Abstract: A user equipment (UE), a mobile hotspot equipment, a backhaul device and a method for establishing a path loss model database are provided. The UE receives a wireless signal from a first surrounding mobile hotspot equipment, and measures the wireless signal during a time interval so as to generate received signal information corresponding to the wireless signal. Thereafter, the UE transmits a measurement response message that includes an identity of the first surrounding mobile hotspot equipment and the received signal information to the backhaul device via the mobile hotspot equipment. Accordingly, the backhaul device establishes a path loss model according to the received signal information and stores the path loss model into a path loss model database.

Abstract: Systems, methods, and computer-readable media for managing movement states of an electronic device are provided that may leverage pass data from a pass application when determining a current or future movement state of an electronic device and/or that may manage a mode of operation of the electronic device based on the determined movement state. Pass data may be indicative of the existence or use of any suitable passes that may be used by the electronic device, such as transportation boarding passes, event tickets, coupons, store cards, financial payment cards, and the like.

Abstract: Examples of the present disclosure describe systems and methods for capturing data to acquire indoor and outdoor geometry. In aspects, a data capture system may be configured to acquire texture data, geometry data, navigation data and/or orientation data to support geolocation and georeferencing within indoor and outdoor environments. The data capture system may further be configured to acquire seamless texture data from a 360° horizontal and vertical perspective to support panoramic video and images.

Abstract: Techniques for dynamic network optimization using geolocation and network modeling are disclosed. In one particular exemplary embodiment, the techniques may be realized as a system for network optimization. The system may comprise a data collection system configured to collect geolocated subscriber records from a plurality of mobile devices. The system may also comprise a SON optimization system communicatively coupled to the data collection system via a network. The SON optimization system may comprise at least one pre-processor configured to receive and process geolocated subscriber records from the data collection system. The SON optimization system may further comprise a network simulator configured to perform network simulation analysis based on the processed geolocated subscriber records, and provide a new network configuration based on the network simulation analysis, wherein the new network configuration is estimated to improve network performance.

Abstract: A device a radio communication device may be provided. The radio communication device may include: a movement characteristics determination circuit configured to determine a movement characteristics of the radio communication device; a beam pattern determination circuit configured to determine a beam pattern based on the determined movement characteristics; and an antenna controller configured to control an antenna to operate using the determined beam pattern.

Abstract: A method and/or system is disclosed allowing a user to quickly and easily obtain information on the location of another user or group of users. Such location information, may for example, be provided for quickly finding the whereabouts of friends, volunteers, employees, event attendees, etc. The system is comprised of a user application and a user connection server which utilizes push notification services. Accordingly, embodiments allow a user to ask, for example with a single button press/user selection, for the location of other users. In response to the request, the user can, for example with a single button press/user selection, choose to respond to the user. The requesting user then sees the location of the other user.

Abstract: A method, system, and/or computer program product augment and display a photographic image based on a context of a subject of the photographic image. One or more processors receive a photographic image that was captured by a camera. The processor(s) determine a context of the photographic image, where the context is captured by a context sensor at a location of a subject whose image is captured in the photographic image, and where the context describes a state of the subject whose image is captured in the photographic image. The processor(s) augment the photographic image with an additional feature to create an augmented photographic image based on the context captured by the context sensor. The processor(s) then display the augmented photographic image on a viewing device.

Abstract: A method of mitigating inter-BSS interference via synchronized inter-BSS operation is proposed. By aligning the transmission of UL and DL transmission in two overlapping OBSSs, the inter-BSS STA-to-STA and inter-BSS AP-to-AP types of interference can be eliminated. Furthermore, based on the BSS overlapping geometry and the STA location, different interference mitigation schemes can be applied to mitigate inter-BSS AP-to-STA and inter-BSS STA-to-AP types of interference.

Abstract: Embodiments are directed to a computer implemented method and system of proactively caching content for a mobile electronic device. The method includes determining the location of a mobile electronic device, predicting the location of the mobile electronic device, including a prediction of when the mobile electronic device will be in a location of low or no network connectivity. The data that will be retrieved while the mobile electronic device is not connected to the network is also predicted. Thereafter, the predicted data that will be retrieved is downloaded prior to losing network connectivity so that it can be accessed from memory while the mobile electronic device has low or no network connectivity. Other embodiments are also described.

Abstract: Communication network architectures, systems and methods for supporting a network of mobile nodes. As a non-limiting example, various aspects of this disclosure provide communication network architectures, systems, and methods for supporting a dynamically configurable communication network comprising a complex array of both static and moving communication nodes (e.g., the Internet of moving things). More specifically, systems and methods for vehicular positioning based on the round-trip time of DSRC messages in a network of moving things.

Abstract: This application provides a positioning method, a network side device, a positioning node, and a positioning system, where the method includes: receiving, by a network side device, a positioning request, where the positioning request is used to trigger positioning for UE; sending configuration information to N positioning nodes according to the positioning request, receiving, by the N positioning nodes according to the configuration information, the uplink positioning reference signal sent by the UE, and obtaining N measurement results according to the uplink positioning reference signal; sending, by M positioning nodes of the N positioning nodes, M measurement results corresponding to the M positioning nodes to the network side device; and determining, by the network side device, a position of UE according to the M measurement results.

Abstract: There is a system and method for promoting travel education including a toy having a particular geographic association represented visually on the toy. The toy includes a unique identifier observable on the toy and associated with the particular geographic association. The system includes a management module configured to interact with the toy and thereby promote travel education. The management module includes a user account management module associated with the unique identifier of the toy and configured to manage a user account associated therewith and to receive location information in regards to the toy. The management module includes a geographic rules module in communication with the user account management module and configured to store, provide and enforce a set of rules on the user account based on the particular geographic location of the toy associated with the user account.

Abstract: An apparatus and method of processing a positioning reference signal are disclosed. In some embodiments, the method includes determining a narrow-band (NB) positioning reference signal (PRS) bitmap indicating a pattern selecting NB PRS subframes, wherein each NB PRS subframe comprises an NB PRS for positioning an NB user equipment (UE), transmitting, to the NB UE, NB PRS configuration information for the NB UE, the NB PRS configuration information comprising the NB PRS bitmap, determining, by a reference cell and based on the NB PRS bitmap, NB PRS subframes of the reference cell, mapping, by the reference cell, a first NB PRS in the NB PRS subframes of the reference cell, and receiving, from the NB UE and in response to the first NB PRS, a reference signal time difference (RSTD) measurement.

Abstract: A system and method are described for accurately detecting a location of a wireless device. For example, one embodiment of a method comprises: collecting signal strength data indicating signal strength between a wireless device and a plurality of IoT devices and/or IoT hubs in a user's home; associating the signal strength data with locations in the user's home and storing the association in a location database; and determining a current location of the wireless device by comparing the signal strength data in the database with current signal strength data indicating current signal strength between the wireless device and the plurality of IoT devices and/or IoT hubs.

Abstract: Systems and techniques for managing user data privacy are described. Upon identification of a user device as a candidate for performing data collection relating to network performance experienced by the device, a network operator on whose behalf the data collection is to be performed is identified, and user consent information associated with the user device is examined to determine if a user of the device has given consent for data collection on behalf of the network operator. If the user has given consent, the user device is configured for data collection.

Abstract: Examples herein retrieve a profile data corresponding to a mobile device from a first data repository in response to the mobile device entering a regional service area. The examples store the profile data in a second data repository. The second data repository is local to the regional service area.

Abstract: In accordance with an embodiment, a positioning apparatus comprises a first interface and a processor. The first interface receives a positioning signal. The processor sets an interval for searching the positioning signal with a first interface to a first searching interval, sets the interval for searching the positioning signal to a second searching interval which is shorter than the first searching interval if it is determined that the positioning signal is received through searching in the first searching interval and uses the positioning signal received through searching in the second searching interval to specify a position of the positioning apparatus.

Abstract: Embodiments of the invention are directed to a system, method, or computer program product for aggregation of machine-initiated resource distribution. The invention generates a smart device portal for linkage of user associated smart devices. The portal generates code to extract data from the smart devices and control the communications disseminated from and received by the smart device from third parties. Thus, the generated portal and coded stored signal fixes the technical challenges within the current network including the need to consolidate and aggregate data across smart devices associated with the user, the need to control and manage the flow of data packets from smart devices to third parties (privacy, filtering, protection), and the need to easily track and refresh an inventory of smart devices in a manner that allows key data to remain associated with the user while the user's inventory, device associations, and personal/business associations change over time.

Abstract: The disclosure relates to a method and system for determining a positioning interval of a mobile terminal. The method and system include the mobile terminal acquiring current location information, and sending the location information to the server; the mobile terminal receiving, from the server, a distance between the current location of the mobile terminal and a designated geo-fence; the mobile terminal obtaining current motion information; the mobile terminal acquiring, from the server, an active time of a user associated with the mobile terminal; and the mobile terminal determining time interval information on a next positioning according to the received distance, motion information and whether or not the current time is within the active time of the user.

Abstract: According to some embodiments, a method of synchronizing a wireless device with a network node comprises receiving a radio subframe transmitted from the network node. The radio subframe comprises a first Primary Synchronization Signal (PSS) associated with a first Orthogonal Frequency Division Multiplexing (OFDM) symbol and a first plurality of subcarriers. The first PSS is paired with a first Secondary Synchronization Signal (SSS) associated with a second OFDM symbol and the first plurality of subcarriers. The radio subframe also comprises a second PSS associated with the first OFDM symbol and a second plurality of subcarriers. The second PSS is paired with a second SSS associated with the second OFDM symbol and the second plurality of subcarriers. The method further comprises inspecting the first plurality of subcarriers to detect the first PSS and the first SSS and inspecting the second plurality of subcarriers to detect the second PSS and the second SSS.

Abstract: Example implementations relate to beacon sensor based network fingerprints. For example, a location analytics device for beacon sensor based network fingerprints may include a processing resource and a memory resource storing readable instructions. The instructions may cause the processing resource to receive signal strength readings from a plurality of access points (APs) for transmissions originating from a target client device, compare the received signal strength readings for the target client device, to a beacon sensor based network fingerprint generated from a reference client device, and determine a location of the target client device based on the comparison of the received signal strength and the beacon sensor based network fingerprint.

Abstract: One embodiment provides a method, including: collecting, at a first device, local movement tracking data comprising distance and direction travelled by the first device; receiving, at the first device, local movement tracking data of a second device; and providing, using combined local movement tracking data of the first device and the second device, a location indication of the second device using an output device of the first device. Other aspects are described and claimed.

Abstract: A wireless base station locates User Equipment (UE) that is served by a wireless repeater chain that is served by the wireless base station. The wireless base station maintains a data structure that indicates geographic locations for wireless repeaters in the wireless repeater chain. The wireless base station wirelessly exchanges user data with the wireless repeater chain responsive to the UE exchanging the user data with one of the wireless repeaters in the wireless repeater chain. The wireless base station determines repeater hops in the wireless repeater chain between the wireless base station and the UE. The wireless base station determines the wireless repeater serving the UE based on the repeater hops. The wireless base station indicates a geographic location in the data structure for the wireless repeater serving the UE.

Abstract: An automated system is disclosed for detecting situations in which identical segments of conversation appear within two different recordings. The system automatically detects where within each of two audio recordings an identical conversation segment begins and ends, thus enabling detection of conversations where multiple prison inmates participated in a conference call.

Abstract: In one embodiment, a mobile device detects one or more wireless local area network (WLAN) access points (APs) and a WLAN-based location estimate is determined for the mobile device using a wireless local area network based positioning system (WLAN-PS). The WLAN-based location estimate is based on the one or more detected WLAN APs and information maintained in a reference database associated with the one or more detected WLAN APs. The mobile device also obtains a plurality of satellite-based positioning system (SPS) measurements. A selection of a set of SPS measurements is made from the plurality of SPS measurements based on consistency of the set of SPS measurements with the WLAN based location estimate. The selected set of SPS measurements is used in determining a final location estimate of the mobile device.

Abstract: A network system, such as a transport management system, efficiently allocates resources by monitoring the geospatial and topological locations of a rider responsive to receiving a trip request. A trip management module matches a rider with an available driver based in part on an comparison of the estimated times of arrival of the rider and the driver at the pickup location. A client positioning module monitors the rider's progress through nodes and edges in a topological graph associated with the origin location based on radio signatures received at the rider client device. A client ETA module calculates a rider ETA based on the rider's rate of travel through the origin location represented by nodes in the topological graph. Responsive to determining that the rider ETA and the driver ETA vary by over a threshold amount of time, the trip management module matches the rider with a second available driver.

Abstract: Systems and methods are disclosed for computing various determinations at one or more mobile devices and/or central machines. In part, such determinations are computed based on analysis of one or more inputs originating at one or more sensors of one or more devices. The referenced methods can include operations such as: receiving one or more inputs, processing the one or more inputs to determine a quantity of occupants within a vehicle, and transforming a first operation state of a device present within the vehicle based on a determination that the quantity of occupants within the vehicle is not greater than one.

Abstract: A communication system includes a plurality of communication apparatuses. The communication apparatuses each include a display portion, an operation detection portion, a determination processing portion, and a transmission processing portion. The operation detection portion detects an operation on the display portion. When a specific operation of moving an operation position on the display portion is detected by the operation detection portion, the determination processing portion determines whether or not another one of the communication apparatuses exists at an azimuth corresponding to a movement direction of the operation position in the specific operation.

Abstract: Methods, systems, computer-readable media, and apparatuses for determining a position indicator are presented. In some embodiments, position data indicating a position of a mobile device is obtained. A position indicator is determined based on at least one region of a map. The position of the mobile device is located within the at least one region. The position indicator indicates a map-feature-dependent region of the map. The position indicator is provided.

Abstract: Methods, systems, computer-readable media, and apparatuses for crowdsourcing the synchronization status of a network are presented. In various embodiments, a server receives a synchronization status of a base station associated with the network. If the synchronization status indicates that the network is synchronous, the server collects information for computing time correction data. The server may send the time correction data to the mobile device for use in determining the position of the mobile device when the mobile device is connected to the synchronous network.

Abstract: A method for processing user location information based on non-periodic update includes at least: requesting installation of a location processing agent controlling a location measurement sensor from the at least one location information providing terminal; receiving a request for approval of at least one location information providing terminal from a location information requesting terminal and providing a link message accepting the approval request of the at least one location information providing terminal; if a request for location of a specific location information providing terminal is received from the location information requesting terminal, requesting the corresponding location information from the corresponding location processing agent; and if the location measurement sensor is successfully controlled by the corresponding location processing agent, receiving location information of the specific location information providing terminal from the corresponding location processing agent.

Abstract: The proliferation of networked, wireless-enabled devices is challenged by the reliance upon password management and user knowledge of privacy and security techniques to maintain control over data that is personal, proprietary or restricted. This disclosure enables a geo-proximity security and privacy system for assuring control and non-repudiation for wireless-enabled devices by relying upon location and trusted network relationships among a set of wireless-enabled devices, where one or more devices may act as a control or master key. Security in a digital society may be benefited by the establishment of digital walls that are as flexible as the world of cyberspace to be erected whenever and wherever wireless-enabled technology is in use. The security protocol may be configured to secure a protected device or the data they contain from loss, theft, abuse or misuse.

Abstract: A node of a communication network determines a hash-based sketch. The sketch may for example correspond to a Count-Min (CM) sketch. The sketch summarizes a number of occurrence of an event for a group of UEs. Further, the node receives information representing the number of occurrence of the event for said group of UEs from one or more further nodes of the communication network, e.g., in a further hash-based sketch. The node updates the sketch with the information received from the further and provides the updated sketch to the further nodes.

Abstract: The present disclosure generally relates to techniques for implementing location based device services. Techniques are described for enabling registration of a device to a server system and providing access to the registered devices via a universal application. In certain embodiments, the universal application may receive, from an end user, one or more location based search parameters for a registered device. The universal application may determine registered devices that satisfy the one or more location based search parameters. In some embodiments, service attributes can also be input when searching for a registered device. In addition, some embodiments determine a device application associated with the registered device and a corresponding device application can be launched upon selected of a registered device.

Abstract: Maintaining point of interest (POI) data using wireless access points (WAPs) includes correlating, using a processor, a WAP with a POI from a POI data store according to a network name and a location of the WAP and a name and a location of the POI. The POI data is updated according to the correlating.

Abstract: Provided is an enhanced LPP transport that may improve performance where a sender or receiver of messages processes certain messages that include requests to abort transactions or sessions, or processes certain messages that might otherwise result in the sending of abort messages. Embodiments may reduce unwanted system actions such as, for example, the unwanted termination of a transaction or session, or the unnecessary use of system resources.

Abstract: A method of a ranging and positioning with sensor STA/neighbor AP is proposed. An initiating wireless device establishes an FTM procedure with a responding wireless device in an indoor wireless local area network. The initiating device exchanges FTM frames with the responding device and thereby receiving a first set of timestamps from the responding device. The initiating device receives a second set of timestamps associated with the exchanged FTM frames from one or more listening devices. Finally, the initiating device determines location information from the first and the second set of timestamps.

Abstract: An improved connectivity to radio access point is enabled by a server that includes a database storing data about various radio access points, and an evaluation module evaluating the quality of connection to each of the access points. Clients receive updates about relevant access points from the server and use the information to connect to the preferred access point. The clients also check connectivity to other access points in the vicinity, and report the findings to the server. The server uses the reports to update its database, and send corresponding updates to the clients.

Abstract: It is an object to provide a wireless characteristic display apparatus that displays wireless characteristics at a location where a multihop wireless mesh network is to be created, the apparatus being able to reduce discrepancies between displayed characteristics and actual characteristics and being able to reduce complexity in processing to obtain wireless characteristics and in the configuration of the apparatus.

Abstract: Methods, systems, and devices for wireless communication are described. A base station may receive a first measurement report from a user equipment (UE) that includes an indication of a measurement parameter associated with a first beamformed reference signal. The base station may receive additional measurement reports from the UE for additional base stations. The additional measurement reports may include an indication of measurement parameters associated with additional beamformed reference signals transmitted by the additional base stations. The base station may identify a location of the UE based on the first measurement report and the additional measurement report. Alternatively, the UE may transmit multiple beamformed sounding reference signals to multiple base stations, and a single base station may identify a location of the UE based on multiple reports collected from the multiple base stations.

Abstract: A location-aware device detects if a personal or point of interest region has been entered or exited and a current context of the device. In response, an operating mode is selected based on the region and a current context of the device. The operating mode is configurable by a user, including setting geofence parameters, context parameters and operating mode parameters.

Abstract: A measurement object of which a terminal device takes a measurement is selected based on information of whether or not the measurement object included in a measurement configuration message notified by a base station device includes a parameter for a gap configuration or for a cell identification time configuration for small-cell measurement, and receiving power of a cell in which the terminal device itself is present.

Abstract: A wireless communication apparatus is provided that performs wireless communication using a specified wireless channel and forms part of an ad hoc wireless network. The device includes a recording portion that records country ID information. and recording-time information in to a storage medium, where the recording-time information indicates the time at which the country ID information was recorded in to the storage medium, a time determination portion that uses the recording-time information to determine whether a predetermined time period has elapsed from the time at which the country ID information was recorded, and a channel setting portion that, when the predetermined time period has not elapsed from the time at which the country ID information was recorded in the storage medium, sets a wireless channel to a frequency channel that can be used in the country indicated by the country ID information recorded in the storage medium.

Abstract: A method includes receiving information indicative of a user input, from a user, that designates a subset of contacts from a contact list or social network friend's list as a spatial avoidance list, determining an intended user location, determining a set of spatial avoidance locations such that each spatial avoidance location of the set of spatial avoidance locations corresponds with a contact location of each contact of the spatial avoidance contact list, determining that the intended user location corresponds with at least one spatial avoidance location of the set of spatial avoidance locations, and determining a different intended user location based, at least in part, on the determination that the intended user location corresponds with at least one spatial avoidance location of the set of spatial avoidance locations, such that the different intended user location fails to correspond with any spatial avoidance location of the set of spatial avoidance locations.

Abstract: Various embodiments pertain to techniques that utilize data obtained from various sensors and sources of information on a mobile device to determine a profile to be applied to the mobile device. Data obtained from various sensors and sources of information on the mobile device can include real-time data from hardware sensors or receivers on the mobile device, local device data, and remote data available via a wireless connection. Applying the profile to the mobile device can include adjusting various parameters, such as ringtone tune, ringtone volume, call filtering, call forwarding, and message notification. In various embodiments, data is obtained and analyzed to determine a profile category for the user. In some embodiments, different types of data can be weighted differently, and data that is more personal can have a higher relative importance when compared to data that is less personal.

Abstract: A method for enabling intelligence at the edge. Features include: triggering by sensor data in a software layer hosted on either a gateway device or an embedded system. Software layer is connected to a local-area network. A repository of services, applications, and data processing engines is made accessible by the software layer. Matching the sensor data with semantic descriptions of occurrence of specific conditions through an expression language made available by the software layer. Automatic discovery of pattern events by continuously executing expressions. Intelligently composing services and applications across the gateway device and embedded systems across the network managed by the software layer for chaining applications and analytics expressions. Optimizing the layout of the applications and analytics based on resource availability. Monitoring the health of the software layer. Storing of raw sensor data or results of expressions in a local time-series database or cloud storage.

Abstract: Some demonstrative embodiments include apparatuses, systems and/or methods of Fine Timing Measurement (FTM). For example, an apparatus may include circuitry and logic configured to cause an initiator station to process an FTM message received from a responder station, the first FTM message comprising a first field comprising a first Message Authentication Code (MAC); to process a second FTM message comprising the first field, a second field, and an FTM time value corresponding to the first FTM message, the first field comprising a second MAC, and the second field comprising the first MAC; and to determine whether or not to use the FTM time value for an FTM measurement, based on an authentication of the responder station according to the second MAC.

Abstract: Systems and methods for determining a location of a wireless device are disclosed. In one embodiment, a method of operation of a central processing node for a shared cell of a cellular communications network includes obtaining signal strength measurements for a signal received from a wireless device at multiple Reception/Transmission (R/T) points in the shared cell. The signal strength measurements are simultaneous signal strength measurements made on signal discrimination space resources in an uplink of the shared cell. Further, the signal discrimination space resources are matched to capabilities of power meters utilized to generate the signal strength measurements. The method further includes identifying one or more of the R/T points having the best signal strength measurements and estimating a location of the wireless device based on known locations of the identified R/T point(s).

Abstract: Embodiments of a communication station and method for transmission power control for Time-of-Flight (ToF) measurements in a wireless network are generally described herein. A protocol for fine timing measurements (FTMs) optimizes location performance rather than Wi-Fi coverage area and bit error rate by limiting an allowed maximum power and hence, EVM. A user equipment (UE) comprises a transceiver configured to receive, from an initiating station, a fine timing measurement request (FTMR) message at a maximum transmit power and lowest modulation and coding scheme (MCS), measure a relative received signal strength (RSSI) for the received FTMR message, determine a maximum transmit power, where the maximum transmit power is proportional to the measured RSSI; and transmit, to the initiating station, a fine timing measurement 1 (FTM1) message at the determined maximum transmit power and received lowest MCS.

Abstract: Embodiments for performing access point position determination using crowd sourcing are generally described herein. In some embodiments, a range report request is received, by at least one mobile device, from a network entity for determining a position of a plurality of access points (APs). The at least one mobile device performs range measurements on each of the plurality of APs at different locations. A range report associated with the range measurements performed on each of the plurality of APs is sent to the network entity by the at least one mobile device.