Communication terminal and method for controlling a data transmission

What is claimed is: 1. A user equipment device (UE device) comprising: a quality determiner circuit configured to determine a quality parameter for a wireless communication link between the UE device and a radio access network component based on one or more signals received via the wireless communication link; a throughput determiner circuit configured to determine, based on the quality parameter, a throughput of a communication connection between the radio access network component and a server to be used for transmitting data from the server to the UE device via the communication connection and the wireless communication link; a maximum throughput determiner circuit configured to determine a maximum throughput based on the throughput and a result of a linear factor generation; and a controller configured to control the maximum throughput to be used for transmission of data via the communication connection from the server to the radio access network component according to the determined maximum throughput. 2. The user equipment device (UE device) of claim 1 , wherein controlling a maximum throughput comprises receiving data via the communication connection between the radio access network component and the server according to the determined maximum throughput. 3. The user equipment device (UE device) of claim 2 , wherein the controller is further configured to derive a maximum throughput parameter from the determined maximum throughput. 4. The user equipment device (UE device) of claim 2 , wherein the connection between the radio access network component and the server is a TCP connection and the maximum throughput parameter is a TCP receive window size. 5. The user equipment device (UE device) of claim 1 , further comprising a receiver configured to receive data from the server via the communication connection and the wireless communication link. 6. The user equipment device (UE device)of claim 5 , wherein the receiver is configured to receive the one or more signals from the radio access network component and wherein the quality determiner circuit is configured to measure the quality parameter based on the reception of the one or more signals. 7. The user equipment device (UE device) of claim 6 , wherein the quality parameter is based on a signal to noise measurement of the received one or more signals. 8. The user equipment device (UE device) of claim 1 , wherein the quality parameter is a round trip time between the communication terminal and the server. 9. The user equipment device (UE device) of claim 1 , wherein the throughput determiner circuit is configured to determine the throughput based on the quality parameter and an additional parameter characterizing a performance of the wireless communication link. 10. The user equipment device (UE device) of claim 9 , wherein the additional parameter specifies a throughput limit of the wireless communication link or an amount of communication resources available for the wireless communication link. 11. The user equipment device (UE device) of claim 1 , wherein the throughput determiner circuit is configured to determine the throughput based on the quality parameter by means of a predetermined lookup table. 12. A method for controlling a data transmission comprising: determining a quality parameter for a wireless communication link between a user equipment device (UE) and a radio access network component based on one or more signals received by the user equipment device (UE) via the wireless communication link; determining, based on the quality parameter, a throughput of a communication connection between the radio access network component and a server to be used for transmitting data from the server to the user equipment device (UE) via the communication connection and the wireless communication link; determining a maximum throughput based on the throughput and a result of a linear factor generation determined; and controlling the maximum throughput to be used for transmission of data via the communication connection from the server to the radio access network component according to the determined maximum throughput. 13. The method of claim 12 , wherein controlling a maximum throughput comprises receiving or transmitting data via the communication connection between the radio access network component and the server according to the determined maximum throughput. 14. The method of claim 13 , comprising deriving a maximum throughput parameter from the determined maximum throughput. 15. The method of claim 13 , wherein the connection between the radio access network component and the server is a TCP connection and the maximum throughput parameter is a TCP receive window size. 16. The method of claim 12 , further comprising receiving data from the server via the communication connection and the wireless communication link. 17. The method of claim 16 , comprising receiving the one or more signals from the radio access network component and measuring the quality parameter based on the reception of the one or more signals. 18. A computer readable non-transitory medium having recorded instructions thereon which, when executed by a processor, make the processor perform a method for controlling a data transmission according to claim 12 . 19. A communication terminal comprising: a quality determiner circuit configured to determine a quality parameter for a wireless communication link between the communication terminal and a radio access network component based on one or more signals received via the wireless communication link; a throughput determiner circuit configured to determine, based on the quality parameter, a throughput of a communication connection between the radio access network component and a server to be used for transmitting data from the server to the communication terminal via the communication connection and the wireless communication link; a linear factor generation circuit configured to determine a linear factor generation; a maximum throughput determiner circuit configured to determine a maximum throughput based on the throughput and a result of the linear factor generation; and a controller configured to dynamically control the maximum throughput to be used for transmission of data via the communication connection from the server to the radio access network component according to the determined maximum throughput. 20. The communication terminal of claim 19 , wherein the linear factor generation comprises at least one of physical resource blocks (PRB), time transmission intervals (TTI), available bandwidth, and combinations thereof.