Systems and methods for radio protocol architectures in cell-free networks are disclosed herein. One or more base stations make up a cell-free cluster that serves a user equipment (UE). A clustering control function (CCF) may establish, for a radio bearer that communicates data between the cluster and the UE, one or more sub-clusters of the one or more base stations. Each sub-cluster corresponds to a unique RLC entity within the protocol stack for the radio bearer in question. The CCF communicates with the base stations of the cluster and the UE to establish this sub-clustering arrangement. Details of this messaging are described herein. Data of the radio bearer is then transmitted between the cluster and the UE according to the established sub-clusters/RLC entities. For example, the network may transport either the same data of the radio bearer and/or unique data of the radio bearer through any/each of the sub-clusters/RLC entities.

Systems and methods for radio protocol architectures in cell-free networks are disclosed herein. One or more base stations make up a cell-free cluster that serves a user equipment (UE). A clustering control function (CCF) may establish, for a radio bearer that communicates data between the cluster and the UE, one or more sub-clusters of the one or more base stations. Each sub-cluster corresponds to a unique RLC entity within the protocol stack for the radio bearer in question. The CCF communicates with the base stations of the cluster and the UE to establish this sub-clustering arrangement. Details of this messaging are described herein. Data of the radio bearer is then transmitted between the cluster and the UE according to the established sub-clusters/RLC entities. For example, the network may transport either the same data of the radio bearer and/or unique data of the radio bearer through any/each of the sub-clusters/RLC entities.

A transmit chain (TX chain) of a user equipment (UE) transmits an uplink signal to a first wireless network associated with a first base station or a second wireless network associated with a second base station. The uplink signal includes information indicative of a first receive chain (RX chain) of the UE being synchronized to the first base station to receive first traffic from the first wireless network, and a second RX chain of the UE being synchronized to the second base station to receive second traffic from the second wireless network. The UE transmits uplink traffic for the first wireless network and the second wireless network to the second base station via the TX chain of the UE.

A method for providing scalable telecommunications services may include generating first network function within a virtual private cloud (VPC), the first network function. The method may include providing a first IP address associated with the first network function to a router server, the router server configured to manage data routing within the VPC. The method may include generating a second network function within the VPC, the second network function configured to process data from the first network function. The method may include providing a second IP address associated with the second network function to the router server implemented on the computing system. The method may include updating a route table to include at least one of the first network function, the first load balancer, the second network function, or the second load balancer. The method may include associating the first and second network function to generate a data route.

A method for configuration of an ultra-wideband-based access control mode of an access control device according to an embodiment includes determining, by a computing system, whether to configure the ultra-wideband-based access control mode for the access control device, receiving, by the computing system, a user selection of a configuration type for the ultra-wideband-based access control mode in response to determining to configure the ultra-wideband-based access control mode for the access control device, performing, by the access control device, automated configuration of the ultra-wideband-based access control mode in response to determining that user selection of the configuration type is an automated configuration, and storing, by the access control device, manual configuration settings received from the user in response to determining that the user selection of the configuration type is a manual configuration.

Systems and methods for outroute load balancing in a multi-band hybrid satellite communication system include comparing the load metric of each of code rate organizers (CROs) to a threshold value; placing each CRO in one of a surplus load balancing set and a deficit balancing set based on a value of the load metric; and determining a probability metric for each satellite terminal associated with each of the CROs in the surplus load balancing set. The probability metric indicates a probability of the terminal moving to one of the CROs in the deficit load balancing set. At least one satellite terminal associated with one of the CROs in the surplus load balancing set is then caused to switch to one of the CROs in the deficit load balancing set based on the probability metric of the at least one satellite terminal.

A schedule coordinator schedules an air resource of a virtual distributed unit (vDU) in a wireless communication system. The schedule coordinator identifies a radio unit (RU) to be migrated to a target vDU, from among one or more RUs connected to a source vDU, requests the source vDU to exclusively transmit or receive first information including synchronization information of one or more user equipments (UEs) connected to the RU. The schedule coordinator allocates a source vDU-dedicated air resource to the source vDU, and allocates a target vDU-dedicated air resource to the target vDU. When a migration of the RU is completed, the schedule coordinator requests the target vDU to exclusively transmit or receive the first information, and requests the source vDU to stop transmitting or receiving the first information.

The method provides for one or more processors to disperse object data for storage within a fifth-generation radio access network (RAN). The one or more processors receive radio frequency (RF) input for object data storage from a client device. The one or more processors perform a setup session configuring the RF input received for object data storage. The one or more processors perform a translation of the received RF input, wherein the translation enables processing of the RF input by an information dispersal algorithm (IDA) and enables storage of the object data of the RF input among multiple next generation node base stations (gNBs) forming a gNB cluster within a radio access network (RAN), and the one or more processors storing the object data of the received RF input across the gNB cluster in an Object Segment format.

Systems and methods for outroute load balancing in a multi-band hybrid satellite communication system include comparing the load metric of each of code rate organizers (CROs) to a threshold value; placing each CRO in one of a surplus load balancing set and a deficit balancing set based on a value of the load metric; and determining a probability metric for each satellite terminal associated with each of the CROs in the surplus load balancing set. The probability metric indicates a probability of the terminal moving to one of the CROs in the deficit load balancing set. At least one satellite terminal associated with one of the CROs in the surplus load balancing set is then caused to switch to one of the CROs in the deficit load balancing set based on the probability metric of the at least one satellite terminal.

An apparatus for data processing and related non-transitory computer-readable medium are provided. In the method, the apparatus computes a burst threshold for a data stream. The burst threshold is associated with a throughput of the data stream. The apparatus further identifies a set of bursts in the data stream based on the burst threshold, and detect a pattern in the data stream based on the set of bursts. The apparatus further estimates at least one subsequent burst in the data stream based on the pattern and the burst threshold, and outputs an indication of the at least one subsequent burst in the data stream. The method enables a device to predict one or more future data bursts based on characteristics of existing data. The predicted data bursts allow the transmission resource and power to be adaptively arranged to significantly reduce power consumption and improve transmission efficiency.