An apparatus, system, method, and computer-readable recording medium monitor and detect connection issues in a wireless network. The wireless network communicatively interconnects a gateway device including a network controller, wireless extenders, and client devices. The gateway device receives probe requests from the client devices and the wireless extenders, and the network controller periodically monitors at least one of: i) frame parameters or ii) signal strength information based on the probe requests, and identifies a connection issue with respect to at least one of the wireless extenders. The gateway device transmits a report or alert regarding the connection issue to at least one client device, and the report or alert is used to prompt re-installation of the wireless extender having the connection issue.

An apparatus, system, method, and computer-readable recording medium monitor and detect connection issues in a wireless network. The wireless network communicatively interconnects a gateway device including a network controller, wireless extenders, and client devices. The gateway device receives probe requests from the client devices and the wireless extenders, and the network controller periodically monitors at least one of: i) frame parameters or ii) signal strength information based on the probe requests, and identifies a connection issue with respect to at least one of the wireless extenders. The gateway device transmits a report or alert regarding the connection issue to at least one client device, and the report or alert is used to prompt re-installation of the wireless extender having the connection issue.

Devices, systems and processes for facilitating ad hoc communications in dense areas are described. A system may include a first user source device (USD) communicatively coupled to an internal net, a first user destination device (UDD) communicatively coupled to an external net and a user hub device (UHD), coupled to each of the internal net and the external. The UHD may facilitate connectivity between the first USD and the first UDD via the internal net and the external net. The internal net may use a common use communications technology, and may be formed in a dense area. The internal net may be formed on an ad hoc basis. The external net may use a public wireless system provider communications system located external to the dense area.

Devices, systems and processes for facilitating ad hoc communications in dense areas are described. A system may include a first user source device (USD) communicatively coupled to an internal net, a first user destination device (UDD) communicatively coupled to an external net and a user hub device (UHD), coupled to each of the internal net and the external. The UHD may facilitate connectivity between the first USD and the first UDD via the internal net and the external net. The internal net may use a common use communications technology, and may be formed in a dense area. The internal net may be formed on an ad hoc basis. The external net may use a public wireless system provider communications system located external to the dense area.

A device may receive site data identifying a site associated with a telecommunications network. The device may receive RF drive test data identifying signal strengths of the site at different location points. The device may receive network KPI data and throughput data associated with the site. The device may assign unique identifiers to the different location points. The device may determine, based on the site data, the RF drive test data, the network KPI data, and the unique identifiers, at least one of reference signal strength data for each of the different location points or downlink channel data for each of the different location points. The device may determine degraded signal strength data identifying a degraded signal strength of each of the different location points, if the site is decommissioned and based on the at least one of the reference signal strength data or the downlink channel data.

A device may receive site data identifying a site associated with a telecommunications network. The device may receive RF drive test data identifying signal strengths of the site at different location points. The device may receive network KPI data and throughput data associated with the site. The device may assign unique identifiers to the different location points. The device may determine, based on the site data, the RF drive test data, the network KPI data, and the unique identifiers, at least one of reference signal strength data for each of the different location points or downlink channel data for each of the different location points. The device may determine degraded signal strength data identifying a degraded signal strength of each of the different location points, if the site is decommissioned and based on the at least one of the reference signal strength data or the downlink channel data.

A method for managing an unmanned aerial vehicle (UAV) is described. The method may include receiving flight plan information describing a flight path of the UAV; generating one or more cell lists based on the flight plan information; and transmitting the one or more cell lists to a source cell in a wireless network in which the UAV is currently operating, wherein the one or more cell lists are used in a handover procedure between the source cell that the UAV is currently connected to and a target cell that the UAV will connect to after completing the handover procedure.

A method for managing an unmanned aerial vehicle (UAV) is described. The method may include receiving flight plan information describing a flight path of the UAV; generating one or more cell lists based on the flight plan information; and transmitting the one or more cell lists to a source cell in a wireless network in which the UAV is currently operating, wherein the one or more cell lists are used in a handover procedure between the source cell that the UAV is currently connected to and a target cell that the UAV will connect to after completing the handover procedure.

A device is provided for determining an RF coverage quality of a wireless mesh network at a given location. The device includes a communication module, a processing module, and a visual interface. The communication module is configured to communicate with nearby neighbours in the wireless mesh network. The processing module is configured to detect and calculate good neighbours having an RF signal strength above a first predetermined threshold, and a tickle success rate above a second predetermined threshold. Methods to install and validate the installation of a wireless electric meter and a passive antenna are also provided.

A device is provided for determining an RF coverage quality of a wireless mesh network at a given location. The device includes a communication module, a processing module, and a visual interface. The communication module is configured to communicate with nearby neighbours in the wireless mesh network. The processing module is configured to detect and calculate good neighbours having an RF signal strength above a first predetermined threshold, and a tickle success rate above a second predetermined threshold. Methods to install and validate the installation of a wireless electric meter and a passive antenna are also provided.