Patent application number | Description | Published |
20080200187 | SYSTEM AND METHOD FOR ESTIMATING CELL CENTER POSITION FOR CELL ID BASED POSITIONING - Systems and methods for estimating a cell center location in a wireless communication system having all interface to a satellite positioning system (“SPS”) such as for example, a Geosynchronous Positioning System (“GPS”). The wireless communication system provides service to mobile stations within a cell, each mobile station includes a SPS receiver. Examples of the systems and methods for estimating a cell center location analyze the mobile station locations in a cell as a uniform distribution of mobile station locations and calculate a statistical measure characterizing the mobile station locations as a function of the mobile station locations. In one example, the statistical measure is a maximum likelihood mobile station location. In another example, the statistical measure is the mean mobile station location in the cell. The estimated cell center location may be used to approximate the location of the mobile station during a warm or cold restart of the SPS receiver part of the mobile station. | 08-21-2008 |
20080246653 | GPS NAVIGATION USING INTERACTING MULTIPLE MODEL (IMM) ESTIMATOR AND PROBABILISTIC DATA ASSOCIATION FILTER (PDAF) - A method for GPS navigation which uses an interacting multiple-model (IMM) estimator with a probabilistic data association filter (PDAF) improves navigation performance. The method includes (a) providing two or more models of GPS navigation, with each model characterized by a model state vector which is updated periodically, (b) providing for each model a corresponding filter for deriving, for each period, a current value for the corresponding model state vector based on current measurements made on parameters affecting the corresponding state vector; and (c) applying an interacting multiple model (IMM) estimator to provide, for each period, a current value for a system state vector using the current values of the model state vectors for that period and their corresponding filters. Each model state vector may include one or more of the following: variables: 3-dimensional position, 3-dimensional velocity, satellite clock bias, satellite clock drifts and one or more other satellite parameters. The current value of the system state vector may be a weighted average of the current values of the model state vectors, where the weights are a set of mode probabilities. In addition, one or more of the filters is a probabilitic data association filter (PDAF). | 10-09-2008 |
20080303663 | METHOD FOR VERIFYING THE INTEGRITY OF A CONTAINER - A container security device comprises a sensor and a local memory configured to store input from the sensor, wherein the device is configured to detect a breach of a container. A container security method comprises the steps of detecting a change in a measurement value inside a container, and indicating a breach if a change in measurement value exceeds a threshold. A method of determining if a container was breached comprises the steps of downloading a log of gathered information, and checking the gathered information for any abnormalities, wherein the gathered information includes at least one sensor measurement taken from the inside of a container. A device for maintaining security of a navigation receiver unit comprises an enclosure, comprising a sensor, a processor, a local memory configured to store input from the sensor, and a navigation receiver unit, wherein the device is configured to detect a breach of the enclosure. | 12-11-2008 |
20090096669 | MULTIPATH MITIGATION USING SENSORS - Systems, methods and devices for multipath mitigation are presented. Specifically, embodiments of the invention can advantageously use sensor input to mitigate the effect of multipath signals received at a receiver. The use of physical sensors in navigation systems is deemed particularly advantageous. | 04-16-2009 |
20090115656 | Systems and Methods for Global Differential Positioning - Systems and methods for global differential positioning are provided. In this regard, a representative system, among others, may include a first receiver being configured to receive global correction data from a single source; and a computing device being configured to adjust positional estimates based on the received global correction data. A representative method, among others, for global differential positioning may include receiving satellite measurement information; receiving global correction data from a single source; generating location information based on the received satellite information; adjusting the location information based on the global correction data to produce adjusted location information; and delivering the adjusted location information. | 05-07-2009 |
20090143983 | NAVIGATION SYSTEM WITH DYNAMICALLY CALIBRATED PRESSURE SENSOR - A navigation system includes a pressure sensor, a calibration module in communication with the pressure sensor, and an altitude module in communication with the calibration module. The calibration module is configured to determine a dynamic pressure proportionality coefficient based at least in part on a static pressure proportionality coefficient, a measured pressure value from the pressure sensor, and a velocity value. The altitude module is configured to calculate a sensor-based altitude value based at least in part on the determined dynamic pressure proportionality coefficient. | 06-04-2009 |
20090219206 | EPHEMERIS EXTENSION METHOD FOR GNSS APPLICATIONS - Systems, methods and devices for improving the performance of Global Navigation Satellite System (GNSS) receivers are disclosed. In particular, the improvement of the ability to calculate a satellite position or a receiver position where a receiver has degraded ability to receive broadcast ephemeris data directly from a GNSS satellite is disclosed. Correction terms can be applied to an approximate long-term satellite position model such as the broadcast almanac. | 09-03-2009 |
20110169947 | IMAGE IDENTIFICATION USING TRAJECTORY-BASED LOCATION DETERMINATION - The subject matter disclosed herein relates to acquiring information regarding a target object using an imaging device of a handheld mobile device. | 07-14-2011 |
20110183606 | SYNCHRONIZING A RADIO NETWORK WITH END USER RADIO TERMINALS - A wireless communications device comprises a communication receiver and a positioning system receiver in the wireless mobile communication device. An absolute time signal is received at the positioning system. A network time signal is received at the communication receiver of the wireless mobile communication device. A controller is in signal communication with the position system receiver and the communication receiver. The controller is configured to determine an offset of the absolute time signal from the network time signal and generates a timing mark. The timing mark is tagged by the positioning system receiver with an internal clock value wherein the timing mark has a known relationship with the absolute time signal. A memory stores the offset of the absolute time signal from the network time signal. A transmitter in the wireless mobile communication device transmits the offset for receipt by another wireless mobile communication device. | 07-28-2011 |
20120191614 | SYSTEM FOR LOCATION BASED TRANSACTION SECURITY - A system for improving transaction security based on location information. The system includes a transaction processing center in communication with a first transaction device and a second transaction device. The transaction processing center includes a receiver that receives respective identification and location from at least one of the first and second transaction devices. The transaction processing center also includes a transaction processor that validates the identifications, validates the locations, and executes a transaction between the first and second transaction devices when the identifications and locations are validated. | 07-26-2012 |
20120256792 | EPHEMERIS EXTENSION METHOD FOR GNSS APPLICATIONS - Systems, methods and devices for improving the performance of Global Navigation Satellite System (GNSS) receivers are disclosed. In particular, the improvement of the ability to calculate a satellite position or a receiver position where a receiver has degraded ability to receive broadcast ephemeris data directly from a GNSS satellite is disclosed. Correction terms can be applied to an approximate long-term satellite position model such as the broadcast almanac. | 10-11-2012 |
20130257648 | PREDICTION REFRESH METHOD FOR EPHEMERIS EXTENSIONS - Systems, methods and devices for using ephemeris data in GNSS receivers and systems are provided. Receivers using synthetic ephemeris data for longer ephemeris availability under poor reception conditions are updated using a variety of techniques that allow for the transfer of accurate information onto degraded synthetic ephemeris information. | 10-03-2013 |
Patent application number | Description | Published |
20080238765 | Satellite Clock Prediction - Devices and methods are described for determining position information without broadcast ephemeris data for a spanned time period using predictions of future satellite states. These predictions include predictions of satellite clock bias. During the spanned time period, broadcast ephemeris is received such that a broadcast-ephemeris-derived satellite clock bias may be determined. The predictions of satellite clock bias subsequent to the receipt of the broadcast ephemeris may then be corrected based upon the broadcast-ephemeris-derived satellite clock bias. | 10-02-2008 |
20090115660 | DETERMINING POSITION WITHOUT USE OF BROADCAST EPHEMERIS INFORMATION - Devices and methods are described for determining position information without broadcast ephemeris data for extended time periods. A server or client device receives or collects historical state data of satellites of a satellite-based positioning system and generates predictions of future satellite trajectories for future time periods. When a server generates the predictions, the predictions are subsequently transferred to a client device. The client device selects predictions appropriate to time of interest. The time can be any time during a period of at least seven calendar days. The client device reconstructs satellite states using information on the predictions and uses the reconstructed satellite states to acquire satellite signals as appropriate to the current location and time of the client device. The client device determines and/or tracks its position using information of the satellite states and timing information of the satellite signals. | 05-07-2009 |
20100182195 | Resolving Transmit Time Uncertainty in Carrier Phase Relative Positioning - Methods and apparatus are provided for use in electronic devices to perform carrier phase relative positioning processing. | 07-22-2010 |
20100204916 | GNSS POSITIONING USING PRESSURE SENSORS - Systems, methods and devices for improving the accuracy of GNSS data are provided. Specifically, embodiments of the invention can advantageously use sensor input to improve the accuracy of position fixes. The use of physical sensors in navigation systems is deemed particularly advantageous, especially where altitude data derived from the pressure sensor is calibrated with and/or blended with GNSS altitude data. | 08-12-2010 |
20110059752 | Concurrent Wireless Transmitter Mapping And Mobile Station Positioning - The subject matter disclosed herein relates to concurrently estimating locations for one or more mobile stations and one or more wireless transmitters. | 03-10-2011 |
20110063167 | USING MAGNETOMETER WITH A POSITIONING SYSTEM - A mobile station determines an approximate latitude using a measured feature of the Earth's magnetic field. An approximate longitude may also be determined. The mobile station uses the approximate latitude and longitude, if determined, to assist in determining a position fix for the mobile station, e.g., by determining a list of visible satellites in a satellite positioning system (SPS) during search and acquisition of satellite signals and/or using the approximate position as a seed position in the position computation. The feature of the Earth's magnetic field may be, e.g., inclination or vertical intensity, and may be determined using data from a three-dimensional magnetometer and a three-dimensional accelerometer. An instantaneous value of the magnetic field feature may be averaged to reduce the affects of motion and the presences of large metallic masses. | 03-17-2011 |
20110178708 | USING OBJECT TO ALIGN AND CALIBRATE INERTIAL NAVIGATION SYSTEM - The initialization of an inertial navigation system is performed using information obtained from an image of an object. Positional and orientational information about the object in a global reference frame and positional and orientational information about the camera relative to the object are obtained from the image. Positional and orientational information for the camera in the global reference frame is determined along with a transformation matrix between inertial sensor reference frame and a navigation coordinate frame. The inertial navigation system is initialized using the positional and orientational information for the camera, the transformation matrix and the velocity of the camera when the object was imaged, i.e., zero. Using the initialized data with measurements from the inertial sensors the position of the mobile platform may be updated during navigation and provided, e.g., on a digital map. Inertial navigation errors may be corrected using information obtained from images of different objects. | 07-21-2011 |
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 |
20120021762 | METHODS AND APPARATUSES FOR USE IN PROVIDING POSITION ASSISTANCE DATA TO MOBILE STATIONS - Methods and apparatuses are provided which may be implemented in various devices to provide position assistance data and/or the like to a mobile station with regard to at least one of a plurality of different indoor regions. | 01-26-2012 |
20120029811 | PND REPOSITIONING DETECTOR FOR BETTER NAVIGATION ACCURACY IN A CAR - An apparatus and method for a personal navigation apparatus comprising a personal navigation device (PND) for providing navigational guidance information. The PND may include a single-dimensional magnetic detector for sensing magnetic flux amplitudes of a magnetic field generated by a magnet. Alternatively, the PND may include a three-dimensional magnetic detector and a magnetic calibration module for determining an ambient magnetic field calibration value representing immediate surroundings of the PND. | 02-02-2012 |
20120176491 | CAMERA-BASED POSITION LOCATION AND NAVIGATION BASED ON IMAGE PROCESSING - An apparatus and method for estimating a position of a mobile device based on one or more images is disclosed. Positioning information is derived from an image containing an SAS (self-addressing source such as a QR code), thereby setting a first vector V | 07-12-2012 |
20120176492 | CAMERA-BASED INERTIAL SENSOR ALIGNMENT FOR PND - An apparatus and method to enhance dead-reckoning navigation using inertial sensor measurements based on images from a camera are disclosed. A camera build into a mobile device is used to calibrate inertial sensors and rotation matrices. Images from a camera may be used (1) to remove a gravitational element from accelerometer measurements; (2) to set a scaling factor and an offset for a gyrometer; and (3) to set initial and updated values for rotation matrices. | 07-12-2012 |
20120252495 | POSITIONING SYSTEM USING LIGHT INFORMATION - An apparatus and method for initiating a search mode of a mobile device based on the light information in the environment of the mobile device is described herein. The light information may include at least one of color temperature or illuminance, which may be used to determine if the environment of the mobile device is indoors or outdoors. A threshold may be predetermined or adjusted based on received position assistance information. The position assistance information may include at least one of time, day, solar angle, motion information, location information, or weather information. | 10-04-2012 |
20130127664 | SPS Authentication - Method and apparatus for SPS authentication, for example for use with GPS, are disclosed. The method may include receiving a first set of Y codes from a plurality of satellites, generating authentication decisions using W code estimates extracted from the first set of Y codes for satellite channels corresponding to the plurality of satellites, and generating an authentication response according to authentication decisions generated for the satellite channels. | 05-23-2013 |
20140335892 | METHODS AND APPARATUSES FOR USE IN PROVIDING NAVIGATION ASSISTANCE DATA TO MOBILE STATIONS - Methods and apparatuses are provided which may be implemented in various devices to provide navigation assistance data and/or the like to a mobile station with regard to at least one of a plurality of different indoor regions. For example, a computing platform of a map inference device may establish encoded metadata for at least a portion of an indoor region based, at least in part, on an electronic map, an access point locator, or some combination thereof, and provide such encoded metadata to a repository device that may provide at least a portion of the encoded metadata to a mobile station. | 11-13-2014 |
Patent application number | Description | Published |
20090033553 | GPS-BASED POSITIONING SYSTEM FOR MOBILE GPS TERMINALS - The present invention discloses a GPS system that uses call-processor intelligence to determine the mode of operation of a GPS receiver located in a GPS terminal. The modes are selected based on the availability of network facilities, the GPS information that can be acquired, or user input requirements. | 02-05-2009 |
20100079332 | ENHANCED DATABASE INFORMATION FOR URBAN NAVIGATION - Methods and apparatus are provided for estimating position location of a mobile device. | 04-01-2010 |
20100210285 | SYSTEM OF UTILIZING CELL INFORMATION TO LOCATE A WIRELESS DEVICE - A system is described that utilizes the measured characteristics of a cell site or a plurality of cell sites ( | 08-19-2010 |
20110223934 | SYSTEM OF UTILIZING CELL INFORMATION TO LOCATE A WIRELESS DEVICE - A system is described that utilizes the measured characteristics of a cell site or a plurality of cell sites ( | 09-15-2011 |
20110312336 | SATELLITE BASED POSITIONING METHOD AND SYSTEM FOR COARSE LOCATION POSITIONING - A satellite based positioning method and system including storing satellite sub-almanac data on a mobile station. Embodiments include using the sub-almanac data to take measurements and calculate a coarse position of the mobile station. Embodiments further include a location server calculating a correction to the coarse position, and the location server determining whether any sub-almanacs used to calculate the coarse position require replacement. | 12-22-2011 |
20120176525 | NON-MAP-BASED MOBILE INTERFACE - Example methods, apparatuses, or articles of manufacture are disclosed herein that may be utilized, in whole or in part, to facilitate or support one or more navigation or positioning operations or techniques using, for example, a non-map-based location or routing interface for use in or with mobile communication devices. | 07-12-2012 |
20120252425 | WIRELESS COMMUNICATION DEVICES IN WHICH OPERATING CONTEXT IS USED TO REDUCE OPERATING COST AND METHODS FOR OPERATING SAME - A mobile device has operating resources available to it. A measurement generator provides measurements of the operating resources and a context awareness engine identifies which of the operating resources may be efficiently utilized by a service application in view of context conditions in which the mobile device is operating. A selection controller selects, based on the measurements, at least one of the identified operating resources for use by the service application to improve or optimize a cost of the mobile device. | 10-04-2012 |
20130006527 | INTERFACE FOR A GPS SYSTEM - A protocol independent interface for processing, within a mobile device, protocol aiding data received at a call processor with a Global Positioning System (“GPS”) interface, where the protocol aiding data is produced according to a Geolocation Server Station protocol is disclosed. The protocol independent interface may include a means for receiving, at the GPS interface, the protocol aiding data received at the call processor, means for converting the received protocol aiding data to interface data that is transparent to the Geolocation Server Station protocol, and means for passing the interface data to a GPS module. | 01-03-2013 |
20130013187 | ENHANCED DATABASE INFORMATION FOR URBAN NAVIGATION - Methods and apparatus are provided for estimating position location of a mobile device. | 01-10-2013 |
20130065604 | METHOD FOR SEAMLESS TRANSITION FROM URBAN OUTDOOR ENVIRONMENTS TO INDOOR NAVIGATION - Techniques are disclosed for managing operation of multiple estimators in a wireless device. In at least one implementation, techniques for providing relatively seamless transition between dissimilar regions of a state space may be provided. | 03-14-2013 |
20130080204 | DYNAMIC MEETING LOCATION DETERMINATION - A method for dynamically selecting a meeting location for a plurality of meeting participants includes receiving a position of each meeting participant. The method also includes identifying one or more potential meeting location(s) based on the positions. The method further includes informing the meeting participants of the one or more potential meeting location(s). Furthermore, the method includes determining the meeting location, from the one or more potential meeting location(s), based on input from the meeting participants. | 03-28-2013 |
20130257657 | MASHUP OF AP LOCATION AND MAP INFORMATION FOR WIFI BASED INDOOR POSITIONING - An apparatus and method for merging a disjoint pair of maps comprising a digital building map that includes a floor plan and an access point (AP) map that includes identifiers for a plurality of access points is presented. In some embodiments, a first trajectory plot, of a mobile device, relative to the AP map, is received and a plurality of hypotheses is set, where each hypothesis defines a unique translation between the AP map and the building map. A plurality of costs may be computed for the first trajectory, where each cost of the first trajectory corresponds to a distinct hypothesis in the plurality of hypotheses. The hypothesis where the first trajectory has the lowest cost relative to the other hypotheses may be selected. | 10-03-2013 |
20130307723 | METHOD AND APPARATUS FOR DETERMINING LOCATIONS OF ACCESS POINTS - Methods, systems, computer-readable media, and apparatuses for determining locations of access points (AP) are presented. Techniques are described for determining relative and absolute locations of APs. In one embodiment, a device may send and receive messages to one or more APs for from various locations for determining the distance between the device and the AP. The device may additionally keep track of its own displacement for the purposes of determining the location of the one or more APs. In one embodiment, the device also determines the turnaround calibration factor (TCF) for the AP that compensates for the processing time at the AP may also be used for increasing the accuracy of the determination of the location of the AP. | 11-21-2013 |
20130336138 | LOCATION DETECTION WITHIN IDENTIFIABLE PRE-DEFINED GEOGRAPHIC AREAS - Disclosed are systems, apparatus, devices, methods, computer program products, and other implementations, including a method that includes receiving signals at a mobile device from one or more access points, computing one or more positioning quality parameters by analyzing the received signals, and determining based, at least in part, on the computed one or more positioning quality parameters whether the mobile device is inside at least one of one or more areas respectively associated with the one or more access points. | 12-19-2013 |
20130344901 | Methods and Apparatuses for Affecting A Motion Model Within a Mobile Device - Methods, apparatuses and articles of manufacture are provided which may be implemented, at least in part, in a mobile device and used to affect one or more motion models and/or the like based, at least in part, on one or more determined range rates for one or more wireless signals acquired from one or more terrestrial transmitters. Here, for example, a range rate may be determined based, at least in part, on a measured phase value and/or a measured Doppler value. | 12-26-2013 |
20140022050 | RELATIVE POSITIONING APPLICATIONS IN WIRELESS DEVICES - Techniques for determining whether a mobile device crosses a boundary defined by a first wireless access point (WAP) and a second fixed-location WAP are provided. A method according to these techniques includes receiving, at a mobile device, information defining a boundary defined by first and second fixed-location WAPs, the boundary being defined at least in part based on a ratio of a round trip time (RTT) between the mobile device and the first fixed-location WAP to a ratio of a RTT between the mobile device and the second fixed-location WAP, determining the ratio of the RTT between the mobile device and the first fixed-location WAP to a ratio of the RTT between the mobile device and the second fixed-location WAP, determining whether the mobile device has crossed the boundary, and triggering an event in response to the mobile device crossing the boundary. | 01-23-2014 |
20140022920 | Relative positioning applications in wireless devices - Techniques for determining whether a mobile device crosses a boundary defined by a first wireless access point (WAP) and a second fixed-location WAP are provided. A method according to these techniques includes receiving, at a mobile device, information defining a boundary defined by first and second fixed-location WAPs, the boundary being defined at least in part based on a ratio of a round trip time (RTT) between the mobile device and the first fixed-location WAP to a ratio of a RTT between the mobile device and the second fixed-location WAP, determining the ratio of the RTT between the mobile device and the first fixed-location WAP to a ratio of the RTT between the mobile device and the second fixed-location WAP, determining whether the mobile device has crossed the boundary, and triggering an event in response to the mobile device crossing the boundary. | 01-23-2014 |
20140051460 | POSITIONING USING OBSERVER-BASED TIME-OF-ARRIVAL MEASUREMENTS - A method of determining a position of a target device includes: sending a first measurement signal from a first known-position device; receiving the first measurement signal at a second known-position device; receiving a first acknowledgement signal from the target device at the first known-position device and at the second known-position device; determining the position of the target device using first timing information associated with the first measurement signal and the first acknowledgement signal, a first position of the first known-position device, and a second position of the second known-position device. | 02-20-2014 |
20140067253 | ENHANCED DATABASE INFORMATION FOR URBAN NAVIGATION - Techniques are provided which may be implemented in an electronic device to establish certain enhanced database information for point locations which may correspond to an estimated location of a mobile device. For example, some enhanced database information may be based, at least in part, on a satellite signal visibility mask. All or part of such enhanced database information may be provided to one or more mobile devices, which may use the enhanced database, at least in part, for location estimation. | 03-06-2014 |
20140087751 | CYCLIC SHIFT DELAY DETECTION USING SIGNALING - Systems, apparatus and methods for determining a cyclic shift diversity (CSD) mode are presented. Examples communicate the CSD mode in a signaling message. Specifically, a CSD mode is set in an access point the sent to a mobile device. The signaling messages may be either a point-to-point message or a broadcast message. The access point or location server may set the current CSD mode from a plurality of mobile devices by crowd sourcing. For example, the plurality of mobile devices may report what CSD mode was detected. Alternative, the plurality of mobile devices may send a channel impulse response (CIR), or the like, to a location server and the location server may determine what CSD mode is currently used by the access point. | 03-27-2014 |
20140107919 | PREDICTIVE SCHEDULING OF NAVIGATION TASKS - Disclosed are systems, apparatus, devices, methods, computer program products, and other implementations, including a method of controlling navigation tasks on a mobile device that includes obtaining data representative of a route of travel for the mobile device, obtaining a list of navigation tasks associated with the route of travel for the mobile device, and performing one or more navigation tasks in accordance with the list of navigation tasks based, at least in part, on proximity of the mobile device to one or more points on the route of travel. Performing the one or more navigation tasks includes one or more of, for example, obtaining satellite positioning assistance data in response to a determination that the mobile device is transitioning from an indoor area to an outdoor area, and/or establishing a communication link with an access point. | 04-17-2014 |
20140112375 | Indoor radio ranging based on a subset of subcarriers employed by orthogonal frequency division multiplexing (OFDM) - Systems, apparatus and methods for determining a set of ranges from selected subcarriers of an OFDM signal sent between a receiver (e.g., first transceiver or a local receiver of a local unit at a first location) and a transmitter (e.g., second transceiver or remote transmitter of a remote unit at a second location) are presented. The set of ranges is ambiguous as to the correct range. Each range in this set of ambiguous ranges represents a possible range between the transmitter and the receiver. Range ambiguities may be resolved by using additional subcarriers from the OFDM signal and/or using a last know position of a receiver and/or finding ranges to two, three or more transmitters. The range may be used with other ranges to find a location estimate of the receiver. | 04-24-2014 |
20140153420 | CYCLIC SHIFT DELAY DETECTION USING A CLASSIFIER - Systems, apparatus and methods for determining a cyclic shift delay (CSD) mode from a plurality of CSD modes is disclosed. A received OFDM signal is converted to a channel impulse response (CIR) signal in the time domain and/or a channel frequency response (CFR) signal in the frequency domain. Matched filters and a comparator are used to determine a most likely current CSD mode. Alternatively, a classifier is used with a number of inputs including outputs from two or more matched filters and one or more outputs from a feature extractor. The feature extractor extracts features in the time domain from the CIR signal and/or in the frequency domain from the CFR signal useful in distinguishing various CSD modes. | 06-05-2014 |
20140185520 | PROCESSING DELAY ESTIMATE BASED ON CROWDSOURCING DATA - Techniques are provided for providing a processing delay estimate of an access point, or turnaround calibration function (TCF), associated with round trip time (RTT) measurements. Mobile devices, access points, and/or other systems can utilize these techniques to derive processing delay from the RTT measurements. Crowdsourcing can also be used to help increase the accuracy of the processing delay estimate, which can be propagated to multiple devices. | 07-03-2014 |
20140194145 | Method, System and/or Device for Adjusting Expected Received Signal Strength Signature Values - Disclosed are systems, methods and devices for application of determining position information for mobile devices. In specific implementations, measurement of a signal travel time and a signal's strength may be combined to characterize a transmission power of the signal's transmitter. The characterized transmission power may be applied to affect expected signal strength signature values for use of the signal's transmitter may be updated in order to enhance a location based service where location may be effected by accuracy of a transmitter's power. | 07-10-2014 |
20140200037 | REGION DETERMINATION CONTROL - A method, in a mobile device, of controlling region determination by the mobile device, includes: determining a present pressure at the mobile device; determining, based on the present pressure and a reference pressure, that the mobile device moved from a first region to a second region within a structure, the first region and the second region being different regions of the structure and vertically displaced from each other; and performing region determination in response to determining that the mobile device moved from the first region to the second region. | 07-17-2014 |
20140200846 | ACCESS NETWORK NODE BASED BAROMETRIC REFERENCE PRESSURE NETWORK - Systems, apparatus and methods for populating and using a pressure database to determine an altitude of a unit with an unknown altitude are presented. A pressure from one or more barometric pressure sensors linked to respective base stations are interpolated to determine a reference pressure (e.g., at sea level) at arbitrary coordinates (x,y) having pressure reading. For example, a mobile station at the arbitrary coordinates (x,y) records a pressure at the mobile station. A difference between this pressure at the mobile station and the interpolated reference pressure is determined, which may directly be interpreted as a defined altitude of the mobile station. | 07-17-2014 |
20140235264 | MODIFYING NAVIGATION ASSISTANCE PARAMETERS OF A MOBILE-BASED POSITIONING CAPABILITY BASED ON OBSERVATIONS GATHERED BY A NETWORK-BASED POSITIONING CAPABILITY - Various methods, apparatuses and/or articles of manufacture are provided which may be implemented to obtain navigation assistance parameters (NAP) for a mobile device for use by the mobile device in estimating its movement and/or position within a particular environment based, at least in part, on wireless signal(s) acquired by the mobile device as part of a mobile-based positioning (MBP) capability, and modifying the NAP based, at least in part, on observations of movements and/or positions of a plurality of mobile devices within the particular environment gathered by a network-based positioning (NBP) capability. Various methods, apparatuses and/or articles of manufacture are provided which may be implemented to obtain and provide at least a portion of such modified NAP to a positioning capability of the mobile device for use in estimating a position and/or a movement of the mobile device. | 08-21-2014 |
20140308973 | VARYING PROCESSES TO CONTROL TRANSMISSION CHARACTERISTICS FOR POSITION DETERMINATION OPERATIONS - Disclosed are systems, apparatus, devices, methods, media, products, and other implementations, including a method that includes controllably modifying, at a first wireless device, an original unmodified value of at least one PHY-layer signal parameter, such as amplitude, frequency, timestamp, gain, signal equalization, and/or any combination thereof, of a signal according to at least one pre-determined varying signal modification process. The method further includes transmitting to a second wireless device the signal with the controllably modified value of the at least one PHY-layer signal parameter, with the transmitted signal configured to facilitate position determination of the second wireless device when the original unmodified value of the at least one PHY-layer signal parameter is determined at the second wireless device from the controllably modified value of the at least one PHY-layer signal parameter. | 10-16-2014 |
20140308976 | VARYING PROCESSES TO CONTROL TRANSMISSION CHARACTERISTICS FOR POSITION DETERMINATION OPERATIONS - Disclosed are systems, apparatus, devices, methods, media, products, and other implementations, including a method that includes determining, at a first wireless device comprising multiple transmit antennas, at least one signal transmission characteristic according to at least one pre-determined varying transmission characteristic determination process. The at least one transmission characteristic includes, for example, a transmit antenna selected from the multiple transmit antennas, a beam characteristic, a cyclic delay diversity parameter, and/or any combination thereof. The method also includes transmitting from the first wireless device to a second wireless device a signal using the at least one signal transmission characteristic determined according to the at least one pre-determined varying transmission characteristic determination process. The transmitted signal is configured to facilitate position determination of the second wireless device upon deriving at the second wireless device a reconstructed value of the at least one signal transmission characteristic determined at the first wireless device. | 10-16-2014 |
20140379248 | NON-MAP-BASED MOBILE INTERFACE - Example methods, apparatuses, or articles of manufacture are disclosed herein that may be utilized, in whole or in part, to facilitate or support one or more navigation or positioning operations or techniques using, for example, a non-map-based location or routing interface for use in or with mobile communication devices. | 12-25-2014 |
20150032370 | ENHANCED DATABASE INFORMATION FOR URBAN NAVIGATION - Methods and apparatus are provided for estimating position location of a mobile device. | 01-29-2015 |
20150081239 | METHOD, SYSTEMS AND/OR DEVICE FOR ADJUSTING EXPECTED RECEIVED SIGNAL STRENGTH SIGNATURE VALUES - Disclosed are systems, methods and devices for application of determining position information for mobile devices. In specific implementations, measurement of a signal travel time and a signal's strength may be combined to characterize a transmission power of the signal's transmitter. The characterized transmission power may be applied to affect expected signal strength signature values for use of the signal's transmitter may be updated in order to enhance a location based service where location may be effected by accuracy of a transmitter's power. | 03-19-2015 |