Predictive scheduling for uplink transmission in a cellular network

The invention claimed is: 1. A method of controlling radio transmission in a cellular network, the method comprising: detecting, by a network node, data traffic between a sender sending data in the cellular network and a user equipment, the data traffic being based on a transport protocol which involves transmission of an acknowledgement to acknowledge successful reception of data by the user equipment; determining, by the network node, an estimated time interval between the sender sending data to the user equipment and reception of the acknowledgement at the network node for this data from the user equipment; determining, by the network node, a transmission delay between the network node and the sender of the data, wherein the transmission delay comprises the time between the sender of the data sending the data and the network node receiving the data; based on the estimated time interval and the transmission delay, estimating by the network node, an estimated time at which sending of a future acknowledgement by the user equipment is expected; on the basis of the estimated time at which sending of the future acknowledgement by the user equipment is expected, allocating, by the network node, uplink radio resources to the user equipment; and indicating, by the network node, the allocated uplink radio resources to the user equipment. 2. The method according to claim 1 , further comprising: estimating by the network node a size of the future acknowledgement to determine an amount of uplink radio resources needed to transmit the future acknowledgement; and allocating by the network node the uplink radio resources on the basis of the estimated size. 3. The method according to claim 2 , wherein said estimating comprises determining an estimated size of a window of data which a sender is currently allowed to send according to the transport protocol. 4. The method according to claim 2 , wherein said detecting and/or estimating is performed based on inspecting data traffic of the user equipment. 5. The method according to claim 2 , wherein said estimating is performed based on evaluating parameters of a retransmission protocol implemented between the cellular network and the user equipment. 6. The method according to claim 2 , wherein said estimating is performed based on information from active queue management for a radio link between the cellular network and the user equipment. 7. The method according to claim 1 , wherein said estimating is performed based on an expected time interval between availability of uplink data at the user equipment and sending of a scheduling request by the user equipment to obtain uplink radio resources for sending the uplink data. 8. The method according to claim 1 , wherein said estimating comprises determining a waiting time between sending data of said data traffic from the network node to the user equipment and sending an uplink grant indicating the allocated uplink radio resources from the network node to the user equipment. 9. A network node for a cellular network, the network node comprising: an interface for transmission of data packets with respect to a user equipment; and at least one processor, wherein the at least one processor is configured to: detect data traffic between a sender sending data in the cellular network and the user equipment, the data traffic being based on a transport protocol which involves transmission of an acknowledgement through the interface to acknowledge successful reception of data by the user equipment; determine an estimated time interval between the sender sending data to the user equipment and reception of the acknowledgement at the network node for this data from the user equipment; determine a transmission delay between the network node and a sender of the data, wherein the transmission delay comprises the time between the sender of the data sending the data and the network node receiving the data; based on the estimated time interval and the transmission delay, estimate an estimated time at which sending of a future acknowledgement by the user equipment is expected; on the basis of the estimated time at which sending of the future acknowledgement by the user equipment is expected, allocate uplink radio resources to the user equipment; and indicate the allocated uplink radio resources to the user equipment through the interface. 10. The network node according to claim 9 , wherein the at least one processor is configured to: estimate a size of the future acknowledgement to determine an amount of uplink radio resources needed to transmit the future acknowledgement; and allocate the uplink radio resources on the basis of the estimated size. 11. The network node according to claim 10 , wherein said estimating comprises determining an estimated size of a window of data which a sender is currently allowed to send according to the transport protocol. 12. The network node according to claim 10 , wherein said detecting and/or estimating is performed based on inspecting data traffic of the user equipment. 13. The network node according to claim 10 , wherein said estimating is performed based on evaluating parameters of a retransmission protocol implemented between the cellular network and the user equipment. 14. The network node according to claim 10 , wherein said estimating is performed based on information from active queue management for a radio link between the cellular network and the user equipment. 15. The network node according to claim 9 , wherein said estimating is performed based on an expected time interval between availability of uplink data at the user equipment and sending of a scheduling request by the user equipment to obtain uplink radio resources for sending the uplink data. 16. The network node according to claim 9 , wherein said estimating comprises determining a waiting time between sending data of said data traffic from the network node to the user equipment and sending an uplink grant indicating the allocated uplink radio resources from the network node to the user equipment through the interface. 17. A computer program product comprising a non-transitory computer readable storage medium storing program code to be executed by at least one processor of a network node for a cellular network, wherein execution of the program causes the network node to operate in accordance with a method according to claim 1 .