Class / Patent application number | Description | Number of patent applications / Date published |
342357420 | Providing aiding data (IPC) | 82 |
20100194638 | GNSS RECEIVER WITH WIRELESS INTERFACE - A wireless GNSS receiver, for example a Bluetooth® receiver, including a bidirectional link to the host, and an update client, for downloading extended ephemeris data from the host, by the Bluetooth® link. The invention reuses the protocol used for NMEA data transfer, in order to send the extended ephemeris data up to the receiver. Hence, the extended ephemeris data can be sent without having to instantiate any other type of connection to the receiver. The invention reduces the cost and complexity of BT-GPS receivers that want to make use of extended ephemeris technology in order to reduce the time to first fix of GPS receivers left off for more than four hours. | 08-05-2010 |
20100201569 | SYSTEM AND METHOD FOR DETECTING LOCATION USING DATA COMMUNICATION NETWORK - The present invention provides a global navigation satellite system (GNSS) based positioning system and tracking method using a data communication network. When a GNSS-based positioning device is connected to a data communication network, the positioning device transfers the GNSS digital data and supplementary information used for additional performance improvement to a location tracking server through the data communication network, the location tracking server calculates a position of the positioning device with improved receiver sensitivity based on plentiful computational resources available at the location tracking server. Thus, the positioning device may find its location of even in very poor signal condition. Further, the present invention provides a positioning system and method using a data communication network, which may achieve time synchronization when there is a need to extract not only position information but also absolute timing information. | 08-12-2010 |
20100231446 | PROCESSING OF SATELLITE POSITIONING SYSTEM SIGNALS - The invention provides a method of processing signals from a satellite positioning system in which a user inputs an approximate indication of current position, and this is used when processing satellite samples to reduce the processing required or increase the reliability. This approach avoids the need for an automated approximate location system (for example using cellular telephony). This represents a change in the way GPS (or other satellite systems) is used. Instead of relying on a GPS system to provide a location in entirely automated manner, the approach is for the user to give an approximate location (which will generally be known), and for the GPS system then to correct this and provide an accurate location. This approach can enable the GPS system to function in areas where it would normally be unreliable. | 09-16-2010 |
20100253577 | Position measuring method and mobile communication terminal - A mobile communication terminal | 10-07-2010 |
20100259444 | METHOD AND SYSTEM FOR DYNAMIC WIRELESS NODE CAPTURE FOR A LBS SERVER, CLIENT, AND REFERENCE DATABASE - A GNSS capable LBS client device sends a device RF environment report to a location server and subsequently receives a capture profile from the location server. A new RF environment report is generated according to the received capture profile. The device RF environment report comprises various encountered RF information, for example, state of radios, state of power and/or memory resource, and/or positioning variables. The received capture profile comprises information of a desired RF environment report expected from the GNSS capable LBS client device. The capture profile is determined according to the received RF environment report and a reference database. Desired RF environment data are captured according to the received capture profile, and time and location stamped to generate the new device RF environment report, which is sent to the location server to update the reference database to enhance locating the GNSS capable LBS client device when need. | 10-14-2010 |
20100289694 | MOBILE COMMUNICATION TERMINAL AND GPS POSITIONING METHOD - An object is to enhance certainty of a positioning process in a mobile communication terminal even with a large error of approximate location information. A mobile communication terminal | 11-18-2010 |
20100302098 | System and Method for A-GPS Positioning of a Mobile Device - A system and method for estimating the position of a mobile device using information from a constellation of satellites. A first set of satellites of the constellation may be selected and then a second set of satellites of the constellation may be selected as a function of signals received from the first set of satellites. Data may be transmitted to the mobile device based on signals received from the second set of satellites, and a location of the device estimated based on the data. One embodiment may select the second set as a function of an intersection of coverage areas of ones of the first set of satellites. Another embodiment may select the second set as a function of one or more satellites that are not occluded by the Earth from one or more of the first set of satellites. | 12-02-2010 |
20100328148 | Method and System for Providing Assistance Data for A-GPS Location of Handsets in Wireless Networks - A system and method for determining the location of a wireless device. A boundary for an approximate area in which the wireless device is located is determined and a plurality of satellites may be determined as a function of the boundary. Assistance data is transmitted to the device which includes information from the plurality of satellites, and the location of the wireless device may be determined from the information. In one embodiment, if the number of the plurality of satellites is greater than a predetermined threshold then the number of satellites may be reduced as a function of one or more of the elevation of each satellite above the horizon, a distance between each satellite to one or more other satellites, and an altitude of each satellite. | 12-30-2010 |
20110068976 | METHOD AND APPARATUS FOR ACCELERATING THE PROCESS OF DETERMINING A GEOGRAPHIC POSITION - Methods and apparatus are provided for accelerating the process of determining a geographic position. The method includes, but is not limited to activating a satellite navigation device that is configured to receive a satellite communication signal and to receive a wireless communication signal. The method also includes receiving the wireless communication signal from a local portable wireless device using the satellite navigation device. The wireless communication signal contains satellite related data. The method also includes calculating, with the satellite navigation device, the geographic position of the satellite navigation device using the satellite related data received from the portable wireless device. | 03-24-2011 |
20110090115 | METHODS AND APPARATUSES FOR RESPONDING TO A REQUEST FOR SATELLITE POSITIONING SYSTEM RELATED INFORMATION ASSOCIATED WITH A MOBILE STATION - Methods and apparatuses are provided which may be enabled within and/or for use with a Satellite Positioning System (SPS) receiver and/or other like apparatuses or device(s) to perform and/or otherwise support certain location sessions. | 04-21-2011 |
20110140960 | Preference Lists For Assistance Data Requests in Global Navigation Satellite Systems - Methods and devices may request and provide assistance data from an assistance server to a receiver in a global navigation satellite system. A request for assistance data may include a preference list of navigation models suitable for the requesting receiver. Multiple preference lists for different navigation model types (e.g., orbit model, clock model, almanac model) may be included in a single list and/or data structure, or as multiple lists and/or data structures. An assistance server may receive and process the preference list, for example, by parsing and traversing the ordered list(s) for different navigation model types, in order to provide satellite navigation data to the receiver in accordance with suitable navigation models that are available at both the receiver and the assistance server. | 06-16-2011 |
20110140961 | Mobile phone cradle with GPS and Bluetooth functionality - A method of providing Global Positioning System (GPS) signals received by a cradle to a portable electronic device installed in the cradle includes mounting the portable electronic device in the cradle for establishing electrical connection between a first connector of the cradle and a second connector of the portable electronic device, receiving GPS signals through a GPS receiver of the cradle, converting the received GPS signals into GPS data signals, transmitting the GPS data signals from the cradle to the portable electronic device via the first and second connectors, and the portable electronic device using the GPS data signals for aiding the portable electronic device in determining current position coordinates of the portable electronic device. | 06-16-2011 |
20110163914 | GPS WITH AIDING FROM AD-HOC PEER-TO-PEER BLUETOOTH NETWORKS - The present invention is related to location positioning systems, and more particularly, to a method and apparatus for providing an update of ephemeris information. According to one aspect, GPS enabled devices in the signal unavailable area monitors the state of its ephemeris data and time information. When the ephemeris data and time information become out of date, the GPS enable device uses an ad hoc Bluetooth network to retrieve ephemeris data and time information from another GPS enabled device with more current data. According to further aspects, a map of a deep hole region in which GPS and other cellular signals are not available, is generated to enable power reduction and cost saving measures. | 07-07-2011 |
20110169691 | DETECTING AND COMPENSATING FOR ERRONEOUS TIME MEASUREMENT FOR MOBILE DEVICE POSITION CALCULATION - A method implemented by an assisted Global Navigation Satellite System (GNSS) server determines a position of a GNSS receiver. The method includes sending a request for measurement information to the GNSS receiver at a first time and receiving the measurement information from the GNSS receiver in response to the request at a second time, where the measurement information includes position measurement data and a corresponding measured time based on satellite signals received by the GNSS receiver. The measured time is determined to be erroneous when it is outside an accurate time range determined based on at least one of the first time and the second time. A substitute time is identified and the position of the GNSS receiver is determined based on the substitute time when the measured time is erroneous. | 07-14-2011 |
20110187592 | Satellite based position of a cellular terminal - At least one set of values of parameters is determined, each set of values defining a respective troposphere model. The at least one determined set of parameter values is then assembled for transmission via a wireless communication network to a wireless terminal as assistance data for an assisted satellite based positioning of the wireless terminal. | 08-04-2011 |
20110187593 | Global Navigation Satellite System - Each of a first and a second navigation satellite system (NSS) are adapted to operate according to a first and a second specification, respectively, and each includes a first and a second plurality of satellite vehicles (SVs), respectively. Each of the first and the second plurality of SVs are adapted to be identified by a first and a second plurality of unique corresponding identifications (IDs), respectively. A processor is adapted to receive and identify a first plurality of corresponding signals transmitted from the first plurality of SVs in response to the first plurality of unique corresponding IDs. The processor is adapted, to receive and identify a second plurality of corresponding signals transmitted from the second plurality of SVs in response to the second plurality of unique corresponding IDs. The processor is adapted to determine position location information in response to receiving and identifying the first plurality of corresponding signals and the second plurality of corresponding signals. | 08-04-2011 |
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 |
20110234456 | LONG TERM COMPACT SATELLITE MODELS - An improved network enabled extended ephemeris navigation system includes a network server able to collect ephemeris, clock, and almanac information from orbiting GPS satellites, and to use that information to build up extended ephemeris predictions that will be valid and useful for at least a week. A mobile client is able to request and use the extended ephemeris predictions to search for and track orbiting GPS satellites visible to it. The improvement is characterized by a satellite position and clock compact model construction and database unit that constructs a compact short-term satellite model to be sent first in response to a request for extended ephemeris predictions from the mobile client, and that constructs several consecutive long-term satellite models each representing a unique portion of a day in at least a seven day series. | 09-29-2011 |
20110248887 | GEOLOCATION LEVERAGING SPOT BEAM OVERLAP - A method and system are disclosed for providing an estimate of a location of a user receiver device. The method and system involve emitting from at least one vehicle at least one spot beam on Earth, and receiving with the user receiver device a signal from at least one spot beam. In one or more embodiments, at least one vehicle may be a satellite and/or a pseudolite. The method and system further involve calculating with the user receiver device the estimate of the location of the user receiver device according to the user receiver device's location within at least one spot beam. In some embodiments, when the user receiver device receives signals from at least two spot beams, the user receiver device calculates the estimate of the location of the user receiver device to be located in the center of the intersection of at least two spot beams. | 10-13-2011 |
20110291885 | ALMANAC MAINTENANCE FOR MOBILE STATION POSITIONING - An almanac data management system at a location remote from a cell phone ( | 12-01-2011 |
20120001797 | GNSS RECEPTION USING DISTRIBUTED TIME SYNCHRONIZATION - A GNSS receiver communicates with any connectivity device, such as a WiFi device that is, in turn, in communication with a wired network having access to the DTI timing. Such connectivity devices may set their timing and frame synchronization to the DTI and thus serve as Geopositiong beacons, thereby enabling the GNSS receiver to accurately determine its position. The GNSS receiver may also use the DTI timing supplied by such a network to perform relatively long integration time so as to achieve substantially improved sensitivity that is necessary for indoor Geopositioning applications. Furthermore, the GNSS data, such as satellite orbital information, may also be propagated by such devices at high speed. By providing this data to the GNSS receivers via such connectivity devices in a rapid fashion, the GNSS receivers are enabled to receive the transmitted data associated with the satellite without waiting for the GNSS transmission from the satellites. | 01-05-2012 |
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 |
20120044107 | APPARATUS FOR PERFORMING GLOBAL NAVIGATION SATELLITE SYSTEM CONTROL, AND ASSOCIATED METHODS AND STORAGE MEDIA - An apparatus for performing Global Navigation Satellite System (GNSS) control includes: a GNSS receiver arranged to obtain/calculate at least one position of the apparatus; and an assistance data provider implemented within the apparatus, wherein the assistance data provider is arranged to provide the GNSS receiver with assistance data for use of obtaining/calculating the at least one position, and the assistance data provider selectively selects a specific assistance mode from a plurality of assistance modes for the GNSS receiver according to at least one predefined rule, with the assistance data corresponding to the specific assistance mode. Associated methods and storage media are also provided. | 02-23-2012 |
20120056781 | APPARATUS AND METHOD FOR ULTRA-FAST GNSS INITIAL POSITIONING SCHEME WITH PEER ASSISTANCE, AND RECORDING MEDIUM THEREOF - A method and an apparatus for acquiring an ultra-fast global navigation satellite systems (GNSS) initial position with peer assistance are disclosed. The apparatus includes a communication unit configured to receive assistance generated using a distance from a master terminal to a slave terminal and frequency error of a counterpart's terminal, a communication signal system configured to immediately receive immediately necessary information of the assistance, a Global Positioning System (GPS) receiver configured to rapidly search for a GPS satellite signal using the assistance and continuously track the GPS satellite signal so as to extract a pseudorange, and a computation processor configured to compute the position of the slave terminal using the assistance and the pseudorange. By this configuration, it is possible to perform fast initial position measurement as compared to the existing A-GPS technique, achieve direct communication between two GPS receivers regardless of presence/absence of a mobile communication network, and solve various limitations of the A-GPS technique. | 03-08-2012 |
20120075140 | Method and System for a Virtual Wide Area GNSS Reference Network - A GNSS enabled mobile device receives GNSS assistance data in a determined format from a central processing station communicatively coupled to a wide area reference network (WARN). The WARN comprises a first plurality of GNSS tracking stations from which usable signals are received by the central processing station, and a second plurality of GNSS tracking stations from which unusable or no signals are received by the central processing station. The central processing station generates the GNSS assistance data using a complete set of GNSS reference feeds of the WARN. The complete set of GNSS reference feeds comprises actual GNSS reference feeds from the first plurality of GNSS tracking stations and virtual GNSS reference feeds derived for the second plurality of GNSS tracking stations from processed actual GNSS reference feeds. The generated GNSS assistance data is reformatted into a determined format and is communicated to the GNSS enabled mobile device, accordingly. | 03-29-2012 |
20120075141 | Method and System for a Location-Based Broker Service (LBS) Client Broker - A GNSS enabled handset receives signals from different resources comprising GNSS satellites and/or from a wireless network. The GNSS enabled handset acquires location information comprising various positioning resource data comprising GPS data and/or WiFi data from the received signals. The GNSS enabled handset calculates a plurality of possible position fixes based on the acquired location information using various positioning approaches. A current position fix associated with the GNSS enabled handset is determined based on the plurality of calculated possible position fixes via running a location-based service (LBS) client on the GNSS enabled handset. The LBS client determines the plurality of possible position fixes using various positioning approaches in a particular or determined order. Confidence levels for each of the calculated plurality of possible positions are determined and used to refine the current position fix. The refined current position fix is used for a location-based service from a LBS application server. | 03-29-2012 |
20120127031 | AUTONOMOUS ORBIT PROPAGATION SYSTEM AND METHOD - A method of predicting a location of a satellite is provided wherein the GPS device, based on previously received information about the position of a satellite, such as an ephemeris, generates a correction acceleration of the satellite that can be used to predict the position of the satellite outside of the time frame in which the previously received information was valid. The calculations can be performed entirely on the GPS device, and do not require assistance from a server. However, if assistance from a server is available to the GPS device, the assistance information can be used to increase the accuracy of the predicted position. | 05-24-2012 |
20120146850 | Low-Energy GPS - This document describes various techniques for implementing low-energy GPS on a mobile device. A GPS module is activated, a sub-millisecond pseudo-range estimate is received from the GPS module, the GPS module is deactivated, the sub-millisecond pseudo-range estimate and a time stamp are transmitted to a remote entity, and location information based on the sub-millisecond pseudo-range estimate and time stamp is received from the remote entity. | 06-14-2012 |
20120162007 | GNSS Signal Processing to Estimate Phase-Leveled Clocks - Methods and apparatus are described for processing a set of GNSS signal data derived from code observations and carrier-phase observations at multiple receivers of GNSS signals of multiple satellites over multiple epochs, the GNSS signals having at least two carrier frequencies and a navigation message containing orbit information, comprising: obtaining precise orbit information for each satellite, determining at least one set of ambiguities per receiver, each ambiguity corresponding to one of a receiver-satellite link and a satellite-receiver-satellite link, and using at least the precise orbit information, the ambiguities and the GNSS signal data to estimate a phase-leveled clock per satellite. | 06-28-2012 |
20120169534 | OPTIMIZING PERFORMANCE OF MULTIPLE LOCATION BASED SERVICE APPLICATIONS THAT ARE RUNNING EITHER ALONE OR SIMULTANEOUSLY ON A WIRELESS DEVICE - Requests for location fix for a mobile device, received from one or more Location Based Service (LBS) applications are queued in a queue in the mobile device. Based on information in a first queued request, the mobile device runs a location engine in a first fix mode to obtain a location fix for the mobile device, for a response to the first request. While the location engine is running to obtain the fix for the response to the first request, the mobile device analyzes information in a second queued request, to determine a second fix mode for response to the second request. Based on a comparison of the first and second fix modes, the mobile device may change the information in the second request to correspond to the first fix mode, before output of the second request from the queue to the location engine. | 07-05-2012 |
20120229334 | FINE TIME ASSISTANCE FOR GLOBAL NAVIGATION SATELLITE SYSTEMS - Apparatus and method for providing fine timing assistance to global navigation satellite systems (GNSS) via wireless local area network (WLAN). In one embodiment, a method for synchronizing a global navigation satellite system (GNSS) receiver includes receiving, by a wireless device, via a wireless local area network (WLAN), fine time assistance information transmitted by an assisting device connected to the WLAN. A time value of a GNSS clock of the wireless device is adjusted based on the fine time assistance information. Based on the adjusted time value, GNSS codes of a GNSS positioning signal are acquired by the wireless device. | 09-13-2012 |
20120229335 | Method and Apparatus for Enhanced Autonomous GPS - Method and apparatus for locating position of a remote receiver is described. In one example, long term satellite tracking data is obtained at a remote receiver. Satellite positioning system (SPS) satellites are detected. Pseudoranges are determined from the remote receiver to the detected SPS satellites. Position of the remote receiver is computed using the pseudoranges and the long term satellite tracking data. SPS satellites may be detected using at least one of acquisition assistance data computed using a previously computed position and a blind search. Use of long term satellite tracking data obviates the need for the remote receiver to decode ephemeris from the satellites. In addition, position of the remote receiver is computed without obtaining an initial position estimate from a server or network. | 09-13-2012 |
20120256790 | SYSTEM AND METHOD FOR MANAGING EPHEMERIS REQUESTS FROM CLIENT DEVICES - A system and method for reducing peak loads on a network, includes: a server in communication with a plurality of GPS receivers, the receivers sending requests for an ephemeris to the server when a time of ephemeris (TOE) for a previous ephemeris expires; and the ephemeris received by the receivers being adjusted by the addition of a value to the TOE of the ephemeris, the value being randomly adjusted to a 16 second interval between 16 seconds and 30 minutes. | 10-11-2012 |
20120262335 | Network coverage and demand maps - Disclosed is an apparatus and method for pairing measurements and position estimate as an information pair from multiple mobile devices and reporting these information pairs to a server without over burdening the mobile device and without requiring the mobile devices to establish a new link. Also, disclosed is an apparatus and method for collecting these information pairs and compiling network maps based on the information pairs. | 10-18-2012 |
20130009813 | Method and System for a Virtual Wide Area GNSS Reference Network - A GNSS enabled mobile device receives GNSS assistance data in a determined format from a central processing station communicatively coupled to a wide area reference network (WARN). The WARN comprises a first plurality of GNSS tracking stations from which usable signals are received by the central processing station, and a second plurality of GNSS tracking stations from which unusable or no signals are received by the central processing station. The central processing station generates the GNSS assistance data using a complete set of GNSS reference feeds of the WARN. The complete set of GNSS reference feeds comprises actual GNSS reference feeds from the first plurality of GNSS tracking stations and virtual GNSS reference feeds derived for the second plurality of GNSS tracking stations from processed actual GNSS reference feeds. The generated GNSS assistance data is reformatted into a determined format and is communicated to the GNSS enabled mobile device, accordingly. | 01-10-2013 |
20130033398 | COMBINED USE OF DIFFERENT SATELLITE NAVIGATION SYSTEMS - Method, arrangement and system for improving a combined use of a plurality of different satellite navigation systems, in which each of the plurality of different satellite navigation systems includes a constellation of at least one satellite. The method includes broadcasting from each satellite of the constellation of a first satellite navigation system the clock models for all satellites of the constellation of a second satellite navigation system. | 02-07-2013 |
20130088384 | Portable Communication Terminals and Methods for Cooperative Positioning Support During Poor Satellite Coverage - In one or more embodiments described herein, there is provided an apparatus including a memory having computer code stored thereon, and a processor. The code is configured to cause the apparatus to: receive partial GNSS data from one or more GNSS satellites relating to the geographical location of a first portable electronic device, wherein the received partial GNSS data is insufficient for determining the geographical location of the first portable electronic device; communicate with one or more further portable electronic devices in proximity to the first portable electronic device to access partial GNSS data relating to the geographical location of the respective further portable electronic devices; and use the accessed partial GNSS data of the further portable electronic devices to supplement the received partial GNSS data of the first portable electronic device to thereby determine the geographical location of the first device. | 04-11-2013 |
20130099965 | Satellite Based Positioning - The invention relates to a positioning of an assembly | 04-25-2013 |
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 |
20130135147 | SYSTEMS AND METHODS FOR IP AND VOIP DEVICE LOCATION DETERMINATION - A method and system for precise position determination of general Internet Protocol (IP) network-connected devices. A method enables use of remote intelligence located at strategic network points to distribute relevant assistance data to IP devices with embedded receivers. Assistance is tailored to provide physical timing, frequency and real time signal status data using general broadband communication protocols. Relevant assistance data enables several complementary forms of signal processing gain critical to acquire and measure weakened or distorted in-building Global Navigation Satellite Services (GNSS) signals and to ultimately extract corresponding pseudo-range time components. A method to assemble sets of GNSS measurements that are observed over long periods of time while using standard satellite navigation methods, and once compiled, convert using standard methods each pseudo-range into usable path distances used to calculate a precise geographic position to a known degree of accuracy. | 05-30-2013 |
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 |
20130328717 | ENHANCED LOCATION BASED SERVICES - A device management system is comprised of a server-side proxy component and at least one back-end computer. The server-side proxy component is configured to receive ephermis and almanac data from a source and information from at least one client describing the geographic location of the client. The server-side proxy component is configured to send the ephermis and almanac data and the information from the client to a back-end computer to the back-end computer. Responsive to receiving this data and information, the computer compiles it into GPS data relevant to the location of the client. | 12-12-2013 |
20130328718 | SINGLE RECEIVER GPS POINTING VECTOR SENSING - A system and method of determining a pointing vector using two GPS antennas and a single GPS receiver is disclosed. Two stationary GPS antennas, with a separation preferably less than half of a wavelength (˜100 mm) may use a single receiver to determine the pointing vector of the system. Incorporation of a three axis angular rate measurement allows pointing determination during system rotation. Incorporation of three axis gyroscope system allows pointing determination while in motion. The system provides the ability to sense multipath and jamming. Also the system can potentially eliminate the impact and certainly alert the user that the measurement may not be reliable. | 12-12-2013 |
20130342396 | Selection of a Subset of Global Navigation Satellite System Measurements Based on Prediction of Accuracy of Target Parameters - An optimum measurement subset with a specified number n of elements is generated from a set of N>n weighted input global navigation satellite system (GNSS) measurements. A group of trial measurement subsets is generated by removing a different individual weighted input GNSS measurement from the set. A value of accuracy criterion for a target parameter is calculated for each trial measurement subset, and the trial measurement subset with the minimum value of accuracy criterion is selected. A new group of trial measurement subsets is generated by removing a different individual weighted GNSS measurement from the previously selected trial measurement subset. A value of accuracy criterion is calculated for each new trial measurement subset, and a new trial measurement subset with the new minimum value of accuracy criterion is selected. The process is repeated until the selected trial measurement subset has the specified number n of elements. | 12-26-2013 |
20140085140 | SYNCHRONIZATION INDICATION IN NETWORKS - Systems and methods provide a network's synchronization status to a terminal when the terminal receives a transmission from the network. This network synchronization status can be indicated in accordance with various methods including, but not limited to the following: with a status flag in a network message; in a network capability indication; in a network's positioning capability indication; cell/network time relation information; in a time relation information of different Radio Access Technologies; and implicitly with another parameter and/or by a request for a certain measurement. When the network's synchronization status is determined, accurate time information/time assistance data can be maintained at the terminal. | 03-27-2014 |
20140104102 | SPACE BASED AUTHENTICATION UTILIZING SIGNALS FROM LOW AND MEDIUM EARTH ORBIT - A system and methods for location-based authentication using medium earth orbit (MEO) and low earth orbit (LEO) satellites are presented. Location of a client device is authenticated based on at least one client received MEO satellite signal received from at least one MEO satellite at the client device and at least one client received LEO satellite signal received from at least one LEO satellite at the client device. | 04-17-2014 |
20140111375 | GNSS FINE-TIME ASSISTANCE OVER RTT-CAPABLE WIRELESS NETWORKS - Systems and methods of providing fine-time assistance (FTA) for a mobile device are described herein. A GNSS time is received from a GNSS satellite at a GNSS receiver. The GNSS time is then transferred to an access point (AP) over a wired network. The AP is coupled to the mobile device over a wireless local area network (WLAN). A round trip time (RTT) between the AP and the mobile device over the WLAN is determined, for example by exchanging one or more communications between the mobile device and the AP over the wireless local area network (WLAN). The GNSS time is then transferred from the AP to the mobile device over the WLAN. A FTA based GNSS time is calculated at the mobile device based on the GNSS time received from the AP and the RTT. | 04-24-2014 |
20140145877 | METHOD OF GEO LOCALIZATION OF A TERMINAL SENDING A SINGLE SIGNAL TO A SATELLITE SYSTEM - A method for localizing a terminal includes transmitting the signal by the terminal; receiving the signal by a first and a second satellite; transmitting the signal from each satellite to a receiving station; demodulating the signal received by the first satellite to determine a signal content and the time of arrival of the signal transmitted by the terminal at the receiving station via the first satellite; determining the time of arrival of the signal transmitted by the terminal at the receiving station via the first and second satellite; determining a position for the terminal by triangulation. | 05-29-2014 |
20140184442 | GNSS RECEIVER POSITIONING SYSTEM - A method of extracting pseudorange information using a cellular device. A Global Navigation Satellite System (GNSS) chipset which is physically remote from a cellular device is accessed which provides raw GNSS observables information based upon signals received from a circularly polarized GNSS antenna. The raw GNSS observables information is wirelessly transmitted from the GNSS chipset to the cellular device. The raw GNSS observables information is extracted by a processor of the cellular device. The raw GNSS observables information, in addition to GNSS corrections from at least one correction source, is used by the processor to determine a position of the circularly polarized GNSS antenna. | 07-03-2014 |
20140240170 | POSITION DETERMINATION OF A CELLULAR DEVICE USING CARRIER PHASE SMOOTHING - A Global Navigation Satellite System (GNSS) chipset embedded within the cellular device is accessed. The GNSS chipset calculates raw observables that include raw pseudoranges and carrier phase information. The raw observables are extracted from the GNSS chipset for processing elsewhere in the cellular device outside of the GNSS chipset. Smoothed pseudoranges are provided by smoothing the raw pseudoranges based on the carrier phase information. The accessing, the extracting and the providing are performed by one or more hardware processors located in the cellular device and outside of the GNSS chipset. | 08-28-2014 |
20140253372 | SYSTEM AND METHOD FOR TESTING REAL WORLD A-GNSS PERFORMANCE OF A DEVICE - The technology disclosed relates to implementing a novel-testing framework that combines playback of captured GNSS signals with real-time emulation of assisted global navigation satellite system telemetry (abbreviated A-GNSS) in a test session with a mobile device. In particular, it can be used for testing A-GNSS performance of communication devices, navigation systems, telematics and tracking applications. | 09-11-2014 |
20140253373 | SYNCHRONOUS NETWORK DEVICE TIME TRANSFER FOR LOCATION DETERMINATION - Examples disclosed herein relate to a method performed at a first mobile station that includes receiving a request for positioning assistance data from a second mobile station over a communication link; and transmitting one or more messages to the second mobile station in response to the request, wherein the one or more messages include the requested positioning assistance data, wherein the first mobile station is on a synchronous network. | 09-11-2014 |
20140253374 | ENHANCED DELIVERY OF GNSS CORRECTION DATA THROUGH RESTRICTED NETWORKS - Disclosed in some examples are methods, systems and machine readable mediums to efficiently stream data across restricted networks. In some examples, this streamed data may be sent more efficiently using lower overhead protocols such as UDP. In order to bypass the aforementioned limitations on these lower overhead protocols, the client may send a periodic update message to the server. This update message maintains the openings in the network firewalls and updates the server on the client's status. This update message may be sent much less frequently than a typical TCP acknowledgement, and the lower overhead protocol may be a protocol that does not retransmit lost or corrupted packets—thereby eliminating unnecessary overhead. In some examples this streamed data may be GNSS correction data. In some examples, the client may be behind one or more network firewalls. | 09-11-2014 |
20140266876 | USING SATELLITE VISIBILITY DATA FOR IMPROVED LOCATION ACCURACY - Described is a technology by which GPS-capable devices work with a cloud service to receive satellite visibility-related data. The satellite visibility-related data may be used to determine a location, and/or to abort a search for satellites. The cloud service may use crowd data from other GPS-capable devices. In one aspect, line-of-sight satellites are differentiated from other satellites, and used to determine which satellite signals are more trustworthy. Reflected signals also may be determined. | 09-18-2014 |
20140292569 | GLOBAL NAVIGATION SATELLITE SYSTEM RECEIVER SYSTEM WITH RADIO FREQUENCY HARDWARE COMPONENT - A stand-alone radio frequency (RF) hardware component comprises first and second antennas, a digitizer, a serializer, and a serial output. The first antenna receives, over-the-air, a first analog Global Navigation Satellite System (GNSS) signal in a first frequency band. The second antenna receives, over-the-air, at least a second analog GNSS signal in a second frequency band, wherein the first frequency band and the second frequency band are separate and distinct. The digitizer digitizes the first analog GNSS signal into a first digitalized GNSS signal and digitizes the second analog GNSS signal into a second digitized GNSS signal. The serializer serializes the digitized GNSS signals into a serialized output signal. The serial output communicatively couples the digitized GNSS signals, as the serialized output signal, directly from the RF hardware component to a communication device that is removably couplable with the stand-alone RF hardware component. | 10-02-2014 |
20140292570 | VEHICLE-BASED GLOBAL NAVIGATION SATELLITE SYSTEM RECEIVER SYSTEM WITH RADIO FREQUENCY HARDWARE COMPONENT - A vehicle-based radio frequency (RF) hardware component comprises first and second antennas, a digitizer, a serializer, and a serial output. The first antenna receives, over-the-air, a first analog Global Navigation Satellite System (GNSS) signal in a first frequency band. The second antenna receives, over-the-air, at least a second analog GNSS signal in a second frequency band, wherein the first frequency band and the second frequency band are separate and distinct. The digitizer digitizes the first analog GNSS signal into a first digitalized GNSS signal and digitizes the second analog GNSS signal into a second digitized GNSS signal. The serializer serializes the digitized GNSS signals into a serialized output signal. The serial output communicatively couples the digitized GNSS signals, as the serialized output signal, directly from a location in a vehicle of the radio frequency hardware component to a separate communication device that is also coupled with the vehicle. | 10-02-2014 |
20150009066 | HYBRID POSITIONING USING SYNCHRONOUS AND ASYNCHRONOUS TECHNIQUES - Methods and apparatuses for a mobile station to obtain a position fix using synchronous hybrid positioning and asynchronous hybrid positioning techniques are described. In one embodiment, a wireless communication apparatus may transmit a request to a mobile station for fine time assistance (FTA) corresponding to a global navigation satellite system (GNSS). The apparatus may be configured to receive the FTA, first timing measurements from one or more base stations, and second timing measurements from the GNSS. The apparatus may identify whether the FTA was received from the mobile station. If it is determined that the FTA was received, then a system frame number (SFN) received within the FTA may be identified, wherein the SFN is associated with one of the base stations. The apparatus may then establish a position fix for the mobile station using a synchronous hybrid positioning technique that involves relating the timing measurements to a time scale associated with the SFN. If it is determined that the FTA was not received, then the apparatus may establish the position fix using an asynchronous hybrid positioning technique. | 01-08-2015 |
20150301183 | LOW BANDWIDTH METHOD FOR EPHEMERIS RECOVERY IN OVER-THE-AIR TRANSMISSION - A method and apparatus are disclosed for processing and transmitting precise orbit predictions of satellites in a Global Navigation Satellite System such as Navstar-GPS or a communication device such as Iridium which employs force models and curve fitting techniques so encode ephemerides, and particularly ephemerides of duration of a month, in order to minimize bandwidth requirements over-the-air and NVRAM storage requirements. The methods also apply to GNSS constellations such as Galileo or GLONASS. | 10-22-2015 |
20150301191 | GLOBAL NAVIGATION SATELLITE SYSTEM RECEIVER SYSTEM WITH RADIO FREQUENCY HARDWARE COMPONENT - A stand-alone radio frequency (RF) hardware component comprises first and second antennas, a digitizer, a serializer, and a serial output. The first antenna receives, over-the-air, a first analog Global Navigation Satellite System (GNSS) signal in a first frequency band. The second antenna receives, over-the-air, at least a second analog GNSS signal in a second frequency band, wherein the first frequency band and the second frequency band are separate and distinct. The digitizer digitizes the first analog GNSS signal into a first digitalized GNSS signal and digitizes the second analog GNSS signal into a second digitized GNSS signal. The serializer serializes the digitized GNSS signals into a serialized output signal. A wireless transmitter for wirelessly transmitting the digitized GNSS signals, as the serialized output signal, from the radio frequency hardware component to a separate communication device. | 10-22-2015 |
20160061957 | RADIO ACCESS NETWORK SERVICE-ASSISTED, SENSOR BASED INDOOR NAVIGATION - Examples are provided that enable a cellular network location assist to confirm a position determined using a sensor of a mobile device. As a result of global positioning system signals becoming unavailable due to the mobile device traveling indoors, the mobile device implements a sensor-based position determination that provides a position of the mobile device as the mobile device travels about a location. In order to confirm the reliability of the sensor-based position determination, the mobile device, after passage of time or after traveling some estimated distance, requests location assistance indications from the cellular network. A processor of the mobile device receives the location assistance indications and generates a directional vector based on several of the location assistance indications. Using the directional vector, the processor confirms the reliability of the dead reckoning position. | 03-03-2016 |
20160131764 | Method and Apparatus for Providing a Compact Extended Ephemeris Package for GNSS Processing - A method and apparatus are presented for providing a compact extended ephemeris package for GNSS processing. An extended ephemeris service provides orbit trajectories and clock corrections which are predicted into the future for navigation satellites. The extended ephemeris package format used allows the ephemeris information to be sent quickly and efficiently, even when using a low bandwidth communication network. Client GNSS receiver devices obtain the extended ephemeris package and extract the satellite ephemeris information for later use. This allows a client device to operate for many days or weeks without needing to decode or receive new satellite ephemeris information. | 05-12-2016 |
20160154106 | DIGITALLY-SIGNED SATELLITE RADIO-NAVIGATION SIGNALS | 06-02-2016 |
20160252622 | APPARATUS, SYSTEM AND METHOD OF COMMUNICATING ASSISTED GLOBAL NAVIGATION SATELLITE SYSTEM (A-GNSS) INFORMATION | 09-01-2016 |
20160377725 | ASSISTED GPS - A method and system are provided. A first request for satellite navigation data is provided to a vehicle to everything V2X receiver. Satellite navigation data recovered from a V2X message is received from the V2X receiver. The satellite navigation data is provided to a satellite navigation system receiver. The satellite navigation data comprises the data required by the satellite navigation system receiver to perform a hot start. | 12-29-2016 |
342357430 | Employing an initial estimate of the location of the receiver as aiding data or in generating aiding data (IPC) | 18 |
20110057836 | Position Estimation Assistance Information For Mobile Station - The subject matter disclosed herein relates to providing assistance information to a mobile station for performing position estimation operations. | 03-10-2011 |
20110068977 | ENHANCING LOCATION ACCURACY USING MULTIPLE SATELLITE MEASUREMENTS BASED ON ENVIRONMENT - A system and method for determining a location of a wireless device in a communications network. A request for satellite assistance data may be received from a requesting entity, and a reference location determined as a function of the request. One or more characterizing attributes may be identified as a function of the reference location, and a set of satellites determined as a function of the reference location. It may also be determined whether more than one set of signal measurements should be acquired from one or more satellites in the set of satellites as a function of the identified one or more characterizing attributes. The one or more sets of signal measurements may be acquired, and a location of the wireless device determined from the acquired measurements. | 03-24-2011 |
20120026037 | SYSTEM AND METHOD FOR SERVER SIDE DETECTION OF FALSIFIED SATELLITE MEASUREMENTS - A system and method for determining whether a wireless device has transmitted one or more forged satellite measurements. An estimated location of the wireless device may be determined as a function of information from a cellular network. Acquisition assistance data may be determined for a first set of satellites as a function of the estimated location, the assistance data including an uncertainty window. If measured code phase information in the satellite measurements substantially correlates to the uncertainty window, then the wireless device may be transmitting forged satellite measurements. | 02-02-2012 |
20120062416 | Supporting an assisted satellite based positioning - For supporting a satellite based positioning of a mobile arrangement ( | 03-15-2012 |
20120223857 | METHOD AND SYSTEM FOR DETERMINING A POSITION OF A MOBILE COMMUNICATION DEVICE - A GNSS enabled mobile device transmits to a location server a combination of GNSS-based location data and non-GNSS based location data used to determining reference positions at the location server. The GNSS mobile device receives the determined reference positions from the location server to calculate an associated GNSS position fix. The transmitted GNSS-based location data comprises GNSS position fixes associated with the GNSS enabled mobile device. The transmitted non-GNSS-based location data comprises a serving Cell-ID, neighbor Cell-IDs, neighbor cell fingerprinting, timing advance parameters, and/or a mobile country code. Reference positions associated with the serving Cell-ID are determined and/or refined based on location information acquired from each of associated mobile devices. To respond to a reference position request from the GNSS enabled mobile device without an associated serving Cell-ID, the location server determines corresponding reference positions by combing subscriber population density with an associated MCC. | 09-06-2012 |
20120242541 | System and Method for Using Data Phase to Reduce Position Ambiguities - A geographic tracking system with minimal power and size required at the mobile terminal collects observation data at the mobile terminal and forwards the data to a processor, which calculates the position. The mobile terminal is configured to measure both code phase and data phase of a GPS satellite signal. The code phase and data phase information enables the processor to reduce the number of candidate points to be considered. | 09-27-2012 |
20130021199 | ESTIMATING NETWORK BASED LOCATING ERROR IN WIRELESS NETWORKS - Systems and techniques for determining the accuracy of network based user equipment (UE) locating methods and results thereof are disclosed. Periodic direct measurements of location error for a network based location result are determined by the difference in the network based location result and an assisted global positioning system (AGPS) location result. The location error is associated with a cell-pair contributing to data employed to determine the network based location result. The error associated with the cell-pair is then applied as a measure of accuracy in future network based location results that also employ data associated with the cell-pair to determine the future network based location result. | 01-24-2013 |
20130162471 | POSITIONING SUPPORT DEVICE AND POSITIONING SUPPORT METHOD - Provided is a positioning support device that provides approximate location information including more appropriate error radius information. With a positioning method (positioning support method) by a positioning support system | 06-27-2013 |
20140035782 | Devices, Methods, and Apparatuses for Mobile Device Acquisition Assistance - Methods, apparatuses and/or articles of manufacture, which may be employed in a mobile device and/or in a location server, enable acquisition assistance at the mobile device. In at least one implementation, which is not intended to limit claimed subject matter, acquisition assistance may include expected Doppler frequency shift and expected code phase in the case of a particular Global Navigation Satellite System (GNSS) satellite vehicle, as well as a search window for each of these, and a confidence value. The confidence value may indicate the likelihood of detecting signals from the satellite vehicle at the current expected location of the mobile device and within the given search windows and may enable one or more of faster location estimation, reduced battery consumption, and detection of weaker satellite signals. | 02-06-2014 |
20140062777 | FAST GPS RECOVERY USING MAP VECTOR DATA - Methods and apparatuses to assist a global positioning system (GPS) module to determine GPS position estimates for a wireless communication device is disclosed. Processing circuitry in the wireless communication device determines a potential or an actual inaccuracy in a GPS position estimate obtained from a GPS module. The processing circuitry obtains a set of map vector data stored in or associated with the wireless communication device. The processing circuitry determines a location estimate of the wireless communication device based on at least a portion of the set of map vector data. The processing circuitry provides the location estimate to the GPS module and obtains an updated GPS position estimate from the GPS module, the updated GPS position estimate based at least in part on the location estimate provided to the GPS module. | 03-06-2014 |
20140152496 | GNSS RECEIVER AND CALCULATING METHOD FOR PSEUDO-RANGE AND POSITION DETERMINATION THEREOF - Methods and apparatus are provided for calculating a pseudo-range and position in a global navigation satellite system receiver. A first pseudo-range of a satellite is calculated for position determination of the global navigation satellite system receiver. A second pseudo-range of the satellite is calculated for position correction of the global navigation satellite system receiver. A differential operation is performed using the first pseudo-range and the second pseudo-range to eliminate an error. A more precise pseudo-range of the satellite is calculated using the differential pseudo-range. | 06-05-2014 |
20150070210 | GPS WITH AIDING FROM AD-HOC PEER-TO-PEER BLUETOOTH NETWORKS - The present invention is related to location positioning systems, and more particularly, to a method and apparatus for providing an update of ephemeris information. According to one aspect, GPS enabled devices in the signal unavailable area monitors the state of its ephemeris data and time information. When the ephemeris data and time information become out of date, the GPS enable device uses an ad hoc Bluetooth network to retrieve ephemeris data and time information from another GPS enabled device with more current data. According to further aspects, a map of a deep hole region in which GPS and other cellular signals are not available, is generated to enable power reduction and cost saving measures. | 03-12-2015 |
20150084812 | SYSTEMS AND METHODS FOR POSITION DETERMINATION IN GPS-DENIED SITUATIONS - A method for calculating a position of a receiver. The method includes determining a first position of the receiver at a first time using data from satellites and determining a second position of the receiver at a second time using the first position and data from a non-satellite sensor. The method also includes calculating the positions of the satellites at the second time and comparing, for each satellite, the calculated position with a known position at the second time. | 03-26-2015 |
20150293232 | System and Method for Compressing GPS Data - A system and method are provided for compressing global positioning system (GPS) data. The method includes determining a first GPS position and an associated first time; incorporating the first GPS position and the associated first time in a GPS update packet; determining a time interval for a set of GPS positions subsequent to the first GPS position and specifying the time interval in the GPS update packet; and for each of the set of GPS positions subsequent to the first GPS position: computing a relative latitude value and a relative longitude value; compressing the relative latitude and longitude values by reducing precision; and storing compressed relative latitude and longitude values in the GPS update packet. There is also provided a system and method for decompressing such compressed global positioning system (GPS) data. | 10-15-2015 |
20150309178 | Handling Assistance Data For Global Positioning - A receiving apparatus ( | 10-29-2015 |
20150323675 | MULTIPATH REJECTION USING COOPERATIVE GPS RECEIVERS - Systems and methods are disclosed for improving the speed and accuracy of terrestrial tracking with more than one receiver. Furthermore, terrestrial tracking of more than one receiver can be improved in areas where terrestrial tracking has been difficult to accomplish with acceptable accuracy, such as in rural areas where buildings can reflect satellite, and other, signals. For example, fast and precise position estimation in a short delay multipath environment can be solved by simultaneously estimating the position of multiple receivers using receiver to receiver distance ranges. | 11-12-2015 |
20150355335 | System and Method for Compressing GPS Data - A system and method are provided for compressing global positioning system (GPS) data. The method includes determining a first GPS position and an associated first time; incorporating the first GPS position and the associated first time in a GPS update packet; determining a time interval for a set of GPS positions subsequent to the first GPS position and specifying the time interval in the GPS update packet; and for each of the set of GPS positions subsequent to the first GPS position: computing a relative latitude value and a relative longitude value; compressing the relative latitude and longitude values by reducing precision; and storing compressed relative latitude and longitude values in the GPS update packet. There is also provided a system and method for decompressing such compressed global positioning system (GPS) data. | 12-10-2015 |
20160033647 | ENHANCED LOCATION BASED SERVICES - A device management system is comprised of a server-side proxy component and at least one back-end computer. The server-side proxy component is configured to receive ephemeris and almanac data from a source and information from at least one client describing the geographic location of the client. The server-side proxy component is configured to send the ephemeris and almanac data and the information from the client to a back-end computer. Responsive to receiving this data and information, the computer compiles it into GPS data relevant to the location of the client. | 02-04-2016 |