Abstract: A method and a system are provided which are able to utilize indirect paths of signals of UWB type to locate a wireless communication node possessed by a body. The present method and system can notably apply to cooperative body networks implementing several wireless nodes able to communicate with one another.

Abstract: A method for determining a location of a group of wireless tags, the method may include receiving first information indicative of distances between each wireless tag of the group and between at least three other wireless tags of the group; tracking a first movement of a certain tag of the group of wireless tag in relation to other wireless tags of the group to provide first movement information; receiving, after the performing of the first movement, second information indicative of distances between each wireless tag of the group and between at least three other wireless tags of the group; and determining locations of the wireless tags of the group in response to the first information, second information and the first movement information.

Abstract: A computer-implemented application program comprises various graphic user interfaces to facilitate the formation of a physical meeting between people. A computer-readable storage medium comprises instructions to implement the computer-implemented application program.

Abstract: Techniques for detecting and dealing with a lost electronics device are disclosed. In one design, the device may autonomously determine whether it is lost. The device may destroy at least one component to render it inoperable and may perform other actions in response to determining that it is lost. In another design, the device may determine available battery power of the device upon determining that it is lost, select at least one action in a list of possible actions based on the available battery power, and perform the selected action(s). In yet another design, upon determining that it is lost, the device may prevent access to information on the device based on a secondary security key, which is not used for encrypting information during normal operation. In yet another design, the device may notify at least one contact and may perform at least one additional action upon determining that it is lost.

Abstract: A collision sensor assembly is attachable to a stationary structure such as a pallet rack, a door frame, the corner of a wall, or the like. The collision sensor is configured to sense when a collision occurs with the stationary structure such as when a piece of movable machinery contacts the stationary structure. The collision sensor assembly includes a sensor operatively connected to a processor which determines when a collision occurs, and produces a signal to an output signal generator to provide an external indication of the collision.

Abstract: A device and software utilizing Global Positioning Satellite (GPS) technologies for monitoring and recovering portable computing devices and, a method and system for acquiring such devices, protecting data on such devices, and for compensating owners of devices. A GPS mechanism of the invention provides real time tracking of missing devices that may be coordinated with security agencies to intercept and recover missing computing devices. When a stolen device is unrecoverable, the invention may receive a signal to initiate data recovery where a wireless network is available to recover data for the owner. Alternatively, the GPS mechanism instructs the device to encrypt or destroy stored data files to prevent commercial espionage or privacy violations. The invention discloses a software system and method for computing a purchase price of the GPS mechanism, computing compensation for loss of the device and lost data.

Abstract: A mobile client device or the like stores a library of potential points of interest that are pre-transferred to the mobile device by the system. The system identifies a normal commerce range and transfers information relating to potential points of interest based on the normal commerce range of the user. By accessing the library of points of interest stored on the mobile client device, network roundtrips between the device and server can be minimized, thereby enhancing performance characteristics of the mobile client device.

Abstract: A distance between a host communication device and a mobile target communication device at multiple times over a time period based on a received signal emitted by the mobile target communication device. An amount of time that the distance between the host communication device and the mobile target communication device is within a distance threshold is also determined. A determination is further made whether the amount of time the distance between the host communication device and the mobile target communication device is within the distance threshold is less than a predetermined amount of time. If the amount of time that the distance between the host communication device and the mobile target communication device is within the distance threshold is less than the predetermined amount of time, transmission of a notification to a third party is initiated via a gateway.

Abstract: In a wireless positioning apparatus mounted in a moving body, feature point position information is stored in a reference trajectory storage, a reception state of transmitted waves from a wireless transmitter is detected, and a movement distance of the moving body is measured. A positioning trajectory is generated that indicates a correspondence relationship between the movement distance and the reception state of transmitted waves. A coincidence distribution is generated that indicates a correspondence between: a point on the reference trajectory to which a representative position, set arbitrarily within the positioning trajectory, corresponds for each coordinate shift value; and the degree of coincidence between the reference trajectory and the positioning trajectory. Based on the coincidence distribution, positioning information is generated. Reliability is determined based on an evaluation value reflecting a flatness of the coincidence distribution.

Abstract: A system and method for providing a communications link between an owner of a lost article and a person that finds the lost article. The method includes detecting at a communication device of the person that finds the lost article, a beaconing signal generated by an electronic beacon device when the communication device is in proximity of the communication device. The beaconing signal is associated with an owner of the electronic beacon device. The communication device may transmit, to a server, location information and identification information inherent within the beaconing signal. The server may return one or more communication options enabling a user of the communication device to contact the owner of the electronic beacon device. Such communication options may comprise, for example, voice communication, video communication or communication via text message. In one embodiment the communication options enable communication to occur while maintaining the anonymity of the owner.

Abstract: Traffic and signaling are routed between a set of networked femto access points (APs) and location-based services are enabled. A femto AP in the set of femto APs is functionally linked to a routing platform that manages traffic and signaling, and is functionally connected to a controller component that relays at least part of data and control to a femto network platform. The femto network platform allows access to one or more external networks. Routing platform can exchange signaling with one or more femto APs to enable, at least in part, location-based services based at least in part on identifier(s) for a femto AP, access privileges, or time-of-flight measurements that assess propagation timing between a mobile device and a femto AP. Routing platform can supply timing configuration to enable predetermined spatial resolution of location estimates. Location estimates can be recorded and conveyed to a consumer layer.

Abstract: A device and software utilizing Global Positioning Satellite (GPS) technologies for monitoring and recovering portable computing devices and, a method and system for acquiring such devices, protecting data on such devices, and for compensating owners of devices. A GPS mechanism of the invention provides real time tracking of missing devices that may be coordinated with security agencies to intercept and recover missing computing devices. When a stolen device is unrecoverable, the invention may receive a signal to initiate data recovery where a wireless network is available to recover data for the owner. Alternatively, the GPS mechanism instructs the device to encrypt or destroy stored data files to prevent commercial espionage or privacy violations. The invention discloses a software system and method for computing a purchase price of the GPS mechanism, computing compensation for loss of the device and lost data.

Abstract: A system and method for enabling low-powered RFID communication that includes at an RFID tag listening for a periodic signal containing beacon signals; synchronizing the internal clock to those beacon signals; identifying access points from the beacon signals; selecting an access point; sending a join request to the access point; identifying the tag to the access point; receiving an assigned time slot; and communicating with the access point in that time slot.

Abstract: Methods and systems for providing and obtaining a geo-fence without a network download are disclosed. An embodiment generates geo-fence parameters and encodes the geo-fence parameters on a portable storage media, wherein the geo-fence parameters are transferred to a location-enabled mobile device when the location-enabled mobile device scans the portable storage media. An embodiment scans, by a location-enabled mobile device, a portable storage media, wherein the portable storage media stores geo-fence parameters, and wherein scanning the portable storage media transfers the geo-fence parameters to the location-enabled mobile device. An embodiment includes a non-transitory portable storage media comprising geo-fence parameters, including a perimeter of a geo-fence and one or more alert conditions associated with the perimeter of the geo-fence, wherein scanning the portable storage media transfers the geo-fence parameters to a location-enabled mobile device.

Abstract: Methods and apparatus are directed to geofencing-related heuristics for computing devices. A computing device with a plurality of sensors can receive a plurality of heuristics. Each heuristic can be configured to generate command(s) for the sensors based on one or more heuristic inputs. The heuristic input(s) can include an input related to a geofence. The computing device can receive a plurality of signals from the sensors. The computing device can determine, based on the plurality of signals, an activity class for the computing device. The activity class can specify an activity associated with the computing device. The computing device can select a heuristic from the plurality of heuristics at least based on the activity class. The computing device can execute the selected heuristic to generate the command(s) for the sensors.

Abstract: Method for tracking and analysis of a mobile entity. In some embodiments a multi-dimensional geophysical area is divided into a first layer of zones each encompassing a contiguous portion of the geophysical area and having at least one rule. Geoposition values from a sensor associated with a mobile entity are accumulated in a memory. The accumulated geoposition values are used to identify an associated zone from the first layer of zones in which the mobile entity is located and the at least one rule assigned to the associated zone is applied. A second layer zone is subsequently generated in response to an input signal. The second layer zone overlays at least a portion of one zone in the first layer and expands over time. An alarm limit is output in response to a subsequently accumulated geoposition value from the sensor indicating the mobile entity is in the second layer zone.

Abstract: The present invention is a fan networking system (FNS), available through a software application, executing on fans' portable smart devices for an event to be held in a venue. A FNS may offer event-customized services to fans, such as messaging, fan groups, mementos, coupons, “friends”, and contests. The level of services might depend on whether a fan is attending; timing (pre-, during, post-performance); for a competitive event, whether the fan affiliates with the home or away team; and the category of fan (e.g., audience, management, performer). Determination of whether a fan is attending may be done with geolocation services, e.g., through GPS. A fan might need to remain within the venue for some period of time to qualify as attending. Services to attending fans may extend for a period beyond the event itself.

Abstract: Described are systems and methods for acquiring three-dimensional location information. Also described are systems and methods for using the acquired three-dimension location information to locate users and enhance their experience in relation to location-based services.

Abstract: An apparatus and method for estimating the direction of an RF signal is provided. The apparatus includes an antenna for receiving an RF signal. An electronic compass is configured to, as a pointing direction of the antenna is varied, generate information about pointing directions and pointing angles corresponding to variations in the pointing direction of the antenna. A control unit determines RSSI values at respective pointing angles of the antenna based on a received signal of the antenna and information of the electronic compass depending on the variations, extracts a maximum RSSI value from the RSSI values at respective pointing angles, and stores the maximum RSSI value and a pointing direction corresponding to the maximum RSSI value. A display unit displays the RSSI values at the respective pointing angles and a trajectory of the RSSI values at respective pointing angles under control of the control unit.

Abstract: A method for reducing power consumption by a wireless communication device is disclosed. The method can include the wireless communication device performing a first measurement of an alternative cell during a first measurement gap; sending a first measurement report generated based on the first measurement to the serving cell; storing the first measurement report; determining a mobility state of the wireless communication device; comparing the mobility state to a mobility threshold criterion; resending the first measurement report to the serving network as a report for a second measurement gap in an instance in which the mobility state satisfies the mobility criterion; and performing a second measurement of the alternative cell during the second measurement gap and sending a second measurement report generated based on the second measurement to the serving cell in an instance in which the mobility state does not satisfy the mobility threshold criterion.

Abstract: Provided is a terminal including: an information extraction unit that extracts location information which is designated as a destination point; a display unit to which a graphic image for receiving a control command for displaying a source of the location information, and the extracted location information are output together; and a controller that controls the display unit in such a manner that a guide screen for guiding a path to the destination point that is selected by a user from among the pieces of location information.

Abstract: In exemplary embodiments in the present disclosure a method in a first Network Node for measuring network characteristics using a performance measuring protocol is defined. The method comprises receiving a message, extracting a network address of a second network node from said message, and storing said network address of said second network node. The method further comprises setting up a session for measuring network characteristics using said performance measuring protocol between said first network node and said second network node utilizing said network address.

Abstract: A system displays a map of a geographic area and an icon on a device associated with a first user. The icon represents a second user. The system further displays an indication on the device associated with the first user. The indication represents an area of the map displayed on a device associated with the second user. The system can further display a list of users on the device of the first user. The users on the list have devices associated with them and the devices associated with the users on the list display at least a portion of the map of the geographic area. The system receives input from the first user selecting a user from the list, and displays on the device associated with the first user the portion of the map of the geographic area that is displayed on the device associated with the user selected from the list.

Abstract: The various aspects are directed to automatic device-to-device connection control. An aspect extracts a first sound signature, wherein the extracting the first sound signature comprises extracting a sound signature from a sound signal emanating from a certain direction, receives a second sound signature from a peer device, compares the first sound signature to the second sound signature, and pairs with the peer device. An aspect extracts a first sound signature, wherein the extracting the first sound signature comprises extracting a sound signature from a sound signal emanating from a certain direction, sends the first sound signature to a peer device, and pairs with the peer device. An aspect detects a beacon sound signal, wherein the beacon sound signal is detected from a certain direction, extracts a code embedded in the beacon sound signal, and pairs with a peer device.

Abstract: Systems and methods including a mobile device determining the coordinates of its location using a location determination system, such as a global positioning system. A database stores the identifiers of cells representative of predefined regions in a hierarchical grid system. A server computer or the mobile device converts the coordinates of the location to one or more cell identifiers at different grid resolution levels and searches the database to find a match between the cell identifiers representing the regions and the cell identifiers representing the location of the mobile device to determine one or more regions in which the mobile device is located. For example, the hierarchical grid system can be constructed in a longitude latitude space of location coordinates, with resolution levels aligned with decimal precision levels of the location coordinates; and the cell identifiers can be constructed from the digits of the longitude and latitude coordinates.

Abstract: A method of scheduling alerts based on location-based reminders and calendar events includes receiving, at one or more computing devices, a location-based reminder including a reminder location having a reminder proximity level. The method further includes receiving, at the one or more computing devices, a calendar event including a calendar event location and a calendar event duration. If the reminder location matches the calendar event location based on the reminder proximity level and the calendar event duration, the method further includes determining, using the one or more computing devices, a time to provide an alert.

Abstract: Disclosed is a network for determining when a device undergoes potentially damaging motion. The device runs application software that causes a device processor to interrogate at least an accelerometer to determine if a motion threshold that signals potentially damaging motion may have occurred is exceeded. If the threshold is exceeded the device sends motion information to a central server for further processing. The central server processes the motion information to determine if the device underwent potentially damaging motion. If it has, the central server sends an appropriate notification that the device underwent potentially damaging motion.

Abstract: Systems, methods, computer-readable storage mediums including computer-readable instructions and/or circuitry for control of transmission to a target device with communicating with one or more sensors in an ad-hoc sensor network may implement operations including, but not limited to: wirelessly transmitting one or more sensor operation activation signals to one or more sensors according to one or more transmission authorization parameters; and powering one or more sensing operations of a sensor via the one or more sensor operation activation signals.

Abstract: Presented are a method, apparatus, and computer-readable medium for aiding emergency response. The method includes receiving, by a processor, a plurality of data corresponding to a geographic location from a plurality of data sources. The method further includes aggregating, by the processor, the plurality of data. The method still further includes determining, by the processor, a first profile and a second profile based on the aggregated plurality of data. The method can conclude with transmitting, by the processor, the first profile to a plurality of user equipments and the second profile to at least one user equipment, wherein the at least one user equipment is different from the plurality of user equipments.

Abstract: An apparatus for indicating the location of a signal emitting tag. The apparatus includes signal detectors, control logic, and at least one light producing device. The control logic activates the light producing device in response to receiving data from the signal detectors. After activation, the light producing device illuminates the location of an individual that is near the point of origin of a signal that was detected by the signal detectors.

Abstract: The location of an electronic device can be tracked and updated in order to provide a user of the device accurate directions from the user's current location to a target location, for various types of environments. Upon detecting a trigger (e.g., detecting a QR code or detecting an access point signal), an example device can switch from using a first type of positioning element (e.g., GPS) to a second type of positioning element (e.g., using accelerometers, QR codes, etc.) in determining the user's current location. By using the appropriate type of positioning element for each environment, the device may determine the user's current location more accurately. The device may provide an overlay (e.g., arrows) for displaying the directions over images captured from the user's surroundings to provide a more realistic and intuitive experience for the user.

Abstract: Embodiments of the present invention disclose a method for processing user information, a mobile terminal, and a server. The method includes: collecting, by a mobile terminal, terminal information; obtaining prior probability information of different types of user activities at current time and in the position; and recognizing or forecasting, according to the prior probability information and the terminal information, an activity of a terminal user using the mobile terminal. In the embodiments of the present invention, during the recognition or the forecast, the number of data samples increases, and therefore accuracy of the recognition or the forecast is improved; in addition, a difference between information that is pushed to the terminal user by applying a recognition or forecast result in the embodiments of the present invention and information in which the user is interested is comparatively small, and therefore terminal using experience of the user can be improved.

Abstract: A method and a device for controlling and/or monitoring a plurality of racing vehicles on a racetrack which are controlled by participants in a race is disclosed. Each racing vehicle provided with one vehicle memory in which vehicle data which are read out from a receiving/reading device assigned to the racetrack are stored in a database. Each participant in the race is provided with separate a participant memory in which participant data is stored, the participant data being read out from a receiving/reading device and stored in the database in which the vehicle data are also stored. The vehicle data and participant data which are stored in the database are assigned to one another. The vehicle data and participant data are read and the assignment of the vehicle data which are read with the participant data which are read is compared with the assignment which was previously assigned.

Abstract: An apparatus for indicating the location of a signal emitting tag. The apparatus includes signal detectors, control logic, and at least one light producing device. The control logic activates the light producing device in response to receiving data from the signal detectors. After activation, the light producing device illuminates the location of an individual that is near the point of origin of a signal that was detected by the signal detectors.

Abstract: A low power method for determining whether a cargo destined for air transport is in a flying state having the steps of: providing a housing for attachment to a cargo the housing having: an accelerometer for detecting a linear acceleration, a gyroscope for detecting an angular rate, a controller measuring a linear acceleration with the accelerometer, measuring an angular rate with the gyroscope, providing the measured linear acceleration and angular rate to the controller, and generating a flight status output signal indicating whether the housing is in a flying state as a function of the linear acceleration signal and angular rate signal.

Abstract: In one embodiment, a method is performed by a computer system. The method includes providing a performance-monitoring platform as a service, the performance-monitoring platform comprising at least one agent manager. The method further includes facilitating creation of a customized performance-monitoring application, the performance-monitoring application comprising an agent and at least one user dashboard. The agent is configured to collect performance data related to a specified monitored resource. The agent parses the collected performance data to a monitoring server for storage according to at least one standard data model. The at least one user dashboard allows users to view information related to the collected performance data. The facilitating includes configuring deployment attributes of the customized performance-monitoring application responsive to developer input. Moreover, the method includes deploying the customized performance-monitoring application on the performance-monitoring platform.

Abstract: Systems and methods for receiving a notification related to a predicted future geographic location of a mobile device are provided. In some aspects, a plurality of geographic locations of the mobile device are determined. A speed for the mobile device is determined based on at least a subset of the plurality of geographic locations and associated timestamps. A future geographic location of the mobile device is predicted based on the speed and at least one geographic location from among the plurality of geographic locations. A representation of the predicted future geographic location of the mobile device is provided to a server. In response to the provided representation of the predicted future geographic location of the mobile device, a notification related to a point of interest associated with the predicted future geographic location of the mobile device is received from the server.

Abstract: A system for tracking the location of an object in an area having a plurality of electronic devices, connected via a network through a variety of communication protocols, comprises a location server in communication with the network and each of the plurality of electronic devices. Each of the electronic devices is associated with a last-known device location within the area that is stored in the location server. An electronic tag that is fixed with the object has a control circuit that enables wireless communication with the network both through any of the electronic devices and through any of the variety of communication protocols. The control circuit maintains at least periodic contact and GPS location reporting with the location server through the network, preferably through one of the electronic devices designated as the owner device, or any of the other electronic devices.

Abstract: A security system for monitoring a shipping container being transported on a cargo transport vehicle and methods for making and using same. A mounting device removably couples a container security device (CSD) to the cargo container. Monitoring cargo inside the container and detecting vehicle intrusions and container damage, the CSD includes an anti-tamper sensor, a microcontroller, a communication device, and a plurality of accelerometers and strain gages. The microcontroller generates an alarm signal based on output data from the anti-tamper sensor and records container events. The anti-temper sensor undergoes individual and integrated sensor processing procedures; whereas, the integrated sensor processing procedure determines a container alert status. The accelerometers and strain gages define a moment of inertia of the cargo container.

Abstract: Apparatus, systems and methods are described for outputting audible or visual indicators via a remote control for a controlled device. A remote control queries an associated controlled device for information. The controlled device generates a request for the remote control to activate an audio or visual indicator. The request is integrated with a response to the query that is transmitted to the remote control. The remote control outputs an audio or visual indicator responsive to the request.

Abstract: In an embodiment, a system receives mobile device data from a plurality of mobile devices. The system compares the mobile device data with cartographic data representing a structure and determines a structure access characteristic based on the comparison. The structure access characteristic may be the location of an entrance or exit to the structure. The structure access characteristic may also be a structure access type, a structure access status, a structure access schedule, or any other structure access characteristic.

Abstract: Disclosed are systems, methods, and non-transitory computer-readable storage media for setting a reminder triggered by a target device. A requesting device sends a request to a server to set a reminder triggered by a target device. The request includes parameters, such as a location and a condition that define when the reminder is triggered. The server sends instruction to the target device to set the reminder based on the parameters. When the condition such as arrival is met by the target device in relation to the location the target device sends a message to the server that the reminder has been triggered. The target device can set a geo-fence to determine the position of the target device in relation to the location, and the requesting user can dictate the size of the geo-fence. The server sends a notification to the requesting device that the reminder has been triggered.

Abstract: A method in a first radio network node for handling position measurements is provided. The first radio network node receives from a second radio network node a position measurement associated with a user equipment, and a system frame number. The system frame number is associated with the second radio network node. The system frame number is further related to a point in time when the position measurement was performed. The first radio network node calculates a position estimate of the position of the user equipment based on the position measurement. The first radio network node defines a time stamp which is based on the received system frame number. The first radio network node then signals to a third radio network node a positioning response. The positioning response comprises the position estimate and the time stamp.

Abstract: A signaling system is provided for rendering an alarm for an individual in distress combined with a locating and tracking system to thus alert and direct appropriate personnel to the needs of the individual in distress and to monitor the location of that individual. The system comprises a portable signaling unit, a remote alarm switch device, a central dispatch station, and makes use of a wireless communication system. The portable signaling unit and the remote alarm switch may be adapted to be worn at different locations on the person's body. The remote alarm switch way be concealed in the form of a wristband or in the form of any other object such as a broach, pendant, or keychain.

Abstract: Novel tools and techniques for generating survey data about a survey site. Aerial photography of at least part of the survey site can be analyzed using photogrammetric techniques. In some cases, an unmanned aerial system can be used to collect site imagery. The use of a UAS can reduce the fiscal and chronological cost of a survey, compared to the use of other types aerial imagery and/or conventional terrestrial surveying techniques used alone.

Abstract: Wireless communication devices and systems are disclosed which provides for simple yet effective communications between co-workers in areas of high ambient noise. Devices are provided which are operable to use vibration to provide an alert to a wearer of the device, the device including a transmitter/receiver unit, a transmit button operably connected to the transmitter/receiver unit and at least one vibration device operably connected to the transmitter/receiver unit. The device may be positioned inside or on a hard hat or other headgear of a worker.

Abstract: A device control system provided herein includes: a reservation unit that receives inputs of location identification information, a use date/time, and user identification information and makes a reservation so that a user can use a location and a device disposed at the location at the use date/time; a determination unit that acquires user position information and location position information and determines whether or not a predetermined relationship is established between the position of the user and position of the location within a first time period before start of the use date/time; a control information generation unit that acquires device information including at least device identification information for identifying the device on a network and uses the acquired device information to generate control information for controlling operation of the device; and a device control unit that controls operation of the device using the control information when the predetermined relationship is established.

Abstract: The claimed subject matter provides a method for publishing location information. The method includes receiving the location information from an entity. The entity may be associated with a geographic location. The method further includes identifying one or more entities to be notified of the location information. Additionally, the method includes sending the location information to the identified entities.

Abstract: It is disclosed a method, an apparatus and a computer program for monitoring, for a position of a set of one or more positions that are associated with a coverage area of a communication node, if a report comprising a position associated with said coverage area of said communication node and lying in a defined environment of said position for which said monitoring is performed is received as a validation of said position for which said monitoring is performed.

Abstract: A system and method for providing communication with a tracking device are disclosed. An example tracking device includes a location detector, a communication device, memory, a processor, and a configuration routine. The location detector is operative to determine locations of the tracking device. The communication device is operative to communicate with a remote system. The memory stores data and code, the data including location data determined by the location detector and configuration data. The processor is operative to execute the code to impart functionality to the tracking device. The functionality of the tracking device depends at least in part on the configuration data. The configuration routine is operative to modify the configuration data responsive to communications from the remote system. Thus, functional access to the tracking device is provided to the remote system.