Optimized user equipment replaying

The invention claimed is: 1. A method, performed by a user equipment, for relaying a communication in a network, in which the user equipment relays a communication between a network node entity and a target entity, the method comprising: receiving, from the network node entity, a first identifier for a first logical channel between the relaying user equipment and the target entity, and a second identifier for a second logical channel between the relaying user equipment and the network node entity; assigning the first identifier to the first logical channel between the relaying user equipment and the target entity; receiving, in a first sublayer that is included in a layer 2 in an Open Systems Interconnection model, data comprising the first identifier and transmitted from the network node entity; forwarding, in a second sublayer that is included in the layer 2 and that is above the first sublayer, the received data received from the network node entity to the target entity based on the first identifier; assigning the second identifier to the second logical channel between the relaying user equipment and the network node entity; receiving, in a Media Access Control (MAC) layer, data comprising the second identifier and transmitted from the target entity; and forwarding, in the MAC layer, the data received from the target entity to the network node entity based on the second identifier. 2. The method for relaying a communication in a network according to claim 1 , wherein the first and second logical channels are generated by configuring: a radio bearer between the relaying user equipment and the network node entity, and a radio bearer between the relaying user equipment and the target entity. 3. The method for relaying a communication in a network according to claim 2 , further comprising receiving, from the network node entity, parameters for setting up said radio bearers. 4. The method for relaying a communication in a network according to claim 3 , wherein said first and second identifiers and the parameters are included in a Radio Resource Control signalling message sent from said network node entity to the relaying user equipment. 5. The method for relaying a communication in a network according to claim 4 , wherein said signalling message is a Radio Resource Control Connection Reconfiguration message. 6. The method for relaying a communication in a network according to claim 1 , wherein the first sublayer is the MAC layer or a Radio Link Control (RLC) layer. 7. The method for relaying a communication in a network according to claim 6 , wherein the first sublayer is the MAC layer, and said first and second logical channel identifiers are comprised in a MAC Protocol Data Unit. 8. The method for relaying a communication in a network according to claim 6 , wherein the first sublayer is the RLC layer, and said first and second logical channel identifiers are comprised in a RLC Protocol Data Unit. 9. The method for relaying a communication in a network according to claim 1 , wherein the first sublayer and the second sublayer are configured by the network. 10. The method for relaying a communication in a network according to claim 9 , wherein information related to the first sublayer and the second sublayer is included in a Radio Resource Control signalling message sent from said network node entity to the relaying user equipment. 11. A non-transitory computer readable medium that stores a computer program, the computer program comprising instructions for performing the method as claimed in claim 1 , when run by a processor. 12. A user equipment for relaying a communication in a network, between a network node entity and a target entity, the user equipment comprising: a transceiver; and a controller, comprising one or more processors, configured to: control the transceiver to receive, from the network node entity, a first identifier for a first logical channel between the relaying user equipment and the target entity, and a second identifier for a second logical channel between the relaying user equipment and the network node entity, assign the first identifier to the first logical channel between the relaying user equipment and the target entity, control the transceiver to receive, in a first sublayer that is included in a layer 2 in an Open Systems Interconnection model, data comprising the first identifier and transmitted from the network node entity, control the transceiver to forward, in a second sublayer that is included in the layer 2 and that is above the first sublayer, the received data received from the network node entity to the target entity based on the first identifier, assign the second identifier to the second logical channel between the relaying user equipment and the network node entity, control the transceiver to receive, in a Media Access Control (MAC) layer, data comprising the second identifier and transmitted from the target entity, and control the transceiver to forward, in the MAC layer, the data received from the target entity to the network node entity based on the second identifier. 13. The user equipment according to claim 12 , wherein the controller is further configured to generate the first logical channel between the relaying user equipment relay and the target entity.