A network environment includes a communication management resource in communication with customer premises equipment through a wireless base station. The communication management resource (such as a spectrum access system) receives a request for allocation of a wireless channel from customer premises equipment. The request is generated via the customer premises equipment and communicated through the wireless base station to the communication management resource. In addition to receiving the allocation request from the customer premises equipment, the communication management resource receives channel selection information from the wireless base station. Via the channel selection information, the wireless base station suggests/selects a wireless channel to assign for use by the customer premises equipment. In response to receiving the request, and in accordance with the channel selection information, the communication management resource allocates a selected wireless channel to the customer premises equipment as indicated by the channel selection information.

This disclosure describes systems, methods, and devices related to spatial reuse for extremely high throughput (EHT). A device may identify a frame received from a first station device configured to operate in a first basic service set (BSS) on a first channel. The device may analyze a preamble of the frame to determine a classification of the frame. The device may adjust a calculation of a packet detection for overlapping basic service set (OBSS) value based on a number of unpunctured 20 MHz frequency channels. The device may determine to simultaneously use the first channel for communication with a second device within a second BSS based on the calculation of the packet detection for OBSS value.

This disclosure describes systems, methods, and devices related to spatial reuse for extremely high throughput (EHT). A device may identify a frame received from a first station device configured to operate in a first basic service set (BSS) on a first channel. The device may analyze a preamble of the frame to determine a classification of the frame. The device may adjust a calculation of a packet detection for overlapping basic service set (OBSS) value based on a number of unpunctured 20 MHz frequency channels. The device may determine to simultaneously use the first channel for communication with a second device within a second BSS based on the calculation of the packet detection for OBSS value.

A system includes one or more antennas; and a processor coupled to the antennas in communication with a predetermined target using 5G protocols.

A communication system is disclosed. The communication system includes a plurality of cloud radio access networks (C-RANs), each C-RAN comprising a baseband controller and a plurality of radio points (RPs). Each RP in the plurality of C-RANs is located at a site and is configured to exchange radio frequency (RF) signals with a plurality of wireless devices at the site. The communication system also includes a dynamic sectorization system communicatively coupled to each baseband controller. The dynamic sectorization system is configured to determine at least one signature vector for each of the wireless devices at the site. The dynamic sectorization system also is configured to map each RP in the plurality of C-RANs to one of a number of sectors (K) based on the at least one signature vector for each of the wireless devices at the site.

Embodiments include methods of managing network slices in a communications network by a domain manager of a Radio Access Network (RAN). Such methods include determining a change in cell composition of the RAN and determining neighbor cells within the RAN affected by the change in cell composition of the RAN. Such methods also include determining a set of RAN resource partitions affected by the change in cell composition of the RAN and adapting the configuration of RAN resource partitions of the set of RAN resource partitions by introducing changes corresponding to the change in cell composition of the RAN. Embodiments also include domain manager apparatus configured to perform operations corresponding to such methods.

Embodiments include methods of managing network slices in a communications network by a domain manager of a Radio Access Network (RAN). Such methods include determining a change in cell composition of the RAN and determining neighbor cells within the RAN affected by the change in cell composition of the RAN. Such methods also include determining a set of RAN resource partitions affected by the change in cell composition of the RAN and adapting the configuration of RAN resource partitions of the set of RAN resource partitions by introducing changes corresponding to the change in cell composition of the RAN. Embodiments also include domain manager apparatus configured to perform operations corresponding to such methods.

Embodiments relate to an apparatus (2) comprising means configured for: receiving (T1), from an apparatus (4) associated with a radio cell, data specifying cell level parameters and computing resources availability, selecting (T2), based on the cell level parameters and computing resources availability, a set of radio resources management algorithms, sending (T3), to the apparatus (4) associated with the radio cell, data specifying the selected set of radio resources management algorithms.

Embodiments relate to an apparatus (2) comprising means configured for: receiving (T1), from an apparatus (4) associated with a radio cell, data specifying cell level parameters and computing resources availability, selecting (T2), based on the cell level parameters and computing resources availability, a set of radio resources management algorithms, sending (T3), to the apparatus (4) associated with the radio cell, data specifying the selected set of radio resources management algorithms.

Various aspects of the present disclosure generally relate to wireless communication. In some aspects, a user equipment (UE) may determine a service type to be used by the UE for one or more device-to-device (D2D) communications on a sidelink interface; determine a slice identifier based at least in part on the service type, wherein the slice identifier corresponds to a resource allocation to be used for the one or more D2D communications; and transmit an indication of the slice identifier. Numerous other aspects are provided.