A device may receive a beamformed wireless signal from a base station. The device may perform a frequency conversion of the beamformed wireless signal to form a frequency converted signal after receiving the beamformed wireless signal. The device may perform, after performing the frequency conversion, processing related to at least one of: analyzing the frequency converted signal, scanning a channel associated with the frequency converted signal, or generating a map related to the frequency converted signal. The device may generate, after performing the processing, output related to at least one of: the analyzing the frequency converted signal, the scanning the channel, or the generating the map.

Responsive to a CPU load of a specific access point surpassing a high CPU threshold value, each of the wireless stations is disassociated from the specific access point. A second access point within range of the disassociated wireless stations is identified. A current CPU load is determined for the second access point and determining RSSI values for the wireless station with respect to the second access points relative to other available access points. Responsive to a current CPU load being within a low CPU threshold value, and an RSSI value being within a minimum decibel value, one or more of the disassociated wireless stations the second access point are associated. IPv6 network services are then continued for the wireless station by the second access point.

Responsive to a CPU load of a specific access point surpassing a high CPU threshold value, each of the wireless stations is disassociated from the specific access point. A second access point within range of the disassociated wireless stations is identified. A current CPU load is determined for the second access point and determining RSSI values for the wireless station with respect to the second access points relative to other available access points. Responsive to a current CPU load being within a low CPU threshold value, and an RSSI value being within a minimum decibel value, one or more of the disassociated wireless stations the second access point are associated. IPv6 network services are then continued for the wireless station by the second access point.

In a particular implementation, a method of wireless communication includes detecting, at a first user equipment (UE) corresponding to a first protocol, one or more time slots during which a second UE corresponding to a second protocol is transmitting via a wireless channel. The first protocol is different than the second protocol. The method also includes transmitting, by the first UE, a message via the wireless channel during at least one time slot and according to a pattern based on the detected one or more time slots. The pattern indicates a set of time slots designated as unavailable based on use by one or more UEs corresponding to the second protocol.

In a particular implementation, a method of wireless communication includes detecting, at a first user equipment (UE) corresponding to a first protocol, one or more time slots during which a second UE corresponding to a second protocol is transmitting via a wireless channel. The first protocol is different than the second protocol. The method also includes transmitting, by the first UE, a message via the wireless channel during at least one time slot and according to a pattern based on the detected one or more time slots. The pattern indicates a set of time slots designated as unavailable based on use by one or more UEs corresponding to the second protocol.

A system that incorporates the subject disclosure may include, for example, a process that includes adjusting a filter in electrical communication between an input terminal and a demodulator. The filter is applied to an information bearing signal, e.g., to mitigate interference, received at the input terminal, resulting in a filtered signal. An error signal is received, indicative of errors detected within information obtained by demodulation of a modulated carrier of the filtered signal. A modified filter state is determined in response to the error signal and the filter is adjusted according to the modified filter state, e.g., to improve mitigation of the interference. Other embodiments are disclosed.

A system that incorporates the subject disclosure may include, for example, a process that includes adjusting a filter in electrical communication between an input terminal and a demodulator. The filter is applied to an information bearing signal, e.g., to mitigate interference, received at the input terminal, resulting in a filtered signal. An error signal is received, indicative of errors detected within information obtained by demodulation of a modulated carrier of the filtered signal. A modified filter state is determined in response to the error signal and the filter is adjusted according to the modified filter state, e.g., to improve mitigation of the interference. Other embodiments are disclosed.

A system that incorporates the subject disclosure may include, for example, a device comprising a memory to store instructions and a processor coupled to the memory, wherein responsive to executing the instructions, the processor performs operations. The operations comprise receiving signals over a spectrum of frequencies, providing location data of the device to a base station, receiving a request from a base station to perform a spectral analysis of the signals, detecting an interference among the signals, and providing, in response to the request, data to the base station regarding a source of the interference, wherein the data comprises a location of the source relative to the device, spectral data for identifying the source, and a time a frequency of occurrence of the interference. Other embodiments are disclosed.

A system that incorporates the subject disclosure may include, for example, a device comprising a memory to store instructions and a processor coupled to the memory, wherein responsive to executing the instructions, the processor performs operations. The operations comprise receiving signals over a spectrum of frequencies, providing location data of the device to a base station, receiving a request from a base station to perform a spectral analysis of the signals, detecting an interference among the signals, and providing, in response to the request, data to the base station regarding a source of the interference, wherein the data comprises a location of the source relative to the device, spectral data for identifying the source, and a time a frequency of occurrence of the interference. Other embodiments are disclosed.

A wireless device transmits a first scheduling request (SR) in response to initiating a beam failure recovery procedure. A second SR for a buffer status reporting procedure is transmitted. A downlink control information comprising an uplink grant is received via a downlink control channel while the first SR and the second SR are pending. Based on the reception of the downlink control information: the second SR for the buffer status reporting procedure is cancelled, and the first SR for the beam failure recovery procedure is kept pending.