Methods and systems are provided for using antenna sector power ratio (SPR) to determine dynamic spectrum sharing. Frequency bands associated with a cell site can support at least one wireless communication protocol. In some embodiments, a plurality of frequency bands for a plurality of cell sites are identified. SPR values for each frequency band may be determined, and a frequency band having the lowest SPR value may be identified. For example, a frequency band having a lower SPR value that is also below a particular threshold may be assigned a wireless communication protocol that was previously assigned to another frequency band having a higher SPR value. Based on assigning the frequency band another wireless communication protocol, a user device may be provided resources via that wireless communication protocol.

Systems, methods, and instrumentalities are disclosed for dynamic interference management in NR dynamic TDD systems. A first WTRU (e.g., an aggressor WTRU) may receive downlink control information (DCI). The first WTRU may determine a first priority associated with the first WTRU. The first WTRU may determine the first priority based on one or more of the DCI or a logical channel prioritization. The first WTRU may receive an interference measurement reference signal (IMRS) transmission from a second WTRU (e.g., a victim WTRU). The first WTRU may measure the received IMRS transmission. The first WTRU may determine a second priority associated with a downlink payload of the second WTRU. The first WTRU may determine that the second priority is greater than the first priority. The first WTRU may adjust an uplink transmission power of the first WTRU, for example, based on the first priority and the second priority.

A terminal according to an aspect of the present disclosure includes: a control section that uses a first cell and a second cell of business operators different from each other; and a receiving section that receives downlink transmission having transmission power different depending on at least one of a business operator, frequency, time, and interference in the first cell and the second cell. According to an aspect of the present disclosure, deterioration of communication quality due to interference between networks of different business operators can be suppressed.

A communication control apparatus includes an acquisition unit that acquires information on a plurality of second wireless systems that perform wireless communication by utilizing a radio wave of a frequency band used by a first wireless system, a first determination unit that determines, based on the information on the second wireless systems, an operation parameter regarding radio transmission of each of the second wireless systems so as to satisfy a protection standard regarding interference of the radio wave of the first wireless system, a calculation unit that calculates a residual interference quantity that is allowed to be additionally allocated to the second wireless systems based on the operation parameter determined by the first determination unit and the protection standard of the first wireless system, a classification unit that classifies the second wireless systems into a single or a plurality of sets.

A system for allocating resources in a communications network includes a plurality of access points, where each access point in the plurality of access points is in communication with one or more user devices. The system also includes a central controller in communication with the plurality of access points. The central controller is configured to receive traffic information and channel information for access point—user device links in the communications network. The central controller is also configured to receive an intensity of independent homogeneous Poisson traffic intended for the one or more user devices. The central controller is further configured to determine a joint resource allocation based at least in part on the received traffic and channel information and the intensity of independent homogeneous Poisson traffic, where the joint resource allocation is determined with an algorithm.

A roaming method based on MESH WIFI executable by an electronic device, comprising: calculating noise values and interference coefficients of a primary access point (AP) and surrounding APs, adjusting power values between the primary AP and the surrounding APs based on the noise values and the interference coefficients according to normalization, and, when a target AP from the surrounding APs reaches a preset condition, switching the client to connect to the target AP.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a central unit (CU) may receive one or more cross-link interference (CLI) measurement reports that are based at least in part on one or more CLI measurements performed by one or more downstream nodes. The CU may transmit, and a distributed unit (DU) may receive, CLI measurement information based at least in part on the one or more CLI measurement reports. In some aspects, the DU may perform one or more CLI mitigation actions based at least in part on the CLI measurement information received from the CU. Numerous other aspects are provided.

Embodiments of the present disclosure provide methods, systems, apparatuses, and computer program products for auto-adjustment signal quality. A method may include determining one or more cable modem devices configured to communicate with a device via a network. The method may include sending poll requests to the one or more cable modem devices to determine a signal power level associated with each of the one or more cable modem devices. The method may include receiving a first poll response from a first cable modem device. The method may include determining, based on the first poll response, a first signal strength associated with the first cable modem device. The method may include determining that the first signal strength deviates from a signal strength threshold. The method may include determining, based on the determination that the first signal strength deviates from the signal strength threshold, a first adjustment to an output power of the device for the first cable modem device.

Aspects are described for use in wireless communications. A subframe allocation bitmap may indicate multiple subframes. The indicated subframes may correspond to Almost Blank Subframes. Measurement subframe allocation bitmaps may indicate measurement subframes. A first measurement subframe allocation bitmap may exclude subframes indicated by the subframe allocation bitmap. A second measurement subframe allocation bitmap may exclude the measurement subframes indicated by of the first measurement subframe allocation bitmap.

Certain aspects of the present disclosure provide techniques for beam management between two or more user equipment (UEs). In some aspects, the disclosure is directed to methods and techniques for performing various beam management procedures (e.g., P1, P2, and P3 procedures) on a sidelink communication between two or more UEs.