Methods and apparatuses for exchanging configuration information regarding a MRB in a MR-DC scenario

What is claimed: 1 . A method performed by a first radio access network (RAN) node, comprising: obtaining capability information regarding one or more neighbor nodes in a RAN, the capability information regarding the one or more neighbor nodes being associated with a multicast broadcast service (MBS); determining, based on the capability information regarding the one or more neighbor nodes, first configuration information regarding a multicast radio bearer (MRB); transmitting, to a second RAN node in a multi-radio dual connectivity (MR-DC) scenario, the first configuration information regarding the MRB, the second RAN node belonging to the one or more neighbor nodes; and receiving, from the second RAN node, second configuration information regarding the MRB, wherein each of the first configuration information regarding the MRB and the second configuration information regarding the MRB includes at least one of: an indicator regarding a service; a bearer type; packet data convergence protocol (PDCP) layer configuration information; radio link control (RLC) layer configuration information; and configuration information regarding a hybrid automatic repeat request (HARQ) feedback operation for a point to multipoint (PTM) MRB. 2 . The method of claim 1 , wherein the capability information regarding the one or more neighbor nodes indicates at least one of: whether a neighbor node within the one or more neighbor nodes supports a service belonging to the MBS; what service belonging to the MBS is supported by the neighbor node, in response to the neighbor node supporting the service belonging to the MBS; whether the neighbor node supports a point to multipoint (PTM) transmission; whether the neighbor node supports a hybrid automatic repeat request (HARQ) feedback operation, in response to the neighbor node supporting the PTM transmission; whether the neighbor node supports a multicast session in a radio resource control (RRC) connected state; whether the neighbor node supports a broadcast session in the RRC connected state; whether the neighbor node supports a multicast session in at least one of a RRC inactive state and a RRC idle state; whether the neighbor node supports a broadcast session in the at least one of the RRC inactive state and the RRC idle state; whether the neighbor node supports a multicast session associated with the MBS; and whether the neighbor node supports a broadcast session associated with the MBS. 3 . The method of claim 1 , wherein the indicator regarding the service is one of: an indicator implying that the service belongs to the MBS; an indicator implying that the service does not belong to the MBS; and a temporary mobile group identity (TMGI). 4 . The method of claim 1 , further comprising: transmitting, to the second RAN node, first information regarding a first group of associated user equipment (UEs), wherein each UE within the first group of associated UEs receives one service belonging to the MBS. 5 . The method of claim 4 , further comprising: receiving, from the second RAN node, second information regarding a second group of associated user equipment (UEs), wherein each UE within the second group of associated UEs receives one service belonging to the MBS. 6 . The method of claim 5 , wherein each of the first information regarding the first group of associated UEs and the second information regarding the second group of associated UEs includes at least one of: a list of UE identifiers (IDs) of the first group of associated UEs or a list of UE IDs of the second group of associated UEs; and an ID of the one service belonging to the MBS, wherein the one service belonging to the MBS is received by the first group of associated UEs or the second group of associated UEs. 7 . The method of claim 1 , wherein the bearer type includes one of: a point-to-point (PTP) MRB; a point-to-multipoint (PTM) MRB; and a bearer including a PTP RLC leg and a PTM RLC leg. 8 . A first radio access network (RAN) node, comprising: at least one memory; and at least one processor coupled with the at least one memory and operable to cause the first RAN node to: obtain capability information regarding one or more neighbor nodes in a RAN, the capability information regarding the one or more neighbor nodes being associated with a multicast broadcast service (MBS); determine, based on the capability information regarding the one or more neighbor nodes, first configuration information regarding a multicast radio bearer (MRB); transmit, to a second RAN node in a multi-radio dual connectivity (MR-DC) scenario, the first configuration information regarding the MRB, the second RAN node belonging to the one or more neighbor nodes; and receive, from the second RAN node, second configuration information regarding the MRB, wherein each of the first configuration information regarding the MRB and the second configuration information regarding the MRB includes at least one of: an indicator regarding a service; a bearer type; packet data convergence protocol (PDCP) layer configuration information; radio link control (RLC) layer configuration information; and configuration information regarding a hybrid automatic repeat request (HARQ) feedback operation for a point to multipoint (PTM) MRB. 9 . The first RAN node of claim 8 , wherein the capability information regarding the one or more neighbor nodes indicates at least one of: whether a neighbor node within the one or more neighbor nodes supports a service belonging to the MBS; what service belonging to the MBS is supported by the neighbor node, in response to the neighbor node supporting the service belonging to the MBS; whether the neighbor node supports a point to multipoint (PTM) transmission; whether the neighbor node supports a hybrid automatic repeat request (HARQ) feedback operation, in response to the neighbor node supporting the PTM transmission; whether the neighbor node supports a multicast session in a radio resource control (RRC) connected state; whether the neighbor node supports a broadcast session in the RRC connected state; whether the neighbor node supports a multicast session in at least one of a RRC inactive state and a RRC idle state; whether the neighbor node supports a broadcast session in the at least one of the RRC inactive state and the RRC idle state; whether the neighbor node supports a multicast session associated with the MBS; and whether the neighbor node supports a broadcast session associated with the MBS. 10 . The first RAN node of claim 8 , wherein the indicator regarding the service is one of: an indicator implying that the service belongs to the MBS; an indicator implying that the service does not belong to the MBS; and a temporary mobile group identity (TMGI). 11 . The first RAN node of claim 8 , wherein the bearer type includes one of: a point-to-point (PTP) MRB; a PTM MRB; and a bearer including a PTP RLC leg and a PTM RLC leg. 12 . The first RAN node of claim 8 , wherein the at least one processor is further operable to cause the first RAN node to: transmit, to the second RAN node, first information regarding a first group of associated user equipment (UEs), wherein each UE within the first group of associated UEs receives one service belonging to the MBS. 13 . The first RAN node of claim 12 , wherein the at least one processor is further operable to cause the first RAN node to: receive, from the second RAN node, second information regarding a second group of associated user equipment (UEs), wherein each UE within the second group of associated UEs receives one service belonging to the MBS.