Abstract: The present disclosure relates to a pre-5th-Generation (5G) or 5G communication system to be provided for supporting higher data rates Beyond 4th-Generation (4G) communication system such as Long Term Evolution (LTE). A method for operating of a terminal in a wireless communication system according to an exemplary embodiment includes: receiving signals from other terminals; selecting another terminal which has proximity to the terminal from among the other terminals based on reception powers of the signals and information related to the signals; and determining a location of the terminal based on location information of the other terminals.

Abstract: The invention provides a graphical user interface implemented on a computer including an information area for displaying to a user at the computer inspection status information in connection with one or more components of a linear asset infrastructure. The graphical user interface also includes a control component operable by the user at the computer to cause the graphical user interface to display additional information on the one or more components of the linear asset infrastructure.

Abstract: Embodiments retrieve a set of search results that have been previously identified as having at least one associated date or location. A timeline or map is displayed that visually represents the distribution of the dates or locations within the results. The timeline is displayed with a histogram graph corresponding to the number of dates in the search results at points along the timeline. The map is displayed with markers at the locations corresponding to the locations in the search results. The user can navigate the result set using the displayed timeline or map.

Abstract: A method performed by an infotainment providing system for providing personalized position-based infotainment in a vehicle is disclosed. The infotainment providing system determines at least a first infotainment category of interest. The infotainment providing system further determines a current position of the vehicle. The infotainment providing system searches at least a first online information source, based on the at least first infotainment category of interest and taking into consideration the determined vehicle position. Then, the infotainment providing system retrieves at least a first piece of media content which falls under the at least first infotainment category of interest and which is associated with the determined vehicle position. The infotainment providing system provides the at least first piece of media content while the vehicle is in the vicinity of the determined vehicle position.

Abstract: Methods, computing devices, and systems that dynamically determine whether a request is authorized or fraudulent are described herein. A computing device may receive a request from a communication device, and a geographical location of the communication device may be determined. User information may be requested, and based on the information and the geographical location of the communication device, a risk value can be calculated. A determination of whether to honor the request may be based on the subscriber risk value.

Abstract: Techniques for minimizing redundancy of surface coverage of a workspace by a robotic device are presented, the techniques including: obtaining, with one or more processors of a robot, a map of a workspace, the map quantizing the workspace into a plurality of cells, each cell corresponding to an area of the workspace; segmenting, with the one or more processors of the robot, the workspace into a plurality of zones, each zone having a subset of the plurality of cells; determining, with the one or more processors of the robot, a sequence of the zones among a plurality of candidate sequences based on an effect of the sequence on a cost of a cost function that is based on travel distance of the robot through the sequence; and causing, with the one or more processors of the robot, the robot to traverse the zones in the determined sequence.

Abstract: Systems and methods to determine a location of a mobile device by combining a radio frequency navigation system and an inertial navigation system, where the radio frequency navigation system determines a location of the mobile device in reference to a map of radio frequency signals and the inertial navigation system based on dead reckoning the position of the mobile device based on measurements from motion sensors. When a set of successive locations determined by the radio frequency navigation system is found to have a predetermined pattern (e.g., within a minimum distance from each other, or separated by more than a maximum distance), the mobile device discards the location results from the radio frequency navigation system for the period of time, in favor of the location results from the inertial navigation system.

Abstract: A method in a vehicle for performing multiple on-board sensing tasks concurrently in the same network using deep learning algorithms is provided. The method includes receiving vision sensor data from a sensor on the vehicle, determining a set of features from the vision sensor data using a plurality of feature layers in a convolutional neural network, and concurrently estimating, using the convolutional neural network, bounding boxes for detected objects, free-space boundaries, and object poses for detected objects from the set of features determined by the plurality of feature layers. The neural network may include a plurality of free-space estimation layers configured to determine the boundaries of free-space in the vision sensor data, a plurality of object detection layers configured to detect objects in the image and to estimate bounding boxes that surround the detected objects, and a plurality of object pose detection layers configured to estimate the direction of each object.

Abstract: A device, system and method for dynamic channel assignment is provided. A communication device assigns one or more channels for use by one or more of a plurality of mobile radios in a geographic region around an incident location using one or more lists indicative of unusable channels in the geographic region, the one or more lists received by the plurality of mobile radios, the one or more channels assigned for use excluding the unusable channels in the geographic region.

Abstract: A transmitter-receiver circuit and a method for distance measurement between a first node and a second node of a radio network is provided, wherein a mode of the first node and a mode of the second node are switched from a normal mode for communication in the radio network to a mode for distance measurement, wherein, in the mode for distance measurement for a transit time measurement, a radio signal is transmitted by the first node and received by the second node and a radio signal is transmitted by the second node and received by the first node and a first distance value is determined by measuring the transit time of the radio signals.

Abstract: A system and related method for validating satellite-based navigation data determines an estimated altitude or position solution based on GPS altitude or position data adjusted with inertial altitude or position data integrated with barometric altitude data corrected for air temperature and latitude. The system may include a vertical monitor for validating the GPS altitude data by comparing the weighted, limited, and integrated estimated altitude solution to the GPS altitude data. The integrated altitude solution may compensate for vertical speed offset. The system may provide secondary altitude monitoring by comparing radar altimeter data to local object data to verify obstacle clearance height. The system may include a lateral monitor for validating GPS lateral position data based on weighting and limiting of altitude sources controlled by a height above threshold estimate from the vertical monitor. Validity information may be presented to the pilot or autopilot.

Abstract: Methods and apparatus for adaptively assisting developmentally disabled or cognitively impaired drivers are disclosed. An apparatus comprises a user interface. The user interface is to present first navigation data in a first mode to assist a driver in guiding a vehicle from a current location to a destination location. The user interface is further to present second navigation data in a second mode to assist the driver in guiding the vehicle from the current location to the destination location. The second navigation data is adapted relative to the first navigation data based on driver assistance data associated with the driver.

Abstract: A technique for locating devices detects wireless packets using multiple antenna units and generates antenna coordinates in an antenna coordinate system on a per-packet basis. Information about antenna coordinates are stored in entries of a data store. Packets originating from different locations produce different antenna coordinates, enabling antenna coordinates to differentiate regions in physical space. Although antenna coordinates do not directly describe physical locations, they are stable over time given a stable environment and thus allow determination as to whether a location has been visited before. Entries in the data store may store Cartesian (physical) coordinates associated with respective antenna coordinates, enabling real-time tracking of physical device locations by lookups into the data store based on antenna coordinates.

Abstract: A method includes determining to report location change information of a first computing device to a second computing device and sending the location change information to the second computing device utilizing an initial communication approach. The method further includes assigning a priority level of the location change information based on one or more environmental parameters. When the priority level of the location change information is greater than a priority threshold, the method further includes selecting a new communication approach and resending at least a portion of the location change information to the second computing device using the new communication approach.

Abstract: A wireless tracking system comprises mobile devices and stationary devices at known locations. The system receives a first radio measurement indicative of a first propagation path length and receives sensor data indicative of the movement of the first mobile device. The sensor data is of a type different to the radio measurement. The system then determines a historical location of the first mobile device based on the first radio measurement and the sensor data and determines error data indicative of a difference between a historical radio measurement and the historical location and stores the error data associated with the historical location. The system can then receive a second radio measurement indicative of a second propagation path length of radio frequency radiation and determine an estimated location of the second mobile device based on the second radio measurement and the stored error data.

Abstract: Embodiments of the disclosed technology include systems and methods for identifying one or more entities associated with activities. In an example implementation, a method includes determining one or more geographical regions proximate to the plurality of locations associated with the one or more activities; determining connections between one or more identities of a population and a plurality of related entities associated with the one or more identities; determining geographical information associated with related entities; weighting one or more metrics for each of the identities based on the geographical information associated with the related entities and the or more geographical regions proximate to the plurality of locations associated with the one or more activities; scoring the one or more weighted metrics; and providing, based on the scoring, an indication of a likelihood that the one or more identities of the population are associated with the one or more activities.

Abstract: A clustering method for a point of interest and a related apparatus are provided. The clustering method for a point of interest includes: acquiring a locating point set of a user within a preset period; generating a stay point set according to the locating point set, where each stay point in the stay point set represents one hot area; calculating a confidence level of each stay point in the stay point set; obtaining a trusted stay point from the stay point set by means of screening according to the confidence level of each stay point in the stay point set; and clustering density-connected trusted stay points to form a point of interest. By using technical solutions provided in the present disclosure, reliability and reference value of a POI can be effectively improved.

Abstract: Systems and methods for determining an accurate location of a signal's source of transmission. The methods involve: demodulating a detected carrier signal modulated with a Pseudo Noise (“PN”) code sequence to obtain an original information-bearing signal therefrom; computing time delay offsets using correlations of PN code windows for each symbol of the original information-bearing signal; determining a high accuracy Time Of Arrival (“TOA”) of the detected carrier signal using the time delay offsets; and using the high accuracy TOA to determine an accurate location of the original information-bearing signal's source of transmission.

Abstract: Systems and methods to determine a location of a mobile device based on a radio frequency navigation system and an inertial navigation system, where the radio frequency navigation system is used to determine a location of the mobile device in reference to a map of radio frequency signals and the inertial navigation system is based on dead reckoning the position of the mobile device based on measurements from motion sensors and/or magnetic field sensors. The position determination results from the radio frequency navigation system and the inertial navigation system are combined to determine two successive locations. A heading of the user of the mobile device is computed based on weighted averages for the two successive locations.

Abstract: The system is configured to generate a display of a plurality of synchronized graphs. The display may include a longitude-time graph. The longitude time graph may include a first longitude axis spanning from a first lower-longitude limit to a first upper-longitude limit, a first time axis spanning from a first lower-time limit to a first upper-time limit, and a plurality of pixels corresponding to longitude-time points within the longitude-time graph. Each of the plurality of longitude-time points can correspond to a set of identifiers having a time identifier between the first lower-time limit and the first upper-time limit and having a longitude identifier between the first lower-longitude limit and the first upper-longitude limit.

Abstract: A verified authentication device has a navigation receiver, a processor, and a verification device. Navigation signals are transmitted from a Global Navigation Satellite System (GNSS). The processor authenticates the navigation signals and determines position coordinates of the navigation receiver. The verified authentication device receives input from a user of the verified authentication device. The verified authentication device provides reliability of the position coordinates based on the input from the user.

Abstract: Systems and methods for unmanned aerial vehicle (UAV) positional anchors. Signals may be broadcast via a signal interface of an anchor in a defined space which also includes a UAV. The UAV is at one location within the defined space, and the anchor is at another location within the defined space. A virtual environment may be generated that corresponds to the defined space. The virtual environment may include at least one virtual element, and a location of the virtual element within the virtual environment may be based on the location of the anchor within the defined space. A visual indication may be generated when the UAV is detected within a predetermined distance from the location of the anchor. In some embodiments, a visual element may be generated to augment the anchor where a location of the visual element is based on a location of the anchor within the defined space. The visual element may be changed when the UAV is flown to the location of the anchor within the defined space.

Abstract: A method for localizing a wireless node includes synchronizing a respective time reference of a plurality of wideband spectrum-sensing units and a master transceiver. A sensing location of each wideband spectrum-sensing unit is stored in a first memory. Each wideband spectrum-sensing unit stores in a second memory a plurality of time-limited samples of a transmission received from a slave transceiver. The time limit of the transmission is determined by the master transceiver, receiving the transmission. The samples from the second memory are correlated with a corresponding plurality of reconstructed samples stored in the first memory to form a respective power delay profile for each of the of the wideband spectrum-sensing units. A slave location of the slave transceiver is determined by applying a Time Difference Of Arrival method to the respective power delay profiles.

Abstract: Credit card transaction servers, systems, methods and computer program products receive information concerning a prospective credit card transaction with one of multiple credit card issuers and obtain location information from multiple wireless network providers for wireless terminal(s) that are associated with a user of the credit card for the prospective credit card transaction. The locations of the credit card transaction terminal(s) and the locations of the wireless terminal(s) are correlated, and authorization information for the prospective credit card transaction is generated based upon this location correlation.

Abstract: Methods for minimizing redundancy of surface coverage of a workspace using a robotic device and a base station are presented, the methods including: creating a polar map of the workspace defined by a number of cells; creating a policy by dividing the workspace into a number of zones each defined by a portion of the number of cells and by ordering the number of zones for surface coverage; selecting a zone of the number of zones for surface coverage by the robotic device; creating a cell matrix of the portion of number of cells representing the selected zone; assigning the selected zone to the robotic device; covering the selected zone by the robotic device; reporting an actual zone coverage to the base station; updating a coverage matrix corresponding with the cell matrix of the selected zone to indicate coverage; and calculating a penalty.

Abstract: A method and apparatus for geolocating emitters in a multi-emitter environment is disclosed. A number of lines of bearing (LOBs) associated with emitters of particular signal characteristics are determined, and a peak where the greatest number of such LOBs intersect is identified. A group of the LOBs that are within a distance threshold of the identified peak identified and used to locate a first emitter. The first group of LOBs are then excluded from consideration, facilitating the easier identification of a second peak where the greatest number of residual LOBs intersect. Residual LOBs within a threshold distance of the second peak are identified, and used to identify the second emitter, and the process is repeated until satisfactory results are obtained.

Abstract: Systems, methods, apparatuses, and computer readable media are disclosed for improving, in some examples, reference in a location system. In one embodiment, a method is provided comprising: receiving reference tag blink data from a plurality of receivers; calculating, using a processor, a reference phase offset between the plurality of receivers; and generating a suspended reference phase offset table, wherein a suspended reference phase offset table is generated by causing the reference phase offset to be stored in a memory for later tag location calculations.

Abstract: Methods and apparatus for multimode RFST communications in process control systems is disclosed herein. A disclosed example apparatus includes an example RFST module associated with a process control device of a process control system. The example RFST module includes a plurality of RFSTs configured to communicate by different communication protocols. The example RFST module also includes a power module to power the RFST module to enable communications with a processor or memory associated with the process control device.

Abstract: An information processing system according to the embodiments includes an in-vehicle device (electronic device), a portable communication terminal, a terminal position computing unit (computing unit), and a specific process executing unit (executing unit). The in-vehicle device is provided in a vehicle (predetermined facility). The portable communication terminal is capable of mutual communication with the in-vehicle device. The terminal position computing unit computes a position of the portable communication terminal based upon a motion of the portable communication terminal. The specific process executing unit, when the position of the portable communication terminal computed by the terminal position computing unit is a predetermined position that is predefined in the facility, executes a specific process corresponding to the predetermined position.

Abstract: A computer system configured to integrate a plurality of websites is provided. The computer system includes a memory, a display, and at least one processor coupled to the memory and the display. In one example, the system comprises a monitoring component executed by the at least one processor and configured to analyze web content generated by a website provider and detect one or more identified elements within the web content. The system may also comprise a converting component executed by the at least one processor and configured to, responsive to detection of the one or more identified elements by the monitoring component, convert at least one portion of the web content into converted content, wherein the at least one processor is configured to display, in the display, the converted content and at least one other portion of the web content.

Abstract: A system and method for providing security to a network may include maintaining, by a processor, a model of an expected behavior of data communications over the in-vehicle communication network; receiving, by the processor, a message sent over the network; determining, by the processor, based on the model and based on a timing attribute of the message, whether or not the message complies with the model; and if the message does not comply with the model then performing, by the processor, at least one action related to the message.

Abstract: In one embodiment an event likely to be attended by a plurality of users of a taxi service is identified. A location of the event is determined and an end time of the event is estimated. Prior to the end time of the event, a plurality of drivers associated with the taxi service are directed to drive to the location of the event to transport passengers from the location of the event.

Abstract: The invention relates inter alia to a method performed by at least one apparatus, said method comprising: obtaining radiation signal data comprising results of measurements on radiation signals received at a mobile device and emitted by a positioning support device covering one or more signal areas by sweeping a striped band of radiation across said one or more signal areas; and determining a position of said mobile device within a signal area of said one or more signal areas at least based on said radiation signal data. The invention also relates to a positioning support device for supporting determining of positions of mobile devices in one or more signal areas, comprising: a radiation source covering said one or more signal areas by sweeping a striped band of radiation across said one or more signal areas.

Abstract: An optical circuit includes solid state photonics. The optical circuit includes a phased array of solid state waveguides that perform beamsteering on an optical signal. The optical circuit includes a modulator to modulate a bit sequence onto the carrier frequency of the optical signal, and the beamsteered signal includes the modulated bit sequence. The optical circuit includes a photodetector to detect a reflection of the beamsteered optical signal. The optical circuit autocorrelates the reflection signal with the bit sequence to generate a processed signal.

Abstract: Systems and methods for determining a location of one or more user equipment (UE) in a wireless system can comprise receiving reference signals via a location management unit having two or more co-located channels, wherein the two or more co-located channels are tightly synchronized with each other and utilizing the received reference signals to calculate a location of at least one UE among the one or more UE. Embodiments include multichannel synchronization with a standard deviation of less than or equal 10 ns. Embodiments can include two LMUs, with each LMU having internal synchronization, or one LMU with tightly synchronized signals.

Abstract: Aspects of the present disclosure relate to protecting the privacy of a user of a dispatching service for driverless vehicles. For example, a request for a vehicle identifying user information is received. A client computing device may be identified based on the user information. In response to the request, a driverless vehicle may be dispatched to the location of the client device. Signaling information may be generated based on a set of rules including a first rule that the signaling information does not identify, indirectly or directly, the user as well as a second rule that the signaling information does not identify, indirectly or directly, the user information. The location of the client computing device and the signaling information may be sent to the driverless vehicle for display. In addition, the signaling information may also be sent to the client computing device for display.

Abstract: A method of selectively enabling one of a first and a second operating mode in a first network device is presented. The first network device has a wireless receiver and transmitter for providing bi-directional communication with a mobile station through a first wireless link, for providing access to a network. In the first operating mode the wireless transmitter is not continuously enabled, and in the second operating mode the wireless transmitter is continuously enabled. In the first operating mode the first network device, receives, from a second network device, status information about a second wireless link maintained between the second network device and the mobile station, and sends, at predetermined time intervals, probe requests to the mobile station. The wireless transmitter is enabled for sending the probe request and disabled thereafter.

Abstract: A system and method of performing identity verification based on the use of mobile phones or mobile computing devices in conjunction with a secure identity authority; said method to be used as an alternative to conventional identity verification using paper-based documents such as driver's licenses and passports. The new method improves speed, accuracy, cost, and reliability of identity verification for entities that need to verify identity, as well as convenience for end-users.

Abstract: A system and method for providing a descriptive location of a first user device. The method includes: receiving a request to determine an updated descriptive location pointer for the second user device; receiving data associated with the first user device and at least one radio frequency (RF) signal; and determining an updated descriptive location pointer for the second user device based on a unique identifier collected by the first user device, the data associated with the first user device, and the at least one RF signal, wherein the unique identifier is created by the first user device based on data and RF signals received by the first user device during a learning phase, wherein the unique identifier is associated with at least one predetermined descriptive location pointer, wherein the updated descriptive location pointer is determined from among the at least one predetermined descriptive location pointer.

Abstract: A method and apparatus for determining whether to allow attachment of a mobile terminal to a Radio Access Network. A selection function node receives an indication that the mobile terminal has requested to attach to the Radio Access Network. A determination is made of a property of a radio connection on both an uplink and a downlink between the mobile terminal and the RAN. On the basis of the determined property, a further determination is made as to whether to allow attachment of the mobile terminal to the RAN.

Abstract: The subject matter of this specification can be implemented in, among other things, a method for location-based content publishing. The method includes a step for receiving indication of a user subscription to one or more publisher feeds, wherein each of the one or more publisher feeds provides multiple content items, each content item being associated with a location. The method also includes a step for receiving a request for content items, wherein the request includes information about the user's location based on a mobile device of the user. The method also includes a step for selecting content items provided by the one or more publisher feeds based on the user's location and based on the location associated with the content items. The method also includes a step for providing at least a portion of the selected content items for display on the user's mobile device.

Abstract: The subject matter disclosed herein relates to positioning systems and location determination using measurement stitching.

Abstract: A method includes determining that a first receiver of a node of a mobile ad-hoc network (MANET) is in an electromagnetic contested environment for a first frequency. The method also includes scanning a frequency coverage range of a second receiver of the node for unused frequencies. The method additionally includes selecting a frequency from the unused frequencies, the selected frequency to be used for communication of messages from another node of the MANET to the node via the second receiver. The method further includes transmitting, to the other node, a message including information of the selected frequency via the transmitter.

Abstract: A method for maintaining vehicle-resident map information may include, in a vehicle with at least one communications processor integrated within the vehicle, the at least one communications processor being operable to receive wireless transmissions including map information from a remote location separate and apart from the vehicle, obtaining GPS information relating to the vehicle. The map information received by the at least one communications processor may be downloaded from the remote location. A map corresponding to the map information, and an indication of the current vehicle location may be displayed within the map, based on the GPS information. The map information may correspond to the GPS information. Road information may be wirelessly transmitted to one or more locations based on the GPS information.

Abstract: A computer broadcasts a tier 1 signal from a target device and records transmission data of the broadcast. The computer detects the tier 1 signal at nearby propagator devices and records additional transmission data before determining whether a propagation limit has been reached. Based on not reaching the propagation limit, the computer instructs the nearby propagator devices to broadcast a tier 2 signal. The computer records further transmission data at other nearby propagator devices detecting the tier 2 signal and, again, determines whether the propagation limit has been reached. Based on determining that the propagation limit has been reached, the computer filters outliers from all the transmission data and determines the precise location of the target device. Furthermore, the computer displays the relative location of the target device on one or more devices.

Abstract: Methods and apparatuses for device location are described. In one example embodiment, an apparatus and method for determining a location of a mobile device is presented using a single narrowband radio system. In one implementation, Bluetooth is utilized. Using the single base operating with the narrowband radio, the location of the mobile device is found by applying both angle determination and distance determination. Using phased array antennas, the angle between receiver and base is determined. The distance is determined using a time-of-flight method based on phase comparison and phase lock loop techniques which can be applied in narrowband radio transceivers.

Abstract: The location of a mobile device may be determined based on information that includes the signal strength of nearby radiation sources. The system may disregard information associated with radiation sources that are determined to be mobile.

Abstract: A technology related to a distributed antenna system is disclosed. In an exemplary embodiment, a distributed antenna system may include a master unit and a plurality of remote units. The master unit may be interfaced with a wireless communications network and perform a bidirectional simultaneous digital radio frequency distribution of a wireless signal. The plurality of remote units may be each coupled to the master unit, and each perform a wireless transmission or reception of a split radio frequency signal to or from terminals located within a coverage. The master unit and the plurality of remote units may transmit or receive digital radio frequency signals in a wavelet transform domain. The master unit may determine whether the digital radio frequency signal, transmitted by each of the remote units, is normal, and merge the digital radio frequency signals.

Abstract: Computer program products, methods, systems, apparatus, and computing entities are provided. In one embodiment, the location of entities (e.g., computing entities and establishments) can be monitored or identified to determine whether they are within a configurable/determinable distance/proximity from each other. Such determinations can be used to automatically provide notifications and/or allow or disallow events.

Abstract: Systems and methods to determine a location of a mobile device by combining a radio frequency navigation system and an inertial navigation system, where the radio frequency navigation system determines a location of the mobile device in reference to a map of radio frequency signals and the inertial navigation system based on dead reckoning the position of the mobile device based on measurements from motion sensors. When a set of successive locations determined by the radio frequency navigation system is found to have a predetermined pattern (e.g., within a minimum distance from each other, or separated by more than a maximum distance), the mobile device discards the location results from the radio frequency navigation system for the period of time, in favor of the location results from the inertial navigation system.