A method, according to one embodiment, includes receiving, by a mobile device, a request for a home page from a user; ascertaining, by the mobile device, a location of the mobile device; sending, by the mobile device, the location and a request for content for the home page; receiving, by the mobile device, content relating to the location from a system of a provider of the content via a wireless network; and outputting, by the mobile device, the content from the system of the provider on a display of the mobile device in a layout specified by the provider.

A power control method and apparatus and a terminal device are disclosed, which pertain to the field of communication technologies. The power control method of this application includes: obtaining a first path loss, where the first path loss is determined based on at least one of a sidelink SL path loss or a downlink DL path loss; and controlling a transmit power of a target transmission on a sidelink based on the first path loss.

At least one hardware processor (111) in a wireless access point (110) in a first local network (120) managed by the wireless access point (110) routes traffic between wireless devices (121, 122) in the first local network (120) and a second network via a first interface (113, 114) configured for communication with wireless devices (121, 122) in the first local network (120) and a second interface (115) configured for communication with the second network and, upon determination that communication via the second interface (115) is impossible, connects (S460) through a third interface (113, 114) to a second wireless access (130) point as a wireless device in a second local network (140) managed by the second wireless access point (130) and routes (S470) traffic between the wireless devices (121, 122) in the first local network (120) and the second network via the first interface (113, 114) and the third interface (113, 114). This way a back-up connection can be provided.

Systems, devices and automated processes are provided for configuring backup battery power for RF radio operations at a base station, including a module configured to communicate with an API tool to receive a plurality of data sets using an open API format about metrics of various operating distributed power sources; a cell site module configured to monitor power usage at a cell site and to generate a series of data sets about the power usage at the cell site; an analysis module configured to correlate the plurality of data sets of the various operated distributed power sources with the series of data sets of power usage at the cell site; the analysis module to forecast a frequency and a duration of a power outage at the cell site based on metrics of correlated data of the data sets of the various operated distributed power sources and the series of data sets about power usage at the cell site; and a backup power supply configured with a capacity at the cell site based on the metrics derived from the correlated data wherein the capacity backup power supply is determined in accordance the frequency and the duration of the power outage at the cell site.

Systems, devices and automated processes are provided for configuring backup battery power for RF radio operations at a base station, including a module configured to communicate with an API tool to receive a plurality of data sets using an open API format about metrics of various operating distributed power sources; a cell site module configured to monitor power usage at a cell site and to generate a series of data sets about the power usage at the cell site; an analysis module configured to correlate the plurality of data sets of the various operated distributed power sources with the series of data sets of power usage at the cell site; the analysis module to forecast a frequency and a duration of a power outage at the cell site based on metrics of correlated data of the data sets of the various operated distributed power sources and the series of data sets about power usage at the cell site; and a backup power supply configured with a capacity at the cell site based on the metrics derived from the correlated data wherein the capacity backup power supply is determined in accordance the frequency and the duration of the power outage at the cell site.

A method, wireless device and measuring station are disclosed that determine the best fit geo-location of a target station. According to one aspect, a method includes, using a “Pass Filter” for minimization of the summation of squared miss probabilities SSMP that improves the fitting process of the measured data over the method of minimization of the summation of the squared residuals (SSR) in the presence of spurious measurements. A “Pass Filter” approach is disclosed that reduces the corruption of the fitting process by outlier data and still yields the same result in the limit of clean data as the classic summation of the squared residuals (SSR) method.

Systems and methods are disclosed for a WTRU to operate using multiple schedulers. The WTRU may exchange data with the network over more than one data path, such that each data path may use a radio interface connected to a different network node and each node may be associated with an independent scheduler. For example, a WTRU may establish a RRC connection between the WTRU and a network. The RRC connection may establish a first radio interface between the WTRU and a first serving site of the network and a second radio interface between the WTRU and a second serving site of the network. The RRC connection may be established between the WTRU and the MeNB and a control function may be established between the WTRU and the SCeNB. The WTRU may receive data from the network over the first radio interface or the second radio interface.

Disclosed are techniques for wireless positioning. In an aspect, a user equipment (UE) receives a plurality of downlink positioning reference signals (DL-PRS) transmitted by a corresponding plurality of cells, wherein the plurality of cells is grouped into one or more groups, wherein each of the one or more groups is associated with one or more attributes, and wherein each cell of each of the one or more groups has the same values of the one or more attributes, reports, to a positioning entity, at least one baseline positioning measurement for at least one representative cell of at least one group of the one or more groups based on DL-PRS transmitted by the at least one representative cell, and reports, to the positioning entity, differential positioning measurements for cells of the at least one group based on the at least one baseline positioning measurement.

A system is provided that includes a tracking device having a tracking device accelerometer, the tracking device associated with a tracked hardware device, and a base transmitter/receiver having a base transmitter/receiver accelerometer and configured to poll and receive tracking device accelerometer data from the tracking device. The base transmitter/receiver is associated with and transportable by a vehicle and the tracking device and tracked device are positionable within the vehicle. Differences in movements of the vehicle when housing the base transmitter/receiver, the tracking device, and the tracked hardware device produce communication functionality differences between the base transmitter/receiver and the tracking device.

A method for determining a geo-location of a target station is provided. The method includes receiving a plurality of RTTs over a plurality of successive time intervals. Each successive time interval is equal to a predetermined amount of time. The plurality of RTTs is placed into a plurality of bins. Each bin has a predetermined time width and a count of RTTs placed in the bin. A bin with a highest count of RTTs (maxCb) and another bin with a next highest count of RTTs are selected and a maximum count ratio determined. The bin with maxCb to a maximum bin value is set based at least on a predetermined threshold of the maximum count ratio. During a next successive time interval, the RTTs that are placed in the bin that is set to the maximum bin value are selected to determine the geo-location of the target station.