Method of signalling in an integrated access and backhaul network

We claim: 1. A method of signalling in an Integrated Access and Backhaul (IAB) network, the method comprising at least one of: a) signalling, from a parent IAB node to a child IAB node, information required for association of the child IAB node with the parent IAB node, wherein the information required for association includes one of: i) at least one of multiplexing capability, hop order, number of child IAB nodes associated, outage probability, and interference and load of the parent IAB node, and ii) a joint metric calculated by the parent IAB node based on at least one of the multiplexing capability, the hop order, the number of child IAB nodes associated, the outage probability, and the interference and load of the parent IAB node, and b) reporting, either separately or jointly, information related to the multiplexing capability and supported modes of operation from the child IAB node to at least one of a Central Unit (CU) of a donor node and the parent IAB node; wherein the reporting is done by one of: a distributed unit (DU) of the child IAB node to the CU of the donor node through an F1-application protocol (F1-AP) interface, and by a mobile termination (MT) of the child IAB node to a DU of the parent IAB node connected to the parent IAB node, and the DU of the child IAB node to the CU of the donor node through the F1-AP interface, wherein the CU of the donor node forwards the information related to the multiplexing capability and the supported modes of operation to the DU of the parent IAB node through the F1-AP interface. 2. The method as claimed in claim 1 , wherein the information required for association is used by the child IAB node to calculate the joint metric. 3. The method as claimed in claim 1 , wherein the parent IAB node signals the joint metric along with the multiplexing capability to the child IAB node. 4. The method as claimed in claim 1 , further comprising: determining an active mode of operation at the child IAB node by one of the donor node, the parent IAB node and the child IAB node, and performing at least one of: exchanging information regarding switching from one active mode to another active mode, exchanging information regarding default mode, exchanging information related to Timing Advance (TA) for each active mode of operation, exchanging information related to guard time for each active mode of operation, and exchanging information related to In-Band Full Duplexing (IBFD) mode of operation. 5. The method as claimed in claim 4 , wherein the active mode of operation of the child IAB node is determined by the donor node based on the at least one of multiplexing capability and supported modes of the child IAB node, multiplexing capability, supported modes, and resource configuration of the parent IAB node, and network conditions. 6. The method as claimed in claim 5 , wherein the active mode of operation of the child IAB node determined by the donor is communicated to at least one of the parent IAB node and the child IAB node. 7. The method as claimed in claim 4 , wherein the active mode of operation of the child IAB node is determined by the parent IAB node based on at least one of multiplexing capability and supported modes of the child IAB node, resource configuration of the DU of the child IAB node, and active mode of operation of the parent IAB node. 8. The method as claimed in claim 4 , wherein the active mode of operation is derived by the child IAB node by one of explicit signalling from one of the donor node and the parent IAB node, and implicitly based on at least one of resource configuration of the MT and DU of the child IAB node, multiplexing capability of the child IAB node, supported modes of the child IAB node, and additional information including TA and guard period received from the parent IAB node. 9. The method as claimed in claim 4 , further comprises signalling a duration of the active mode of operation by the parent IAB node to the child IAB node. 10. The method as claimed in claim 4 , wherein the active mode of operation at the child IAB node is a default mode when information regarding a switch from one active mode to another active node is not received by the child IAB node from the parent IAB node. 11. The method as claimed in claim 10 , wherein the default mode is signalled to the child IAB node by the parent IAB node. 12. The method as claimed in claim 4 , wherein the TA signalled from the parent IAB node to the child IAB node depends on at least one of the active mode of operation of the parent IAB node, the active mode of operation of the child IAB node, and timing of UL reception at the parent IAB node. 13. The method as claimed in claim 4 , wherein an offset to the TA is signalled from the parent IAB node to the child IAB node. 14. The method as claimed in claim 4 , wherein the TA is updated by one of: initiating a Random Access CHannel (RACH) procedure and updating TA value corresponding to a new mode of operation in Random Access Response (RAR) when a mode switch happens, signalling the TA value corresponding to a new mode of operation by the parent IAB node to the child IAB node, when the active mode of operation is switched by at least one of the parent IAB node and the child IAB node, and signalling a set of TA values for all possible modes of operation for a time frame from the parent IAB node to the child IAB node. 15. The method as claimed in claim 4 , wherein guard information for each active mode includes guard symbols, wherein the guard symbols depends on at least one of: resource configuration of MT and DU of an IAB node, propagation delay in a backhaul link of the IAB node, Downlink (DL) to Uplink (UL) and UL to DL switching time required at the IAB node, TA used for Uplink Transmission (UL-Tx) at the IAB node, wherein the TA used for UL-Tx depends on an active mode of operation of the IAB node and its parent node, and a timing of Uplink Reception (UL-Rx) at the IAB node, wherein the timing of UL-Rx depends on an active mode of operation of the IAB node and its child IAB node. 16. The method as claimed in claim 4 , wherein exchanging guard information includes one of: signalling the guard information for all possible modes of operation from the parent IAB node to the child IAB node, and signalling the guard information corresponding to a new mode of operation by the parent IAB node to the child IAB node, when the active mode of operation is switched by at least one of the parent IAB node and the child IAB node. 17. The method as claimed in claim 4 , wherein signalling of guard information to prevent overlap between resources at MT and DU of the child IAB node when the DU of the child IAB node is configured as Flexible (F) resource, comprises one of: parent IAB node inserts guard at the MT of the child IAB node assuming resource configuration of F resource at the DU of the child IAB node as the one corresponding to maximum guard duration, parent IAB node inserts guard at the MT of child IAB node assuming resource configuration of F resource at the DU of the child IAB node as the one corresponding to minimum guard duration, parent IAB node inserts guard at the MT of child IAB node based on dynamic configuration of the F resource at the DU of the child IAB node, wherein the child IAB node signals the dynamic configuration of the F resource to the parent IAB node; and child IAB node dynamically configures the F resource at the DU such that guard is inserted at a start or end of the F resource to avoid overlap with MT, and wherein the F resource is at least one of u