A mobile device, a host device, and an X-ray detector are provided. The mobile device includes a first communicator configured to receive identification information of the X-ray detector from the X-ray detector, and a second communicator configured to send the received identification information of the X-ray detector to the host device.

A mobile device, a host device, and an X-ray detector are provided. The mobile device includes a first communicator configured to receive identification information of the X-ray detector from the X-ray detector, and a second communicator configured to send the received identification information of the X-ray detector to the host device.

A device access method includes obtaining, by a mobility management entity, an identifier of a remote device and an identifier of a relay device, determining, by the mobility management entity based on at least one of the identifier of the remote device or the identifier of the relay device, to allow the remote device to access the network using the relay device, and sending, by the mobility management entity, a registration success message to the remote device using the relay device.

Wireless consumer premises equipment (CPE) devices are provisioned with their wireless functionality disabled. Selected wireless CPE devices have their wireless functionality turned on, and testing of the selected wireless devices, including testing of their wireless functionality, is performed. After testing has been completed, the selected wireless devices are placed in a predetermined default operational profile suitable for subsequent end consumer deployment. A wireless interference and wireless channel saturation minimization action is performed in relation to the selected wireless devices so that their wireless functionality does not affect subsequent testing of the wireless functionality of other wireless CPE devices. Testing can be performed using a system including a primary test platform, a wireless interface communicatively connected to the primary test platform, and a mobile and/or stationary test rack(s) communicatively connected to the primary test platform and that has individual slots into which corresponding wireless devices are connected.

Systems, methods, and computer-readable media are disclosed for object tracking. Example methods may include receiving satellite signals from GPS satellites, the satellite signals indicative of satellite locations associated with the one or more GPS satellites and satellite timestamps associated with respective satellite locations, determining, based on the satellite signals, a first location associated with a first device and a first timestamp associated with the first location, storing the first location and the first timestamp, sending the first location and the first timestamp to an aerial vehicle, receiving aggregated data from the aerial vehicle, the aggregated data indicative of a second location and a second timestamp associated with a second device; and sending the aggregated data to a user device for presentation.

Methods, apparatus, and systems for monitoring a network. A customer premise equipment device is registered with a spectrum access system. The spectrum access system is informed of a count of subscriber identification module (SIM) cards and a count of radios in the customer premise equipment device and is informed of a frequency and an identity of the network to monitor. One or more measurements are performed by the customer premise equipment device based on the frequency and the identity of the network and the one or more measurements are sent to a managing server.

A device access method includes obtaining, by a mobility management entity, an identifier of a remote device and an identifier of a relay device, determining, by the mobility management entity based on at least one of the identifier of the remote device or the identifier of the relay device, to allow the remote device to access the network using the relay device, and sending, by the mobility management entity, a registration success message to the remote device using the relay device.

A method, performed by a first customer premises equipment (CPE) at a first customer premises within a fixed wireless access (FWA) network comprising a plurality of base stations, includes: connecting remotely over a first interface to a first base station of the FWA network, providing access over the first interface to the FWA network to at least a first client device locally connected to the first CPE at the first customer premises, and receiving information over a second interface from a second CPE at a second customer premises within the FWA network to modify operation of at least the first CPE. The second CPE provides access to the FWA network to at least a second client device locally connected to the second CPE at the second customer premises, and the information received from the second CPE over the second interface comprises information about operation of the second CPE.

In some examples, a first user equipment (UE) sends an indication to an application server that the first UE is to use a relay UE to access a network. The first UE receives, from the application server, a first identity different from a second identity of the first UE. The first UE uses the first identity to register with the network to authenticate the first UE.

In an embodiment, an integrated sensor system with modular sensors and wireless connectivity components for monitoring properties of field soil is described. In an embodiment, an integrated sensor system comprises one or more sensors that are configured to determine one or more measures of at least one property of soil. The integrated sensor system also includes one or more processing units that are configured to receive, from the sensors, the measures of at least one property of soil and calculate soil property data based on the measures. The system further includes a transmitter that is configured to receive the soil property data from the processing units, establish a communications connection with at least one computer device, and automatically transmit the soil property data to the at least one computer device via the communications connection. In an embodiment, the communications connection is a wireless connection established between the transmitter and a smart hub or a LoRA-enabled device. In an embodiment, the computer sensors, the processors, and the transmitter are installed inside a portable probe.