First information corresponding to a radio signal received at a first sensing device from a candidate location is obtained. Second information corresponding to a radio signal received at a second sensing device from the candidate location is obtained. A first relationship between the first sensing device and the candidate location and a second relationship between the second sensing device and the candidate location are determined. A first inverse and a second inverse of respectively the first and second relationships are obtained. A first estimate of the radio signal at the first sensing device is determined from the first information and the first inverse. A second estimate of the radio signal at the second sensing device is determined from the second information and the second inverse. Energy emitted from the candidate location is measured based on the first estimate and the second estimate.

Systems, methods, and computer readable media that determine a location of a device using multi-source geolocation data, where the methods include accessing new location data from a location source of a plurality of location sources, where the new location data includes a new position and an accuracy of the new position, and determining a current position and an accuracy of the current position based on the new position, the accuracy of the new position, an previous current position, and an accuracy of the previous current position. The method further includes determining a change in location based on a difference between the current position and the previous current position. Some systems, methods, and computer readable media are directed to scheduling location requests to generate location data where the scheduling and the actual requests are made based on a number of conditions.

Methods, systems, and computer program products for a mobile device determining its location based on a location of a companion device are described. A mobile device can receive a request for determining a location of the mobile device from an application. The request can include an accuracy specification providing a lower limit on accuracy of the determined location. The mobile device can determine that the mobile device is incapable of achieving that accuracy. The mobile device can then submit a location request to a companion device that has paired with the mobile device. The companion device, upon receiving the location request, can determine a location of the companion device and provide the location of the companion device to the mobile device. The mobile device can then designate the location of the companion device as the location of the mobile device, and provide the location to the application.

The present invention relates to a method for positioning multiple user equipments (UEs) by a base station in a wireless communication system supporting full-duplex communication and an apparatus therefor. More specifically, the present invention comprises: setting a unit distance on the basis of the magnitude of inter-device interference (IDI) with respect to a first UE; and establishing multiple boundaries around each of the multiple UEs and the base station according to relative distances on the basis of the unit distance and checking whether the boundaries overlap each other. Here, the relative distances indicate with respect to the multiple UEs, measured on the basis of the magnitude of inter-device interference (IDI).

A method, apparatus and computer program product are provided to estimate the reference position associated with fingerprint data by selectively utilizing an online positioning system. In the context of a method and in an instance in which a global navigation satellite system is available for location determination, the method determines the location of a data collection device in conjunction with the collection of fingerprint data. In this instance, the location is determined based upon information provided by the global navigation satellite system. However, in an instance in which the global navigation satellite system is unavailable for location determination, the method provides, via a computer network, an online positioning system with at least some fingerprint data collected by the data collection device. In this instance, the method also determines the location of the data collection device in conjunction with the fingerprint data based upon information provided by the online positioning system.

A system and a method in which image-capturing is effected automatically or manually. When a user-carried mobile terminal receives a near field wireless signal from a near field wireless signal transmitting station installed in an image-capturing field area, it is determined that a user is present within the image-capturing field of the externally installed image-capturing device and the user-carried communication terminal transmits automatically or manually an image-capturing request to the externally installed image-capturing device. In response, the externally installed image-capturing device effects image-capturing and then transmits the obtained image to an image server. After transmission of the image-capturing request, the user-carried mobile communication terminal makes a downloading request to the image server and effects downloading via a network and the downloaded data is automatically stored within the user-carried mobile communication terminal.

A remote keyless system for a vehicle includes a plurality of slave transmitter modules arranged in a plurality of locations in the vehicle. A master transceiver module is configured to pair with a wireless device; wirelessly transmit data to and receive data from the wireless device; transmit first wired messages to the plurality of slave transmitter modules to send first wireless messages to the wireless device; receive a plurality of second wireless messages directly from the wireless device, wherein the second wireless messages comprise data including received signal strength indicators (RSSIs) corresponding to each of the plurality of slave transmitter modules, respectively; and determine a location of the wireless device relative to the vehicle based on the RSSIs in the plurality of second wireless messages.

A method and system for providing location services at a network edge is described. An AP can receive location information associated with a second AP in a location group. The AP can also receive client location data from the second AP and associated with a first client. From at least the received client location data, the AP can determine a location of the first client. The AP can then send the location of the first client to a location service.

In a position estimation of a terminal using a beacon, the precision is improved by reducing influences of noise due to moving obstacles such as human so that a beacon region can be easily and flexibly constituted. According to a typical embodiment, a portable terminal includes a location determination unit that acquires beacon information including a reception intensity of each of beacon signals received from one or more of the beacon terminals, accumulates history data as beacon detection information, acquires a plurality of pieces of the beacon information accumulated as the beacon detection information and contained within a past predetermined period at every predetermined interval, aggregates the beacon information by scoring, and determines the beacon terminal located most closely based upon scores.

Techniques are provided which may be implemented using various methods and/or apparatuses in a mobile device to perform a distance travelled estimate with a mobile device. The distance travelled estimate is performed by determining a quality of displacement between a base position and each new position for the mobile device, which is determined based on the displacement between the positions and their associated uncertainties. If the quality of displacement is sufficient, the distance travelled estimate is updated using the displacement between the positions. Multiple tiers may be used, where, for example, if the quality of displacement is sufficiently high, the displacement associated with a preceding position may be excised from the distance travelled estimate and replaced with the displacement associated with the new position. Additionally, if the quality of displacement is even greater, the new position may be set as the base position.