Methods and apparatuses for operating a radio network controller during a soft handover process

The invention claimed is: 1. A method of operating a Radio Network Controller (RNC) of a communication network during a soft handover process of a mobile terminal between a first base station (BS) and at least one second BS that are connected to the RNC, the method comprising: receiving, at a Medium Access Control (MAC) protocol layer of the RNC, a first data frame stream from the first BS via a first data path and a second data frame stream from the at least one second BS via a second data path; determining a relative delay between data frames of the first data frame stream and the second data frame stream regarding their arrival at the RNC; merging, at the MAC protocol layer, the data frames of the first and the second data frame stream into a third data frame stream which is transmitted to a protocol layer above the MAC protocol layer; wherein the merging selectively comprises a reordering process of the data frames based on the relative delay; wherein, if the relative delay for a data frame exceeds a delay difference reference value, the data frame is transmitted from the MAC protocol layer to the protocol layer above the MAC protocol layer without subjecting the data frame to the reordering process. 2. The method of claim 1 , wherein the relative delay is determined as a delay difference between associated data frames of the first and the second data frame stream. 3. The method of claim 2 , wherein, if the relative delay for the data frame exceeds the delay difference reference value, the data frame bypasses the reordering process such that the data frame arrives at the protocol layer above the MAC protocol layer possibly before an associated data frame subjected to the reordering process arrives at the protocol layer above the MAC protocol layer. 4. The method of claim 1 : wherein the reordering process is based on a MAC protocol layer reordering queue or buffer; wherein, if the relative delay for the data frame exceeds the delay difference reference value, the merging, instead of adding the data frame to the MAC protocol layer reordering queue or buffer, bypasses the MAC protocol layer reordering queue or buffer. 5. The method of claim 1 : wherein the reordering process is based on a MAC protocol layer reordering queue; wherein, if the relative delay for the data frame is below the delay difference reference value, the merging adds the data frame to the MAC protocol layer reordering queue or a MAC protocol layer reordering buffer. 6. The method of claim 1 : wherein the relative delay is determined as a delay difference between associated data frames of the first and the second data frame stream; wherein the relative delay is the sum of two or more delay values, a first delay value reflecting a systematic propagation duration difference between the associated data frames and a second delay value reflecting a dynamic delay difference between the associated data frames. 7. The method of claim 6 , wherein the systematic propagation duration difference is at least partially a result of different technical realizations of the first and second data paths. 8. The method of claim 6 , wherein the dynamic delay difference is determined by processing time stamps of the associated data frames. 9. The method of claim 8 , wherein the time stamps of the associated data frames comprise at least one of Connection Frame Numbers (CFNs) and Subframe Numbers (SNs). 10. The method of claim 1 : wherein the data frames are temporarily delayed in one or more data queues or data buffers of a transport network comprising the first data path and the second data path; wherein a length of the one or more data queues or data buffers is controlled by an Active Queue Management (AQM), based congestion control mechanism. 11. The method of claim 1 : wherein the protocol layer above the MAC protocol layer is a Radio Link Control (RLC) protocol layer; wherein a RLC Protocol Data Unit (PDU) size is fixed; further comprising determining whether the relative delay is larger than an estimated RLC window wrap around time; further comprising blocking transmission of a corresponding delayed data frame from the MAC protocol layer to the RLC protocol layer if the relative delay is larger than the estimated RLC window wrap around time. 12. The method of claim 1 : wherein the protocol layer above the MAC protocol layer is a Radio Link Control (RLC) protocol layer; wherein a RLC Protocol Data Unit (PDU) size is fixed; further comprising determining whether a data frame transmitted from the MAC protocol layer to the protocol layer above the MAC protocol layer comprises a gap filler PDU; further comprising discarding, at the RLC protocol layer, the data frame if the data frame is not a gap filler PDU. 13. The method of claim 1 , wherein the first data path is a serving data path and the second data path is a non-serving data path during the soft handover process. 14. The method of claim 1 , wherein the MAC protocol layer is a MAC-es layer. 15. A computer program product stored in a non-transitory computer readable medium for controlling operation of a Radio Network Controller (RNC) of a communication network during a soft handover process of a mobile terminal between a first base station (BS) and at least one second BS that are connected to the RNC, the computer program product comprising software instructions which, when run on one or more processing circuits, causes the one or more processing circuits to: receive, at a Medium Access Control (MAC) protocol layer of the RNC, a first data frame stream from the first BS via a first data path and a second data frame stream from the at least one second BS via a second data path; determine a relative delay between data frames of the first data frame stream and the second data frame stream regarding their arrival at the RNC; merge, at the MAC protocol layer, the data frames of the first and the second data frame stream into a third data frame stream which is transmitted to a protocol layer above the MAC protocol layer; wherein the merging selectively comprises a reordering process of the data frames based on the relative delay; wherein, if the relative delay for a data frame exceeds a delay difference reference value, the data frame is transmitted from the MAC protocol layer to the protocol layer above the MAC protocol layer without subjecting the data frame to the reordering process. 16. A Radio Network Controller (RNC) for a communication network that is configured for a soft handover of a mobile terminal between a first base station (BS) and at least one second BS that are connected to the RNC, the RNC comprising: a receiving circuit configured to receive, at a Medium Access Control (MAC) protocol layer of the RNC, a first data frame stream from the first BS via a first data path and a second data frame stream from the at least one second BS via a second data path; a determining circuit configured to determine a relative delay between data frames of the first and the second data frame stream regarding their arrival at the RNC; a merging circuit configured to merge, at the MAC protocol layer, the data frames of the first and the second data frame stream into a third data frame stream which is transmitted to a protocol layer above the MAC protocol layer, wherein the merging selectively comprises a reordering process of the data frames based on the relative delay, wherein, if the relative delay for a data frame exceeds a delay difference reference value, the data frame is transmitted from the MAC protocol layer to the protocol layer above the MAC protocol layer withou