT USING SINGLE DEVICE BASED POWER MEASUREMENTS - A mobile device measures power from different locations for an encountered wireless access point, a WiFi or Bluetooth access point, and communicates the power measurements to a remote location. The remote location server collects power measurements for the encountered wireless access point from a plurality of communication devices. The remote location server determines the location of the encountered wireless access point utilizing corresponding power measurements from a single communication device. The power measurements are performed at different locations and over a period of time. The power measurements are time stamped and transmitted to the remote location server. The single communication device is selected based on quality and/or availability of corresponding power measurements for the encountered wireless access point. The determined location of the encountered wireless access point is stored into a reference database so as to be shared among the plurality of communication devices. | 08-18-2011 |
20110199917 | COLLABORATIVE SHARING OF LOCATION INFORMATION AMONG DEVICES IN A NETWORK - A wireless communication device determines its location and communicates the location to other local devices utilizing a nonstandard, standard and/or proprietary protocol in combination with another protocol such as a Bluetooth, RFID, IEEE 802.11 and/or a cellular phone protocol. The location may be determined utilizing a GNSS receiver and/or network device information. A new location may be determined based on the determined location, a relative distance and/or a relative direction to other local devices. Determined location information may be communicated to other devices via a network. The wireless communication device may receive locations and/or corresponding location uncertainties from devices located within a limited range. The received information is utilized to determine a more accurate location. The more accurate location is communicated back to the devices within the limited range and/or to other communication devices. | 08-18-2011 |
20110199964 | METHOD AND SYSTEM FOR DETERMINING A LOCATION OF AN ACCESS POINT BASED ON ASSOCIATION OF THE ACCESS POINT WITH A COMMUNICATION DEVICE HAVING A KNOWN LOCATION - A communication device associated with a wireless access point, namely, a WiFi access point or a Bluetooth access point for example, communicates its location information to the wireless access point. The wireless access point determines its own location utilizing the communicated location information. The communicated location information comprises a device location address and/or a GNSS position of the associated communication device. The device address comprises a network accessible address, a device identifier, a telephone number, an IP address, a url and/or ftp location, an e-mail address, and/or an account number that identifies a corresponding location of the communication device. The wireless access point retrieves corresponding device location addresses and/or GNSS positions from a plurality of associated communication devices. The retrieved device location addresses are converted to determine corresponding locations for self-locating the wireless access point. The determined location of the wireless access point is shared with each associated communication device. | 08-18-2011 |
20110200024 | PROVIDING GNSS ASSISTANCE DATA VIA A WIRELESS LAN ACCESS POINT - A wireless mobile device, either a WLAN enabled mobile device or a Bluetooth enable device, which is within range of a WLAN access point, is operable to receive GNSS assistance data broadcasted from the WLAN access point. The GNSS assistance data are acquired by the WLAN access point from a reference database coupled to a location server. The broadcast GNSS assistance data comprise ephemeris data, LTO data, location information related to the WLAN access point and/or time information. The WLAN access point receives the acquired GNSS assistance data from the location server over a broadband IP network. The WLAN access point selects available resources for broadcasting the received GNSS assistance data to wireless mobile devices in range. The wireless mobile device receives the broadcast GNSS assistance data to calculate its own location. The calculated location of the wireless mobile device is used to update or refine the reference database. | 08-18-2011 |
20110201305 | METHOD AND SYSTEM FOR ENSURING USER AND/OR DEVICE ANONYMITY FOR LOCATION BASED SERVICES (LBS) - A mobile device may communicate with a location server during location based services (LBS) operations using a secure identifier. The secure identifier abstracts identification information of the mobile device and/or identification information of a user of the mobile device in instances that the mobile device and/or user identification information are deemed protectable from the location server. The location server may be operable to store location data corresponding to the mobile device and/or the user in a location reference database based on the secure identifier. The secure identifier may comprise a unique value, which may be randomly generated. The secure identifier may also be generated based on the mobile device and/or user identification information, by applying, for example, encryption algorithms to the mobile device and/or user identification information. Service providers for the mobile device may retrieve the abstracted mobile device and/or user identification information from the secure identifier. | 08-18-2011 |
20110201335 | METHOD AND SYSTEM FOR A LOCATION-BASED VERTICAL HANDOFF OVER HETEROGENEOUS MOBILE ENVIRONMENTS - A multi-radio mobile device receives data transmissions for a wireless communication session from a current serving access network in a coupled heterogeneous network system comprising a plurality of different access networks. The multi-radio mobile device initiates a handoff for the wireless communication session based on the current mobile location. The multi-radio mobile device acquires location based network connection information such as call drop in the current mobile location from a location server so as to make a handoff decision. When the handoff is to be performed, a target access network or a different base station in the current serving access network associated with the lowest call drop rate is selected. The wireless communication session is received from the selected target access network, as a new serving access network, or from the different base station in the current serving access network with the completion of the handoff. | 08-18-2011 |
20110201336 | METHOD AND SYSTEM FOR OPTIMIZING USER-LEVEL QoS DURING A LOCATION-BASED HANDOFF OVER HETEROGENEOUS MOBILE ENVIRONMENTS - A multi-radio mobile device receives data transmission of a session from a serving access network in a heterogeneous network system comprising difference access networks. A handoff is performed based on the received data transmissions. User-level QoS for the wireless communication session is adjusted during the handoff based on connection QoS information in the current location of the multi-radio mobile device and/or a velocity of the multi-radio mobile device. Location-based network connection information, comprising call drop information and the connection QoS information, in the current location of the multi-radio mobile device is acquired from a location server. A target access network or a different base station in the serving access network associated with the highest connection QoS is selected. The user-level QoS is adjusted during the handoff for receiving the wireless communication session from the selected target access network or the different base station in the serving access network. | 08-18-2011 |
20110201347 | METHOD AND SYSTEM FOR LOCATION-BASED DYNAMIC RADIO SELECTION - A multi-radio mobile device comprises a plurality of different radios. When a location update occurs, the multi-radio mobile device, at a specific location, acquires location-based radio information from a remote location server. The multi-radio mobile device selects a radio for use in the specific location based on the acquired location-based radio information comprising available radios in the specific location and radio weights. The radio is selected from the available radios based on the radio weights in the specific location. Transmissions of a desired service are received in the specific location utilizing the selected radio. Location-based radio measurements reports to the remote location server are generated utilizing signal strength measurements for the received signals. Radio quality information of the available radios is calculated by the location server utilizing location-based radio measurement reports from associated users. The radio weights of the available radios are determined based on the calculated radio quality information. | 08-18-2011 |
20110201357 | METHOD AND SYSTEM FOR REFINING A LOCATION OF A BASE STATION AND/OR A MOBILE DEVICE BASED ON SIGNAL STRENGTH MEASUREMENTS AND CORRESPONDING TRANSMITTER AND/OR RECEIVER ANTENNA PATTERNS - A mobile device receives data transmissions, via a coupled receiver antenna array, from a transmitter antenna array of a serving base station. The mobile device determines relative distances, with respect to the serving base station, associated with signal strength measurements on the received data transmissions. The signal strength measurements are compensated, at the mobile device and/or a remote location server, in three-dimensional space based on corresponding transmitter and/or receiver antenna pattern, and/or mobile orientation information for estimating the relative distances. The estimated relative distances are refined by fitting a function of the azimuth and elevation angles. A location for the serving base station and/or the mobile device is determined or refined based on the refined relative distances to be shared among a plurality of users of the remote location server. Fixed or adaptive antenna patterns are supported at the serving base station and/or the mobile device. | 08-18-2011 |
20110201358 | DETERMINING APPLICATION USAGE RELATIVE TO A PARTICULAR LOCATION - A mobile device collects information about application usage and associates collected application information with a location of the mobile device and/or a time that the application is accessed. The application is stored on the mobile device or on an external device and accessed via a network. The application information, location of the mobile device and time the application is accessed are communicated to another device and stored in a storage device which may be operated or managed by a service provider or another entity. The application information may comprise identification of a website, a network device or URL, the application and/or data that is input and/or output from the application. The location of the mobile device and/or the time, are determined utilizing a GNSS receiver and/or utilizing information from a network device. The application information, the location of the mobile device and/or the time may be utilized for targeted advertizing. | 08-18-2011 |
20110201360 | METHOD AND SYSTEM FOR PHYSICAL MAP-ASSISTED WIRELESS ACCESS POINT LOCATING - A mobile device receives a server-assisted location for a wireless access point, either a WiFi access point or a Bluetooth access point, from a remote location server comprising a reference database. The received server-assisted location is refined using a physical map or image. The mobile device is operable to acquire the physical map or image for a map-assisted location for the wireless access point. The mobile device compares the two locations to generate a valid location for the wireless access point. In instances where the two locations are consistent, the mobile device utilizes one of the two locations as the valid location for the wireless access point. Otherwise, the mobile device refines the server-assisted location utilizing the map-assisted location. The resulting refined server-assisted location is utilized as the valid location for the wireless access point and is transmitted to the remote location server to refine the reference database. | 08-18-2011 |
20110202416 | METHOD AND SYSTEM FOR AUTHORIZING TRANSACTIONS BASED ON DEVICE LOCATION - Aspects of a method and system for authorizing network transactions based on device location are provided. In this regard, a request may be received to approve a transaction that was initiated from a first communication device and comprises a need to access an account. In response to the request, a second communication device that is associated with the account may be determined, and it may be determined whether to approve the transaction based on received data relating to the identity and location of the second communication device. The transaction may be associated with the second communication device via a database stored on the location server. The transaction may be approved in instances that the first communication device is in a location associated, via the database, with the second communication device. The transaction may be approved in instances that the first communication device is in substantially the same location as the second communication device. | 08-18-2011 |
20110202460 | METHOD AND SYSTEM FOR AUTHORIZING TRANSACTIONS BASED ON RELATIVE LOCATION OF DEVICES - Aspects of a method and system for authorizing transactions based on relative location of devices are provided. In this regard, data relating to a location of a first communication device and data relating to a location of a second communication device may be received, a distance between the first communication device and the second communication device may be determined based on the received data, and whether to approve a transaction may be determined based on the determined distance. The transaction may have been initiated from one of the first communication device and the second communication device, and may comprise a need to access an account. The transaction may be approved in instances that the first communication device and the second communication device are within a predetermined distance of each other. The received data may comprise distance information determined via communications between the first communication device and the second communication device. | 08-18-2011 |
20110202461 | METHOD AND SYSTEM FOR AUTHORIZING NETWORK TRANSACTIONS BASED ON RADIO FREQUENCY (RF) CHARACTERIZATION OF A DEVICE'S LOCATION - Aspects of a method and system for authorizing network transactions based on radio frequency (RF) characterization of a device's location are provided. In this regard, whether to approve a communication device to perform a network transaction may be determined based on results of a comparison between a radio frequency (RE) characterization of a location of the communication device and one or more approved RF characterizations. The RF characterization may be based on information from a plurality of receivers within the communication device. The one or more approved characterizations may be stored in the network device. The RF characterization may indicate a quantity of RF sources detected and identified by the communication device at the location. The RF characterization may indicate signal strength of signals received from RF sources detected and indentified by the communication device at the location. | 08-18-2011 |
20110202576 | METHOD AND SYSTEM FOR UPDATING OBSOLETE RECORDS FOR REFERENCE POSITIONS IN A REFERENCE POSITION DATABASE - A mobile device communicates position samples of one or more reference position with respect to one or more other communication device such as access points to a location server communicatively coupled to a reference database. The location server determines whether to utilize the one or more reference position in the reference position database based on the communicated samples. The mobile device scans the position samples, which indicate position information of the one or more other communication device and/or whether the position information is reliable for use. The scanned position samples are accumulated and transmitted to the location server. The location server updates records for the one or more reference positions with respect to the one or more other communication device in the reference position database based on the accumulated position samples received. The updated records are utilized to determine a fast position fix for the position device. | 08-18-2011 |
20110205110 | METHOD AND SYSTEM FOR PROPAGATING GNSS ASSISTANCE DATA AMONG COMMUNICATION DEVICES IN A GNSS GROUP - A communication device within a GNSS group propagates GNSS assistance data to one or more other communication devices in the GNSS group utilizing direct device-to-device connections. The GNSS assistance data comprises ephemeris received from one or more GNSS satellites and/or predicted ephemeris. As a source device, the communication device generates, and/or acquires from other resources such as a remote location server, the predicted ephemeris. As a destination device, the communication device receives existing GNSS assistance data from a source device and/or other communication devices in the GNSS group. A GNSS position for the communication device and corresponding time information are used to refresh the received GNSS assistance data. In instances where the communication device further acts as a relay device, the refreshed GNSS assistance data is relayed to other communication devices over wired and/or wireless direct device-to-device connections utilizing appropriate communication technologies such as WiFi, Bluetooth and/or Bluetooth low energy. | 08-25-2011 |
20110207472 | METHOD AND SYSTEM FOR CELLULAR CLOCK-ASSISTED WIRELESS ACCESS POINT LOCATING - A wireless access point comprising a cellular receiver receives radio signals from a cellular base station. A cellular reference clock, synchronized to the cellular base station, is detected from the received radio signals. The detected cellular reference clock is utilized to stabilize a local access point clock for GNSS positioning. A clock difference between the local access point clock and the detected cellular reference clock is determined and the local access point clock may be adjusted accordingly. The adjusted local access point clock is utilized for clocking communications between the wireless access point and other communication devices. A time offset between the adjusted local access point clock and the detected cellular reference clock is provided to a remote location server. The remote location server retrieves time offset information from wireless access points served by the cellular base station so as to determine relative distances among the wireless access points. | 08-25-2011 |
20110212735 | METHOD AND SYSTEM FOR SEAMLESS CONSUMMATION OF AN ELECTRONIC TRANSACTION BASED ON LOCATION RELATED DATA - A mobile device may determine its location, receive transaction related information, and initiate, based on its determined location and/or the transaction related information, a transaction at the current location. The transaction related information may be received from a location server. The mobile device and/or its users may also be authenticated, using the location server. The initiated transaction may be completed automatically, without user input. The device user may also be prompted for authorization and/or information for completing the transaction. The transaction related information may specify if and/or when transactions are to be completed automatically. The mobile device may track user actions via the mobile device, and may generate based on that tracking, user action data pertaining transactions initiated and/or conducted by the user. The generated user action data may be communicated to the location server, and may be used to update the profile data maintained by the location server. | 09-01-2011 |
20110222471 | METHOD AND SYSTEM FOR OPTIMIZED TRANSFER OF LOCATION DATABASE INFORMATION - A servicing communication device may receive a subset of a location reference database that is maintained by a plurality of location servers, and may provide location related data to a mobile device that is communicatively coupled to the servicing communication device based on the received subset. The servicing communication device may determine capabilities and/or requirements of the mobile device, and may generate the location related data based on that determination. The servicing communication device may determine attributes and/or parameters that may affect determination of the subset of the location reference database. The subset of location reference database may be requested based on the determined attributes and/or parameters. The attributes and/or parameters may comprise a location of the servicing communication device. The servicing communication device may determine its location, directly based on GNSS transmissions and/or indirectly based on assisted GNSS (A-GNSS) data received from the plurality of location servers. | 09-15-2011 |
20110223931 | METHOD AND SYSTEM FOR CHARACTERIZING LOCATION AND/OR RANGE BASED ON TRANSMIT POWER - A transmitting communication device may iteratively adjust its transmit power, and may estimate, based on iterative transmit power adjustment, relative location of a receiving communication device. The transmit power may be initialized to a maximum value, and the transmit power may be iteratively reduced until connectivity with the receiving communication device is lost. The loss of connectivity may be determined based on reception of responses to ping messages transmitted by the transmitting communication device. The transmitting communication device may authenticate the receiving communication device and/or a user of the receiving communication device. The authentication may comprises utilizing transmit power adjustment and/or relative location estimation therefrom to ensure that a separation between the devices does not exceed a maximum value. The transmitting communication device may generate location info associated with the receiving communication device based on the relative location estimation, and may communicate the location info to a location server. | 09-15-2011 |
20110227788 | METHOD AND SYSTEM FOR GENERATING AND PROPAGATING LOCATION INFORMATION BY A MOBILE DEVICE USING SENSORY DATA - A mobile device may determine its initial absolute location; may track using a plurality of sensors, its movements relative to the initial absolute location; and may generate location related data for a location based on that tracking. Tracking movement of the mobile device may comprise generating data corresponding to three-dimensional (3D) linear and/or rotational changes in position and/or location of the mobile device. The initial absolute location may be determined directly by the mobile device, based on GNSS signals and/or assisted GNSS (A-GNSS) data received from one or more location servers; and/or it may be estimated based on a location of a communication device that is communicatively coupled to the mobile device. The generated location related data may propagated by the mobile device to other mobile and/or communication devices, and/or to the location servers, where a reference database for supporting location related services (LBS) may be updated accordingly. | 09-22-2011 |
20130099966 | METHOD AND SYSTEM FOR PROPAGATING GNSS ASSISTANCE DATA AMONG COMMUNICATION DEVICES - A communication device within a GNSS group propagates GNSS assistance data to one or more other communication devices in the GNSS group. The GNSS assistance data includes ephemeris received from one or more GNSS satellites and/or predicted ephemeris. As a source device, the communication device generates, and/or acquires from other resources such as a remote location server, the predicted ephemeris. As a destination device, the communication device receives existing GNSS assistance data from a source device and/or other communication devices in the GNSS group. A GNSS position for the communication device and corresponding time information are used to refresh the received GNSS assistance data. In instances where the communication device further acts as a relay device, the refreshed GNSS assistance data is relayed to other communication devices over wired and/or wireless direct device-to-device connections utilizing appropriate communication technologies such as WiFi, Bluetooth and/or Bluetooth low energy. | 04-25-2013 |
20130122857 | DETERMINING APPLICATION USAGE RELATIVE TO A PARTICULAR LOCATION - A mobile device collects information about application usage and associates collected application information with a location of the mobile device and a time that the application is accessed. The application is stored on the mobile device or on an external device and accessed via a network. The application information, location of the mobile device and time the application is accessed are communicated to another device and stored in a storage device which may be operated or managed by a service provider or another entity. The application information may comprise identification of a website, a network device or URL, the application and/or data that is input and/or output from the application. The location of the mobile device and/or the time, are determined utilizing a GNSS receiver and/or utilizing information from a network device. The application information, the location of the mobile device and/or the time may be utilized for targeted advertising. | 05-16-2013 |
20140066076 | Method and System for Location-Based Dynamic Radio Selection - A multi-radio mobile device comprises a plurality of different radios. When a location update occurs, the multi-radio mobile device, at a specific location, acquires location-based radio information from a remote location server. The multi-radio mobile device selects a radio for use in the specific location based on the acquired location-based radio information comprising available radios in the specific location and radio weights. The radio is selected from the available radios based on the radio weights in the specific location. Transmissions of a desired service are received in the specific location utilizing the selected radio. Location-based radio measurements reports to the remote location server are generated utilizing signal strength measurements for the received signals. Radio quality information of the available radios is calculated by the location server utilizing location-based radio measurement reports from associated users. The radio weights of the available radios are determined based on the calculated radio quality information. | 03-06-2014 |