IAB Case-6 timing and adjustment

The invention claimed is: 1 . A parent network node configured to communicate with a network node, the parent network node comprising processing circuitry configured to: enable a first timing configuration, the first timing configuration enabling downlink transmission timing for the network node to be aligned with the downlink transmission timing of the parent network node; and based on the first timing configuration, switch to a second timing configuration, the second timing configuration enabling uplink transmission timing of the network node to be aligned with the downlink transmission timing of the network node; and before enabling the second timing configuration: determine whether to switch to the second timing configuration; and initiate a random access channel process to be performed to capture signaling from the network node before the enabling of the second timing configuration. 2 . The parent network node of claim 1 , wherein the processing circuitry is further configured to: determine to switch to the second timing configuration when one or more of the following requirements are met: a timing advance (TA) variation is no larger than a predetermined threshold; a guard symbol configuration for IAB in each slot; a propagation delay between the parent network node and the network node is not or has not changed so that changes of first timing configuration and the second timing configuration allows for one or more criteria; a signal level or signal quality measure during reception of signals from Mobile Termination (MT) to Distributed Unit (DU) is above a threshold value; and a backhaul traffic situation and requirements. 3 . The parent network node of claim 2 , wherein the one or more criteria comprise at least one of: timing changes are within a limit; changes of TA are within a limit; and changes of guard symbol configuration are within a limit. 4 . The parent network node of claim 1 , wherein the random access channel process is one or more of: a Physical Downlink Control Channel (PDCCH) ordered random access (RA), or higher layer ordered RA; a 2-step RA or 4-step RA; a Contention Free RA (CFRA) or Contention Based RA (CBRA); and a modified Physical Random Access Channel (PRACH) procedure containing a PRACH preamble only. 5 . The parent network node of claim 1 , wherein the random access channel process is initiated by at least one of: a Downlink Control Information (DCI); a Radio Resource Control (RRC) Reconfiguration; and a Medium Access Control (MAC) Control Element (CE). 6 . The parent network node of claim 1 , wherein the enabling of the second timing configuration corresponds to a switch from the first timing configuration to the second timing configuration. 7 . The parent network node of claim 1 , wherein the processing circuitry is further configured to, after enabling the second timing configuration, adjust the downlink transmission timing and uplink transmission timing and uplink reception timing. 8 . The parent network node of claim 7 , wherein the adjustment of the second timing configuration is based on at least one of: an estimated timing difference based on downlink SSB; an estimated timing based on downlink reference signals; an estimated timing based on uplink reference signals; and a reported Global Navigation Satellite System, GNSS, position for calculation of delay between the parent network node and the network node. 9 . The parent network node of claim 1 , wherein the adjusting of the second timing configuration is initiated according to one or more of: a number of times that the parent network node fails to receive signals from the network node; the expiry of a timer defined for the purpose of a second timing adjustment; and the transmit timings of at least two network nodes that are deviating such that the difference in reception timing compared to an ideal or predetermined reception timing is exceeding a threshold. 10 . The parent network node of claim 1 , wherein the first timing configuration corresponds to Case-1 timing and the second timing configuration corresponds to Case-6 timing. 11 . A network node configured to communicate with a parent network node, the network node comprising processing circuitry configured to: switch from a first timing configuration to a second timing configuration, the first timing configuration enabling downlink transmission timing of the network node to be aligned with the downlink transmission timing of the parent network node, the second timing configuration enabling uplink transmission timing for timing alignment with the downlink transmission timing of the network node; and before switching to the second timing configuration: receive an indication to perform random access channel process; and cause signaling based at least on performing the random access channel process, the signaling configured to be captured by the parent network node before the switching to the second timing configuration. 12 . The network node of claim 11 , wherein the random access channel process is one or more of: a Physical Downlink Control Channel (PDCCH) ordered random access (RA), or higher layer ordered RA; a 2-step RA or 4-step RA; a Contention Free RA (CFRA) or Contention Based RA (CBRA); and a modified Physical Random Access Channel (PRACH) procedure containing a PRACH preamble only. 13 . The network node of claim 11 , wherein the adjusting of the second timing configuration is initiated according to one or more of: a number of times that the parent network node fails to receive signals from the network node; and the expiry of a timer defined for the purpose of the second timing configuration adjustment. 14 . A method implemented by a parent network node configured to communicate with a network node, the method comprising: enabling a first timing configuration, the first timing configuration enabling downlink transmission timing for the network node to be aligned with the downlink transmission timing of the parent network node; and based on the first timing configuration, switching to a second timing configuration, the second timing configuration enabling uplink transmission timing of the network node to be aligned with the downlink transmission timing of the network node; and before enabling the second timing configuration: determining whether to switch to the second timing configuration; and initiating a random access channel process to be performed to capture signaling from the network node before the enabling of the second timing configuration. 15 . The method of claim 14 , wherein the determining of whether to switch to the second timing configuration comprises: determining to switch to the second timing configuration when one or more of the following requirements are met: a TA variation is no larger than a predetermined threshold; a guard symbol configuration for IAB in each slot; a propagation delay between the parent network node and the network node is not or has not changed so that changes of the first timing configuration and the second timing configuration allows for one or more criteria; a signal level or signal quality measure during reception of signals from MT to DU is above a threshold value; and a backhaul traffic situation and requirements. 16 . The method of claim 15 , wherein the one or more criteria comprise at least one of: timing changes are within a limit; changes of TA are within a limit; and changes of guard symbol configuration are within a limit. 17 . The method of claim 1