Abstract: There is disclosed a method of operating an Integrated Access and Backhaul (IAB) node (200, C, N3) in a wireless communication network, the method comprising determining a measurement result pertaining to synchronisation signaling received by the IAB node from a second IAB node according to a reception pattern, wherein the measurement result is based on weights associated to the reception pattern. The disclosure also pertains to related methods and devices.

Abstract: Methods and apparatuses are disclosed for determining a muting pattern of a synchronization signal block (SSB) transmission for Integrated Access and Backhaul (IAB) node measurement. In one embodiment, a network node is configured to indicate a first muting pattern, the indication of the first muting pattern indicating at least one first synchronization signal block, SSB, transmission opportunity associated with SSB transmission configuration, STC, that is mutable by an Integrated Access Backhaul, IAB, node. In one embodiment, a network node is configured to determine a first muting pattern, the first muting pattern indicating at least one SSB transmission opportunity associated with a STC that is mutable by the network node; and mute the at least one first SSB transmission opportunity according to the determined first muting pattern.

Abstract: A method performed by a first RAN node of an integrated access and backhaul, IAB, wireless communication network. The first RAN node is connected to a core network and is arranged for wireless communication with a second RAN node and with a number of UEs. Wireless communication resources are allocated for communication between the first RAN node and the second RAN node. The method includes assigning a first part of the resources for transmission of first data and a second part for transmission of second data between the first RAN node and the second RAN node, obtaining information of a vacant part of the resources, and triggering transmission of the first data and the second data using at least a fraction of the vacant part of the wireless communication resources for at least one of the first data and the second data.

Abstract: There is disclosed a method of operating an Integrated Access and Backhaul (IAB) node (200, C, N3) in a wireless communication network, the IAB node being in a communication link with a second IAB node using a signaling beam, the IAB node further being scheduled to perform beam sweeping with a plurality of synchronisation beams, one of the synchronisation beams corresponding to the signaling beam; wherein a synchronisation beam is scheduled to carry synchronisation signaling; and wherein the method comprises performing beam sweeping such that the synchronisation beam corresponding to the signaling beam carries information signaling replacing the synchronisation signaling at least in part. The disclosure also pertains to related methods and devices.

Abstract: A method performed by a distributed base station system of a wireless communication network. The distributed base station system comprises a base band unit, (BBU) and a remote radio unit, (RRU) connected to each other over a fronthaul link. The method comprises receiving uplink signals at N antennas of the RRU from a number of user equipment (UEs) connected to the RRU. The BBU determines first beamforming weights based on a first reference signal that is has received from the UEs, and sends the first beamforming weights to the RRU. The RRU then determines intermediate signals from the first beamforming weights and the uplink signals and sends the intermediate signals to the BBU. The BBU then determines second beamforming weights from a second reference signal it has received from the RRU. Then, the BBU determines an output signal based on the intermediate signal and the second beamforming weights.

Abstract: A method, system, network nodes and apparatus are disclosed. According to one or more embodiments, a donor integrated access backhaul, IAB, node configured with a distributed unit, DU, for communicating with a wireless device and configured with a central unit, CU, for communicating with at least a first child IAB node is provided. The donor IAB node includes processing circuitry configured to indicate a determined first synchronization signaling blocks, SSB, transmission configuration, STC, for the at least first child IAB node, to the at least first child IAB node where the first STC is associated with inter-node measurement.

Abstract: There is provided mechanisms for processing uplink signals. A method is performed by a RRU (200). The method comprises obtaining uplink signals (S102) as received from wireless devices at antenna elements of an antenna array of the RRU (200), each wireless device being associated with its own at least one user layer. The method comprises capturing (S104) energy per user layer by combining the received uplink signals from the antenna array for each user layer into combined signals, resulting in one combined signal per user layer. The combining for each individual user layer is based on channel coefficients of the wireless device associated with said each individual user layer. The method comprises providing (S106) the combined signals to a BBU (300).

Abstract: A method in a first IAB node is provided. The method comprises: receiving an indication of resource allocation from a second network node, the indication indicating whether resources are allocated for a backhaul link or an access link; performing cross- link interference (CLI) management based on the indication of resource allocation.

Abstract: A method in a first network node in an IAB network is provided. The method comprises: receiving capability information associated with a second network node, which has a first transceiver and a second transceiver, the capability information being related to an operation of the first transceiver at a first frequency and the second transceiver at a second frequency; configuring one or more resources associated with the first transceiver of the second network node based on the received capability information; and sending an indication of the configured resources to the second network node.

Abstract: Methods and apparatus are provided for determining timing of resources in an integrated access and backhaul, IAB, node (200). In one example, a method (1300), is performed by an integrated access and backhaul, IAB, node (200), the method comprising: determining (s1302) one or more timing offset for a time resource, the offset being in relation to a mobile termination, MT, and a distributed unit, DU, resource of the IAB node, and providing (s1304) to a parent IAB node (300), information related to the one or more timing offset of the IAB node.

Abstract: A method is disclosed performed by an RRU (120) of a distributed base station system (100) of a wireless communication network, the distributed base station system (100) further comprises a BBU (110) connected to the RRU, the RRU (120) being connected to a plurality of antennas (121, 122, 123) through which the RRU transmits user-layer signals to a plurality of UEs (161, 162, 163). The method comprises sending information related to received uplink signals to the BBU so that the BBU can obtain a first part of precoding coefficients to be used for precoding digital user-layer signals. The method further comprises obtaining a second part of the precoding coefficients and receiving, from the BBU, the digital user-layer signals precoded using the first part of the precoding coefficients.

Abstract: In one aspect, a wireless relay node operating in a wireless communications network obtains (602), for each of one or more other wireless relay nodes, information indicating a muting pattern for muting of synchronization signal blocks, SSBs, by the other wireless relay node. The wireless relay node performs (604) measurements of SSBs and muting of SSB transmissions based on the obtained information.

Abstract: Disclosed is a method performed by a BBU system of a wireless communication network, comprising a distributed base station system (100), which comprises a BBU (110) and an RRU (120) connected over a fronthaul link (140). The method comprises determining first and second parts of beamforming weights based on a determined downlink channel estimate, and compressing the second part of the beamforming weights. The first part of the beamforming weights is determined for performing interference cancellation between user-layer signals, and the second part is determined for expanding the user-layer signals to antenna signals. The BBU then sends the first part and the compressed second part of the beamforming weights to the RRU, as well as the user-layer signals, over the fronthaul link (140). The RRU (120) then beamforms the user-layer signals according to the first and the second parts of the beamforming weights before sending the signals to a number of UEs (131, 132, 133).

Abstract: A distributed base station system comprises a remote radio unit, RRU, and a base band unit, BBU, connected to the RRU over a fronthaul link, the RRU being connected to N antennas. The method comprising by the RRU: obtaining uplink signals as received at the N antennas from a number of User Equipment, UEs, wirelessly connected to the RRU; obtaining a channel estimation matrix of the wireless communication channels; determining an interference covariance estimation matrix based on the obtained channel estimation matrix and on other channel information different from the channel estimation matrix; sending information on the channel estimation matrix and on the interference covariance estimation matrix to the BBU; determining intermediate signals based on the uplink signals, the channel estimation matrix and the interference covariance estimation matrix, and sending the intermediate signals to the BBU.

Abstract: The present disclosure relates in general to cellular radio network communication. In one of its aspects, the technology presented herein concerns a method performed by a network node in a wireless communication system for handling resource configurations for network nodes in an Integrated Access and Backhaul (IAB) network. The network node is connected to a core network of the wireless communications system and to at least one radio network node. The method includes providing, to a first radio network node and to at least one second radio network node, a message indicating a resource configuration for the first radio network node. The at least one second radio network node is a parent node to the first radio network node and the first radio network node is a child node to the at least one second radio network node.

Abstract: According to some embodiments, a method performed by a wireless device of communicating with more than one base station comprises: obtaining a first timing advance for wireless transmission with a first base station; obtaining a second timing advance for wireless transmission with a second base station, the second timing advance different than the first timing advance; transmitting a first wireless transmission to the first base station using the first timing advance; transmitting a second wireless transmission to the second base station using the second timing advance. The first wireless transmission and the second wireless transmission are scheduled so that a guard interval occurs and the first and second wireless transmissions do not overlap in time.

Abstract: A method performed by a RRU of a distributed base station system, which further comprising a BBU, connected to the RRU. The RRU is arranged to wirelessly communicate with at least one UE. The method comprises determining a downlink channel estimate from received uplink signals and determining a first part of precoding coefficients to be used for precoding signals to be sent downlink to the at least one UE based on the determined downlink channel estimate. The method further comprises receiving a second part of the precoding coefficients from the BBU, precoding downlink signals of data received from the BBU using the first and the second part of the precoding coefficients and sending the precoded downlink signals to the at least one UE via the plurality of antennas.

Abstract: Disclosed is a method performed by a RRU of a distributed base station system of a wireless communication network, the RRU being connected to a BBU over a fronthaul link, the RRU being connected to N antennas. The method comprises obtaining uplink signals as received at the antennas from UEs wirelessly connected to the RRU, and obtaining a channel estimation matrix of wireless communication channels between UEs and the antennas. The method further comprises determining an error estimation matrix based on the channel estimation matrix, and on received reference signals yref,l, the received reference signals having L symbols, L being smaller than N, determining intermediate signals, based on the uplink signals, the channel estimation matrix and the error estimation matrix, and sending to the BBU over the fronthaul link, the determined intermediate signals.

Abstract: There is disclosed a method of operating a power-controlled radio node (C, 100) in a radio access network, the power-controlled radio node (C, 100) being in connection with a first Integrated Access and Backhaul, IAB, node (200, N1, N2) via a first communication link and being in connection with a second IAB node (200, N1, N2) via a second communication link, the method comprising transmitting uplink signaling on the first communication link based on power control information pertaining to the second communication link. The disclosure also pertains to related methods and devices.

Abstract: There is disclosed a method of operating an Integrated Access and Backhaul, IAB node (200, C, N3) in a radio access network, the method comprising performing, by the IAB node (200, N1, N2), power control for a first communication link between the IAB node (200, N1, N2) and a power-controlled radio node (10, 200, N3) based on power control information, the power control information pertaining to a second communication link between the power-controlled radio node (10, 200, N3) and a second IAB node (200, N2, N1). The disclosure also pertains to related methods and devices.