Disclosed are methods, systems, apparatus, and computer programs for communicating new link availability configurations for a node in an integrated access and backhaul (IAB) network. In one aspect, a method includes receiving a Radio Resource Control (RRC) message from an IAB node; determining, based on the RRC message, a new resource availability configuration for a backhaul resource associated with the IAB node; and in response to determining the new resource availability configuration, conditionally communicating with the IAB node over the backhaul resource according to the new resource availability configuration.

Presented are Ergodic Spectrum Management (ESM) systems and methods that take advantage of the presence of statistical consistencies (“ergodicity”) and correlations, such as a wireless network's average dimensional consistencies of probability distributions (in time, space, and frequency) of channel gains, to adaptively learn qualitative and quantitative network/user behavior; estimate or predict network performance; and guide locally implemented radio resource management (RRM) decisions of wireless multi-user transmissions in a manner such as to reduce interference and improve latency; connection stability; efficiency; and overall wireless performance. ESM also enhances end-users' Quality of Experience (QoE) by allowing movement across bands and regions as users/devices roam. A remote-cloud-based resource management implementation of ESM's Learn-ed Resource Managers (LRMs) removes the need for heavy edge-computing close to radio cells.

Presented are Ergodic Spectrum Management (ESM) systems and methods that take advantage of the presence of statistical consistencies (“ergodicity”) and correlations, such as a wireless network's average dimensional consistencies of probability distributions (in time, space, and frequency) of channel gains, to adaptively learn qualitative and quantitative network/user behavior; estimate or predict network performance; and guide locally implemented radio resource management (RRM) decisions of wireless multi-user transmissions in a manner such as to reduce interference and improve latency; connection stability; efficiency; and overall wireless performance. ESM also enhances end-users' Quality of Experience (QoE) by allowing movement across bands and regions as users/devices roam. A remote-cloud-based resource management implementation of ESM's Learn-ed Resource Managers (LRMs) removes the need for heavy edge-computing close to radio cells.

Systems, methods, and computer-readable media for radio resource management in a Citizens Broadband Radio Service (CBRS) network include one or more CBRS devices (CBSDs) which can obtain a group type associated with the CBSDs and their associated Radio Environment Map (REM) reports of one or more frequency channels of the CBRS network. The group type and the REM reports may be provided to a Self-Organizing Network (SON) manager of the CBRS network, where the SON manager may determine and provide to the CBSDs, one or more of a channel utilization information, transmission power, or mobility load management information for the CBSD, based on the group type and the REM reports.

Accordingly embodiments herein achieve signaling method and system (2000) for provisioning signalling in an Integrated Access Backhaul (IAB) network (1000). The method includes providing a set of modifications in uplink and downlink signaling for an IAB node (100). The modifications either help to reduce the control channel payload or enable more flexible signaling of resources, improve efficient control channel scheduling and also avoid conflicts that might arise due to discrepancies between semi static and dynamic resource allocation.

A method, performed by a server, of executing a software package in a wireless communication system includes: obtaining package usage information for each of a plurality of software packages with respect to user equipment's (UEs) accessing a plurality of base stations (BSs) connected to the server; determining a first hardware component (HC) set, including a plurality of HCs, for processing tasks operating in a first software package from among the plurality of software packages, based on the package usage information including a use for each of the plurality of HCs included in the first HC set and a respective usage amount for the plurality of HCs; generating a second software package that is allocated to the first HC set; migrating the tasks operating in the first software package to the second software package; and deleting the first software package.

A method, performed by a server, of executing a software package in a wireless communication system includes: obtaining package usage information for each of a plurality of software packages with respect to user equipment's (UEs) accessing a plurality of base stations (BSs) connected to the server; determining a first hardware component (HC) set, including a plurality of HCs, for processing tasks operating in a first software package from among the plurality of software packages, based on the package usage information including a use for each of the plurality of HCs included in the first HC set and a respective usage amount for the plurality of HCs; generating a second software package that is allocated to the first HC set; migrating the tasks operating in the first software package to the second software package; and deleting the first software package.

A method, computer readable media, and system are described for providing updating policy capabilities between Near-Real Time (RT) Radio Access Network (RAN) Intelligent Controller (MC) and Non-Real Time RIC. In one embodiment a method includes sending a policy update notification message from a near-RT RIC to a non-RT MC with a list of policy types that are supported whenever the node identifies that there is a change in currently exchanged policy types; and updating policy to reflect the update notification.

A method, computer readable media, and system are described for providing updating policy capabilities between Near-Real Time (RT) Radio Access Network (RAN) Intelligent Controller (MC) and Non-Real Time RIC. In one embodiment a method includes sending a policy update notification message from a near-RT RIC to a non-RT MC with a list of policy types that are supported whenever the node identifies that there is a change in currently exchanged policy types; and updating policy to reflect the update notification.

A cloud-based Wi-Fi network architecture consisting of a CU and RAUs is proposed as an improvement on the conventional Wi-Fi architecture with traditional access points (APs). In addition, a method for uplink data transmission in a cloud-based Wi-Fi network is proposed. In a conventional Wi-Fi network with independently operating APs, APs close to each other may not be able to utilize the same frequency band efficiently because of significant amounts of interference. However, in a cloud-based Wi-Fi network, the CU coordinates RAUs so that they can operate in the same frequency band by transmitting or receiving signals through the shared wireless medium to improve spectral efficiency. For each frequency band, the proposed system utilizes a diversity combining that combines multiple signals and introduces a single improved signal with high signal-to-noise ratio for uplink transmission in the cloud-based Wi-Fi network. In proposed uplink transmission method for a cloud-based Wi-Fi network, diversity combining is utilized with the immediate acknowledgement (ACK) transmission method that transmits the ACK frame to the client immediately before decoding. The proposed uplink data transmission method mitigates the performance degradation caused by the fronthaul propagation delay between the CU and RAUs, without significant modification of the IEEE 802.11 standard.