A network node and a wireless device as well as respective method performed thereby for communication with each other are provided. The method performed by the network node comprises receiving, from the wireless device, a measurement report indicating a channel quality of the channel between the network node and the wireless device; and determining whether the channel quality is acceptable or unacceptable. The method further comprises transmitting, to the wireless device, an indication of which RBG(s) to report channel quality measurements for, when the channel quality is unacceptable.

A network node and a wireless device as well as respective method performed thereby for communication with each other are provided. The method performed by the network node comprises receiving, from the wireless device, a measurement report indicating a channel quality of the channel between the network node and the wireless device; and determining whether the channel quality is acceptable or unacceptable. The method further comprises transmitting, to the wireless device, an indication of which RBG(s) to report channel quality measurements for, when the channel quality is unacceptable.

One or more computing devices, systems, and/or methods are provided. A system includes a first user equipment (UE) module and a second UE module, a first base station (BS) module associated with the first UE module, and a second BS module associated with the second UE module. The first BS module is configured to send a first resource allocation map associated with the first UE module to the second BS module and at least one of the second UE module or the second BS module is configured to access a first fast fading table to determine a first fast fading parameter for the second UE module, generate a first interference metric based on the first resource allocation map and the first fast fading parameter, and modulate a data transmission between the second UE module and the second BS module based on the first interference metric.

One or more computing devices, systems, and/or methods are provided. A system includes a first user equipment (UE) module and a second UE module, a first base station (BS) module associated with the first UE module, and a second BS module associated with the second UE module. The first BS module is configured to send a first resource allocation map associated with the first UE module to the second BS module and at least one of the second UE module or the second BS module is configured to access a first fast fading table to determine a first fast fading parameter for the second UE module, generate a first interference metric based on the first resource allocation map and the first fast fading parameter, and modulate a data transmission between the second UE module and the second BS module based on the first interference metric.

Channel state determination is performed at a user equipment (UE) of a mobile network. The UE determines one or a plurality of time intervals that may be used for channel measurements, performs a plurality of signal power measurements associated each to one of the time intervals to be used for channel measurement and generates a channel state information as a function of the plurality of the signal power measurements. Information comprising an indication of a plurality of time intervals that may be used for received signal power measurements is generated and sent from an access node (eNB) to the UE. The eNB evaluates a measurement report, received from the UE, that comprises received signal power measurements associated each to one of the time intervals.

A system for transmitting and receiving wireless signals through a physical barrier, such as walls or windows, to wireless computing devices that are located internal to a structure that is formed in part by the physical barrier. The wireless signals are millimeter waveforms with gigahertz frequencies that are communicated with 5G communication protocols by one or more remote base station nodes located external to the physical barrier. One or more external antennas are configured to communicate RF wireless signals with HMA waveforms to remote wireless base station. In one or more embodiments, the RF wireless signals are amplified and communicated bi-statically through the window barrier between customer premises equipment and an authorized remote wireless base station.

A configuration for a wireless device to perform iterations of SIM to detect clutter echo in order to improve a configuration for SIM. The apparatus performs a SIM for multiple beam pairs based on a first transmission power. The apparatus performs an iteration of the SIM for one or more beam pairs that meet a criteria. The iteration of the SIM is based on a second transmission power. The second transmission power is greater than the first transmission power.

Aspects of the subject disclosure may include, for example, obtaining data regarding interference detected in a received communication signal, and performing polarization adjusting for one or more orthogonally-polarized element pairs of an antenna system such that an impact of the interference on the antenna system is minimized. Other embodiments are disclosed.

Aspects of the subject disclosure may include, for example, obtaining data regarding interference detected in a received communication signal, and performing polarization adjusting for one or more orthogonally-polarized element pairs of an antenna system such that an impact of the interference on the antenna system is minimized. Other embodiments are disclosed.

A user equipment (UE) for handover processes between communication networks includes one or more processors, and one or more non-transitory computer-readable media storing instructions that when executed by the one or more processors, cause the UE to receive, by the UE, first diagnostic information, determine whether to perform a first handover from a first communication network to a second communication network based on a first set of thresholds, the first set of thresholds being based on the first diagnostic information, receive, by the UE, an update of the first diagnostic information, and determine whether to perform a second handover from the first communication network to the second communication network based on an updated first set of thresholds, the updated first set of thresholds being based on the updated first diagnostic information.