Methods that include detecting cables connected to telecommunications network equipment are provided herein. In particular, a method that includes detecting connections of respective cables to ports of telecommunications network equipment may be performed using image recognition. Moreover, in some embodiments, the method may include detecting, using image recognition, respective positions of the ports. Related systems are also provided.

An antenna monitoring unit for monitoring an RF transmission line and RF signal path to an antenna unit used in a distributed antenna system in a structure. The antenna is DC isolated from the RF transmission line through a current injector, allowing testing by sending a code from a base station to a remote antenna location and using a monitoring module to confirm reception of the code and transmit data to the base station relating to the antenna unit.

A horn antenna configured for use in a radio frequency (RF) anechoic test chamber is provided. The horn antenna includes one or more conductive radiating elements. The horn antenna further includes an electromagnetic interference (EMI) suppressing material covering at least a portion of a surface of the one or more conductive radiating elements such that the EMI suppressing material at least partially suppresses a surface current associated with the surface of the one or more conductive radiating elements during a test operation.

According to one embodiment, a mobile terminal testing device which tests a mobile terminal including a plurality of transmitting antennas by transmitting/receiving radio signals between the mobile terminal testing device and the mobile terminal, includes a radio signal processing module configured to transmit and receive radio signals to and from the mobile terminal and a controller configured to cause the mobile terminal to switch one from another among the plurality of transmitting antennas by a predetermined radio signal transmitted to the mobile terminal via the radio signal processing module.

According to one embodiment, a mobile terminal testing device which tests a mobile terminal including a plurality of transmitting antennas by transmitting/receiving radio signals between the mobile terminal testing device and the mobile terminal, includes a radio signal processing module configured to transmit and receive radio signals to and from the mobile terminal and a controller configured to cause the mobile terminal to switch one from another among the plurality of transmitting antennas by a predetermined radio signal transmitted to the mobile terminal via the radio signal processing module.

A method includes defining a Center-of-Radiation Reference for a device under test, the CORR indicating a reference origin of an electromagnetic wave pattern formable with the DUT; determining a 3-dimensional orientation information with respect to the CORR, the 3-dimensional orientation information indicating a direction of the electromagnetic wave pattern; and providing the CORR and the 3-dimensional orientation information to a measurement system.

Channel predictive behavior and fault analysis may be provided. A forward time value may be determined comprising a time a forward signal takes to travel from a transmitter over a channel to the receiver. Next, a reflected time value may be determined comprising a time a reflected signal takes to travel to the receiver. The reflected signal may be associated with the forward signal. A discontinuity may then be determined to exist on the channel based on the forward time value and the reflected time value. The reflected signal may be caused by the discontinuity and a high impedance or low impedance at the transmitter present after the forward signal is sent.

Channel predictive behavior and fault analysis may be provided. A forward time value may be determined comprising a time a forward signal takes to travel from a transmitter over a channel to the receiver. Next, a reflected time value may be determined comprising a time a reflected signal takes to travel to the receiver. The reflected signal may be associated with the forward signal. A discontinuity may then be determined to exist on the channel based on the forward time value and the reflected time value. The reflected signal may be caused by the discontinuity and a high impedance or low impedance at the transmitter present after the forward signal is sent.

A user terminal according an embodiment, comprises: a controller configured to execute measurement based on a radio signal in a secondary cell in an unlicensed band; and a transmitter configured to transmit, to a base station, a report of measurement results based on the radio signal. The controller is configured to determine whether or not identification information to which a predetermined scramble is applied is detected from a predetermined radio signal in the secondary cell. The transmitter is configured to transmit, to the base station, the report of measurement results not including a predetermined measurement result based on the predetermined radio signal, in response to no detection of the identification information from the predetermined radio signal.

A user terminal according an embodiment, comprises: a controller configured to execute measurement based on a radio signal in a secondary cell in an unlicensed band; and a transmitter configured to transmit, to a base station, a report of measurement results based on the radio signal. The controller is configured to determine whether or not identification information to which a predetermined scramble is applied is detected from a predetermined radio signal in the secondary cell. The transmitter is configured to transmit, to the base station, the report of measurement results not including a predetermined measurement result based on the predetermined radio signal, in response to no detection of the identification information from the predetermined radio signal.