Systems and methods for adapting a DRX configuration for a RAN based on a preferred DRX configuration of an associated capillary network

The invention claimed is: 1. A method performed by Radio Access Network, RAN, node of a radio communication network, wherein one or several communication devices are communicatively connectable to the RAN node via a gateway of a capillary network, the method comprising: acquiring information related to a Discontinuous Reception, DRX, configuration that is preferred by the gateway for a capillary network interface for communication from the gateway to the one or several communication devices in the capillary network; selecting, based on the acquired information, a DRX configuration for a radio interface for communication from the RAN node to the gateway in the radio communication network, the radio interface being of a different radio technology than the capillary network interface, the DRX configuration for the radio interface being selected to substantially match the DRX configuration that is preferred by the gateway for the capillary network interface; transmitting a configuration message including the selected DRX configuration to the gateway for configuring the gateway accordingly; and applying the selected DRX configuration to the RAN node. 2. The method according to claim 1 , wherein acquiring information related to the DRX configuration that is preferred by the gateway for the capillary network interface comprises: receiving a message including the information related to the DRX configuration that is preferred by the gateway for the capillary network interface from a Core Network, CN, node. 3. The method according to claim 2 , wherein the CN node is a Mobility Management Entity, MME. 4. The method according to claim 1 , wherein acquiring information related to the DRX configuration that is preferred by the gateway for the capillary network interface comprises: receiving a message including the information related to the DRX configuration that is preferred by the gateway for the capillary network interface from the gateway. 5. The method according to claim 4 , wherein the gateway is a Capillary Network Gateway, CGW. 6. The method according to claim 1 , further comprising: comparing a DRX configuration currently utilized by the RAN node with the DRX configuration that is preferred by the gateway for the capillary network interface in order to identify whether there is any mismatch between active time periods of the respective DRX configurations; and in response to identifying a mismatch between the active time periods of the respective DRX configurations compensating for the identified mismatch. 7. The method according to claim 6 , further comprising: comparing a DRX configuration currently utilized by the RAN node with the DRX configuration that is preferred by the gateway for the capillary network interface in order to identify whether there is any mismatch in the overlap between active time periods of the respective DRX configurations; in response to identifying a mismatch between the overlap of the active time periods of the respective DRX configurations checking whether said overlap mismatch is equal to or above an overlap mismatch threshold value; and compensating for the identified mismatch when said overlap mismatch is equal to or above the overlap mismatch threshold value. 8. The method according to claim 1 , wherein the information related to the DRX configuration that is preferred by the gateway for the capillary network interface comprises one or more of the following: information about the time length of the DRX cycle, information about the division into active and inactive periods of the DRX cycle. 9. The method according to claim 1 , wherein the RAN node is an evolved NodeB, eNB. 10. The method of claim 1 , wherein the capillary network interface is a local wireless radio interface and the radio interface is a cellular radio interface. 11. The method of claim 10 , wherein the local wireless radio interface is an IEEE 802.15.4 interface, a Bluetooth interface, or an IEEE 802.11 interface. 12. The method of claim 10 , wherein the cellular radio interface is a Third Generation Partnership Project, 3GPP, radio interface. 13. A method performed by a gateway of a capillary network, wherein one or several communication devices are communicatively connectable to a Radio Access Network, RAN, node of a radio communication network via the gateway, the method comprising: receiving, from the RAN node, a configuration message including a Discontinuous Reception, DRX, configuration for a radio interface for communication from the RAN node to the gateway in the radio communication network for configuring the gateway accordingly, wherein the DRX configuration substantially matches a DRX configuration preferred by the gateway for a capillary network interface for communication from the gateway to the one or several communication devices in the capillary network, wherein the capillary network interface is of a different radio technology than the radio interface; and applying the DRX configuration. 14. The method according to claim 13 , further comprising transmitting, to a network node of the radio communication network, a message including information related to a DRX configuration that is preferred by the gateway for the capillary network interface. 15. The method according to claim 14 , wherein the network node is a Services Capability Server, SCS. 16. The method according to claim 14 , wherein the network node is the RAN node. 17. The method according to claim 16 , wherein the RAN node is an evolved NodeB, eNB. 18. A Radio Access Network, RAN, node of a radio communication network for communication with a gateway of a capillary network, wherein one or several communication devices are communicatively connectable to the RAN node via the gateway, the RAN node comprising: circuitry configured to acquire information related to a Discontinuous Reception, DRX, configuration that is preferred by the gateway for a capillary network interface for communication from the gateway to the one or several communication devices in the capillary network; circuitry configured to select, based on the acquired information, a DRX configuration for a radio interface for communication from the RAN node to the gateway in the radio communication network, the radio interface being of a different radio technology than the capillary network interface, the DRX configuration for the radio interface being selected to substantially match the DRX configuration that is preferred by the gateway for the capillary network interface; circuitry configured to transmit a configuration message including the selected DRX configuration to the gateway for configuring the gateway accordingly; and circuitry configured to apply the selected DRX configuration to the RAN node. 19. The RAN node according to claim 18 , wherein the circuitry configured to acquire information related to the DRX configuration that is preferred by the gateway for the capillary network interface is adapted to receive a message including said information related to the DRX configuration that is preferred by the gateway for the capillary network interface from a Core Network, CN, node. 20. The RAN node according to claim 19 , wherein the CN node is a Mobility Management Entity, MME. 21. The RAN node according to claim 18 , wherein the circuitry configured to acquire information related to the DRX configuration that is preferred by the gateway for the capillary network interface is adapted to receive a message including the information related to the DRX c