A method and an apparatus for optimizing communication of mobile base stations are provided. The method responds to an optimization problem of maximizing a sum rate of transmission and generates a QUBO model capable of quantum computing to rapidly enable optimal resource allocation through quantum annealing.

Systems, methods, and devices improve medium usage by wireless devices. Methods include determining, using one or more processing elements, a wireless channel switch operation should be performed by a first wireless device and a second wireless device communicating using a first wireless channel, and identifying, using the one or more processing elements, one or more mitigation operations based on data packet activity associated with the wireless channel. Methods further include generating, using the one or more processing elements, a mitigation signal responsive to identifying medium reservation activity within the data packet activity, and initiating, using the one or more processing elements, the wireless channel switch operation to switch to a second wireless channel.

An example method is provided in one example embodiment and may include monitoring a plurality of wireless backhaul links associated with a radio access network (RAN); receiving an indication of a change in operating conditions for a first wireless backhaul link of the plurality of wireless backhaul links; determining utilization of the first wireless backhaul link based on the indication of the change in operating conditions; assessing an available capacity of each of the plurality of wireless backhaul links; and adjusting cellular loading in the RAN based, at least in part, on the utilization of the first wireless backhaul link and the available capacity of each of the plurality of wireless backhaul links.

For example, a non Access Point (AP) (non-AP) wireless communication station (STA) and/or an AP STA may be configured to utilize a mechanism configured to support bandwidth signaling for a link between the non-AP STA and an other non-AP STA. For example, an apparatus may include logic and circuitry configured to cause a non-AP STA to set a channel bandwidth field to indicate a maximum channel bandwidth (BW) for the link between the non-AP STA and an other non-AP STA; and to transmit a frame to an AP STA, the frame including an information element including the channel bandwidth field.

A processing system may apply a data set comprising utilization metrics of a cells of a cell sector to a throughput prediction model to obtain a first predicted throughput for the cell sector for a designated future time period and for all cells being in an active state. The processing system may generate a first modified data set simulating a first cell being placed in an inactive state, by distributing utilization metrics of the first cell over at least one additional cell, and may apply the first modified data set to the throughput prediction model to obtain a second predicted throughput. The processing system may then determine that the second predicted throughput meets a threshold throughput that is based on the first predicted throughput, and transmit at least one instruction to place the first cell in the inactive state for the designated future time period in response to the determining.

The present disclosure is directed to methods and systems for adjusting network speed to a gateway. The network speed adjustment system can include a gateway with the ability to manage a consumer-initiated temporary increase in network speed or network bandwidth. The network speed adjustment system can determine whether the provisioning system can support a network speed increase to the gateway. The provisioning system can measure the capacity of the network at the gateway location and determine whether the system can support providing the gateway with an increased network speed or increased bandwidth. When additional bandwidth capacity or network speed is available for a gateway location, a user can request the network increase by submitting a token via the gateway. The gateway can communicate with the provisioning system to increase the network speed according to the characteristics of the token.

Systems, methods, and further embodiments herein relate to optimizing wireless network transmissions. The wireless network may be deployed with a plurality of access points (APs). These APs can be operated or otherwise managed with a multi-access point coordination (MAPC) system. These MAPC systems can pair or otherwise group together multiple APs to work in concert. However, because MAPC can utilize a variety of modes, a MAPC coordinator logic may be utilized to analyze telemetry and/or historical data to determine which mode of operation may be most suited to each AP grouping or pairing. Once determined, the MAPC coordinator may direct the APs to apply various parameters associated with each determined mode. Furthermore, various dynamic bandwidth switching may occur that can increase the data transmission throughput in response to determined congestion periods. These modes can also be directed dynamically by the MAPC coordinator on a per-grouping or per-pairing basis.

An object of the present invention is to provide a control system, a control method, a controller, and a program capable of guaranteeing a band allocated to each traffic flow while following a maximum throughput of a wireless network which changes from moment to moment. The control system according to the present invention includes a terminal and an access point that transmit packets to each other via the wireless network, a telemetry apparatus that ascertains a maximum throughput of the wireless network, and a controller that performs transmission control on the terminal and the access point, and the controller determines the band control value for each traffic flow on the basis of the maximum throughput notified of by the telemetry apparatus and the required band for each traffic flow notified of by at least the terminal, and notifies the terminal and the access point of the band control value.

The present disclosure is directed to methods and systems for adjusting network speed to a gateway. The network speed adjustment system can include a gateway with the ability to manage a consumer-initiated temporary increase in network speed or network bandwidth. The network speed adjustment system can determine whether the provisioning system can support a network speed increase to the gateway. The provisioning system can measure the capacity of the network at the gateway location and determine whether the system can support providing the gateway with an increased network speed or increased bandwidth. When additional bandwidth capacity or network speed is available for a gateway location, a user can request the network increase by submitting a token via the gateway. The gateway can communicate with the provisioning system to increase the network speed according to the characteristics of the token.

A processing system may apply a data set comprising utilization metrics of a cells of a cell sector to a throughput prediction model to obtain a first predicted throughput for the cell sector for a designated future time period and for all cells being in an active state. The processing system may generate a first modified data set simulating a first cell being placed in an inactive state, by distributing utilization metrics of the first cell over at least one additional cell, and may apply the first modified data set to the throughput prediction model to obtain a second predicted throughput. The processing system may then determine that the second predicted throughput meets a threshold throughput that is based on the first predicted throughput, and transmit at least one instruction to place the first cell in the inactive state for the designated future time period in response to the determining.