Data flow manager for load-balancing data for a data stream of a user equipment, communication system and method

The invention claimed is: 1 . A data flow manager for distributing data of a data stream of a user equipment via at least a first communication link and a second communication link, wherein the second communication link is independent of the first communication link, the data flow manager comprising: a network interface configured to receive a first status signal indicating a first link quality of the first communication link and a second status signal indicating a second link quality of the second communication link; and a processor configured to: determine whether the first link quality of the first communication link is better than a first quality threshold; determine whether the second link quality of the second communication link is better than a second quality threshold; and in response to both the first link quality being better than the first quality threshold and the second link quality being better than the second quality threshold, perform load-balancing by selecting a prioritization link from among the first communication link and the second communication link, wherein the selection of the prioritization link from among the first communication link and the second communication link is independent of the first link quality and the second link quality, and wherein the selection of the prioritization link from among the first communication link and the second communication link is based on criteria different from link quality criteria corresponding to the first and second link qualities. 2 . The data flow manager of claim 1 , wherein the processor is further configured to submit at least one priority indicator to a user equipment based on the selected prioritization link, wherein the at least one priority indicator sets a prioritization of the first communication link or second communication link. 3 . The data flow manager of claim 1 , wherein the link quality of the selected prioritization link is worse than the link quality of the non-selected link. 4 . The data flow manager of claim 1 , wherein a respective link quality indicator indicates at least one of the following link quality parameters: possible data throughput, data rate, bit error rate, packet error rate, communication delay, signal to noise ratio, or communication bandwidth. 5 . The data flow manager of claim 1 , wherein the processor is further configured to determine a reduction of the amount of data and an increase of the amount of data for the load-balancing based on a look-up table, wherein the look-up table assigns reductions of amounts of data and increases of amounts of data to link qualities. 6 . The data flow manager of claim 1 , wherein the processor is further configured to output user equipment control signals; and wherein the network interface is further configured to transmit the user equipment control signals via the first communication link and/or the second communication link to the user equipment. 7 . The data flow manager of claim 6 , wherein the user equipment control signals are configured to control multi-connectivity network functions of the user equipment. 8 . The data flow manager of claim 1 , wherein the first quality threshold corresponds to a different parameter relative to the second quality threshold. 9 . The data flow manager of claim 1 , wherein the first quality threshold corresponds to a same parameter as the second quality threshold, and wherein the first quality threshold corresponds to a different threshold value relative to the second quality threshold. 10 . The data flow manager of claim 1 , wherein the criteria for selection of the prioritization link is based on respective costs to a provider associated with the first and second communication links. 11 . A communication system, comprising: at least a first communication link and a second communication link for providing access to a communication network, wherein the second communication link is independent of the first communication link; a user equipment configured to simultaneously communicate with the first communication link and the second communication link; and a data flow manager comprising: a network interface configured to receive a first status signal indicating a first link quality of the first communication link and a second status signal indicating a second link quality of the second communication link; and a processor configured to: determine whether the first link quality of the first communication link is better than a first quality threshold; determine whether the second link quality of the second communication link is better than a second quality threshold; and in response to both the first link quality being better than the first quality threshold and the second link quality being better than the second quality threshold, perform load-balancing by selecting a prioritization link from among the first communication link and the second communication link, wherein the selection of the prioritization link from among the first communication link and the second communication link is independent of the first link quality and the second link quality, and wherein the selection of the prioritization link from among the first communication link and the second communication link is based on criteria different from link quality criteria corresponding to the first and second link qualities; and submit at least one priority indicator to the user equipment based on the selected prioritization link, wherein the at least one priority indicator sets a prioritization of the first communication link or second communication link. 12 . The communication system of claim 11 , wherein the processor of the data flow manager is further configured to output user equipment control signals; and wherein the network interface of the data flow manager is further configured to transmit the user equipment control signals via the first communication link and/or the second communication link to the user equipment. 13 . The communication system of claim 12 , wherein the user equipment control signals are configured to control multi-connectivity network functions of the user equipment. 14 . The communication system of claim 11 , wherein the user equipment further comprises: a multi-connectivity unit configured to request an amount of data from at least the first communication link and the second communication link; a communication interface configured to receive the at least one priority indicator, wherein the at least one priority indicator serves as at least one user equipment control signal; and a control unit configured to select a prioritization link from the first communication link or the second communication link based on the at least one priority indicator. 15 . The communication system of claim 14 , wherein the control unit is configured to mandatorily select the prioritization link according to the at least one priority indicator. 16 . The communication system of claim 11 , wherein the link quality of the selected prioritization link is worse than the link quality of the non-selected link. 17 . The communication system of claim 11 , wherein the criteria for selection of the prioritization link is based on respective costs to a provider associated with the first and second communication links. 18 . A method for assigning data of a data stream of a user equipment via at least a first communication link and a second communication link, wherein the second communication link is independent of the first communication link, the method comprising: providing acc