Discontinuous reception operation for licensed-assisted access

What is claimed is: 1. A method for operating a Discontinuous Reception, DRX, function at a user equipment, wherein the user equipment is configured with at least one licensed cell and at least one unlicensed cell and operates the DRX function, the method being performed by the user equipment, the method comprising: receiving, from a radio base station, a DRX-active instruction to be in DRX Active Time at least on the unlicensed cell until receiving the next downlink control information related to a downlink data transmission to be received via the unlicensed cell; and in response to receiving the DRX-active instruction, being in DRX Active Time at least on the unlicensed cell, comprising continuously monitoring a downlink control channel for downlink control information until receiving the next downlink control information related to the downlink data transmission to be received via the unlicensed cell, wherein the DRX-active instruction is included in a control element of a Medium Access Control, MAC, protocol, wherein the MAC control element comprises a predetermined identification value indicating that the MAC control element is the DRX-active instruction, wherein the DRX-active instruction is included in downlink control information, DCI, transmitted on the downlink control channel, and wherein the DCI is of the 3rd Generation Partnership Project, 3GPP, DCI Format 1A and comprises information such that the DCI: is processed by the user equipment as an instruction to perform a random access procedure on a licensed cell when comprising an identification of this licensed cell, and is processed by the user equipment as the DRX-active instruction when comprising an identification of the unlicensed cell. 2. The method according to claim 1 , wherein upon receiving the next downlink control information, the user equipment continues operating the DRX function, comprising being in DRX Active Time for an On-Duration of time and being not in DRX Active Time, according to a long or short DRX cycle of the DRX function. 3. The method according to claim 1 , wherein the DRX function is operated in common for the at least one licensed cell and the at least one unlicensed cell, comprising being in DRX Active Time and being not in DRX Active Time on the at least one licensed cell and the at least one unlicensed cell at the same time according to the common DRX function. 4. The method according to claim 1 , wherein upon reception of the DRX-active instruction, an unlicensed cell active timer is started, wherein the user equipment is in DRX Active Time at least on the unlicensed cell while the unlicensed cell active timer is running, and wherein the unlicensed cell active timer is stopped upon reception of the next downlink control information related to the downlink data transmission to be received via the unlicensed cell, and wherein the unlicensed cell active timer is stopped upon reception of a DRX instruction to become non-active, including a DRX instruction to enter a short DRX cycle or to enter a long DRX cycle. 5. The method according to claim 1 , wherein the user equipment follows the DRX-active instruction: immediately upon reception of the DRX-active instruction, or after a particular time period upon reception of the DRX-active instruction, wherein the particular time period is determined by the user equipment based on information included in the DRX-active instruction that indicates a number of subframes before the starting subframe of the next On-Duration period of the DRX function. 6. The method according to claim 1 , wherein at least a scheduling cell, on which downlink control information related to the downlink data transmission to be received via the unlicensed cell is received, and the unlicensed cell is not deactivated until receiving the next downlink control information, and wherein the scheduling cell and the unlicensed cell are not deactivated upon expiry of a cell deactivation timer configured for the scheduling cell and the unlicensed cell or upon reception of a cell deactivation instruction from the radio base station for the scheduling cell and the unlicensed cell. 7. A method for operating a Discontinuous Reception, DRX, function at a user equipment, wherein the user equipment is configured with at least one licensed cell and at least one unlicensed cell and operates the DRX function, the method comprising: receiving a DRX-active instruction to be in DRX Active Time at least on the unlicensed cell until receiving the next downlink control information related to a downlink data transmission to be received via the unlicensed cell; being in DRX Active Time at least on the unlicensed cell; and monitoring a downlink control channel, wherein the user equipment is in DRX Active Time for the unlicensed cell for a plurality of subframes in which the unlicensed cell is activated such that the user equipment continuously monitors the downlink control channel associated with the unlicensed cell for all of the subframes in which the unlicensed cell is activated, wherein the DRX-active instruction is included in a control element of a Medium Access Control, MAC, protocol, wherein the MAC control element comprises a predetermined identification value indicating that the MAC control element is the DRX-active instruction, wherein the DRX-active instruction is included in downlink control information, DCI, transmitted on the downlink control channel, and wherein the DCI is of the 3rd Generation Partnership Project, 3GPP, DCI Format 1A and comprises information such that the DCI: is processed by the user equipment as an instruction to perform a random access procedure on a licensed cell when comprising an identification of this licensed cell, and is processed by the user equipment as the DRX-active instruction when comprising an identification of the unlicensed cell. 8. The method according to claim 7 , wherein at least a scheduling cell, on which downlink control information related to a downlink data transmission to be received via the unlicensed cell is received, is not deactivated upon expiry of a cell deactivation timer configured for the scheduling cell, and wherein the scheduling cell is deactivated upon reception of a cell deactivation instruction from the radio base station and is activated upon reception of a cell activation instruction from the radio base station. 9. The method according to claim 7 , wherein the DRX function is operated in common for the at least one licensed cell and the at least one unlicensed cell, comprising being in DRX Active Time and being not in DRX Active Time on the at least one licensed cell and the at least one unlicensed cell at the same time according to the common DRX function such that the user equipment continuously monitors downlink control channels on the at least one licensed cell and on the at least one unlicensed cell at all of the subframes in which the unlicensed cell is activated. 10. The method according to claim 7 , wherein the DRX function is operated by the user equipment on the unlicensed cell and also on a scheduling cell in case downlink control information for the unlicensed cell is received via the scheduling cell, such that the user equipment monitors the downlink control channel associated with the unlicensed cell for all of the subframes in which the unlicensed cell is activated, and wherein the DRX function is separate from at least one further DRX function according to which the user equipment operates the at least one licensed cell, comprising being in DRX Active Time and being not in DRX Active Time on the at least one licensed cell according to the further DRX function. 11. A user equipment for operating a Disco