Transmitting node and method for rank determination

The invention claimed is: 1. A method in a transmitting node for controlling a transmission rank in a wireless communications system, which wireless communications system comprises the transmitting node and a receiving node, and which transmitting node is configured to transmit on multiple antennas according to the transmission rank, the method comprising: allocating at least one first transmission resource between the transmitting node and the receiving node to operate according to a first transmission rank, and at least one second transmission resource between the transmitting node and the receiving node to operate according to a second transmission rank; when a performance of the second transmission rank outperforms a performance of the first transmission rank, configuring at least one of the at least one first transmission resource to operate according to the second transmission rank; and selecting a precoder and a Modulation and Coding Scheme, MCS, for the second transmission rank, the selecting of the precoder for the second transmission rank being performed by selecting the precoder with the highest number of precoder transitions from a precoder for the first transmission rank. 2. The method of claim 1 , wherein the at least one first transmission resource is at least one of (a) at least one first Hybrid Automatic Repeat reQuest, HARQ, process and (b) at least one first specific pair of System Frame Numbers, SFNs, and SubFrame numbers, SFs, and the at least one second transmission resource is at least one of (a) at least one second HARQ process and (b) at least one second specific pair of SFNs and SFs. 3. The method of claim 1 , wherein the first transmission rank is recommended by the receiving node. 4. The method of claim 1 , wherein selecting the precoder for the second transmission rank is performed based on an uplink channel state estimation. 5. The method of claim 1 , wherein selecting an initial MCS for the second transmission rank is performed by selecting an MCS such that the same number of bits per resource block is transmitted with the at least one second transmission resource as for the at least one first transmission resource. 6. The method of claim 1 , further comprising: when a performance of the second transmission rank outperforms a performance of the first transmission rank, computing a parameter to trigger the receiving node to recommend a precoder for the second transmission rank. 7. The method of claim 1 , further comprising at least one of: applying a first correction factor to the performance of the at least one first transmission resource, based at least in part on a first interference indicator received from a second transmitting node; and applying a second correction factor to the performance of the at least one second transmission resource, based at least in part on a second interference indicator received from the second transmitting node. 8. The method of claim 1 , wherein at least one of: the at least one first transmission resource comprises: at least one of: a first set of first HARQ processes dedicated to a first subframe type; and a second set of first HARQ processes dedicated to a second subframe type; and the at least one second transmission resource comprises: at least one of: a first set of second HARQ processes dedicated to a first subframe type; and a second set of second HARQ processes dedicated to a second subframe type. 9. The method of claim 1 , wherein at least one of: the at least one first transmission resource comprises: at least one of: a first set of subframes of the first subframe type dedicated to the first transmission rank; and a second set of subframes of the first subframe type dedicated to the second transmission rank; and the at least one second transmission resource comprises: at least one of: a first set of subframes of the second subframe type dedicated to the first transmission rank; and a second set of subframes of the second subframe type dedicated to the second transmission rank. 10. The method of claim 1 , wherein the second transmission rank comprises multiple second transmission ranks, and wherein a preferred transmission rank is defined, and wherein at least one of the at least one second transmission resource is dedicated to operate according to at least one non-preferred transmission rank, and wherein each of the at least one second transmission resource uses transmission ranks in different subsets of the non-preferred transmission ranks, and wherein at least one of: some sets are disjoint; and some sets have at least one transmission rank in common, the method further comprising: when one of the non-preferred transmission ranks outperforms the transmission rank defined as the preferred, updating the preferred transmission rank to equal the transmission rank that outperformed the preferred transmission rank, and updating the subsets of the non-preferred transmission ranks. 11. A transmitting node for controlling a transmission rank in a wireless communications system, which wireless communications system is adapted to comprise the transmitting node and a receiving node, and which transmitting node is adapted to transmit on multiple antennas according to the transmission rank, the transmitting node comprising: an allocating circuit configured to allocate at least one first transmission resource between the transmitting node and the receiving node to operate according to a first transmission rank, and at least one second transmission resource between the transmitting node and the receiving node to operate according to a second transmission rank; and a configuring circuit configured to configure at least one of the at least one first transmission resource to operate according to the second transmission rank, when a performance of the second transmission rank outperforms a performance of the first transmission rank; and a selecting circuit configured to select a precoder and a Modulation and Coding Scheme, MCS, for the second transmission rank, the selecting circuit being further configured to select the precoder for the second transmission rank by selecting the precoder with the highest number of precoder transitions from a precoder for the first transmission rank. 12. The transmitting node of claim 11 , wherein the at least one first transmission resource is at least one of (a) at least one first Hybrid Automatic Repeat reQuest, HARQ, process and (b) at least one first specific pair of System Frame Numbers, SFNs, and SubFrame numbers, SFs, and the at least one second transmission resource is at least one of (a) at least one second HARQ process and (b) at least one second specific pair of SFNs and SFs. 13. The transmitting node of claim 11 , wherein the first transmission rank is recommended by the receiving node. 14. The transmitting node of claim 11 , wherein the selecting circuit is further configured to select the precoder for the second transmission rank based on an uplink channel state estimation. 15. The transmitting node of claim 11 , wherein the selecting circuit is further configured to select an initial MCS for the second transmission rank by selecting an MCS such that the same number of bits per resource block is transmitted with the at least one second transmission resource as for the at least one first transmission resource. 16. The transmitting node of claim 11 , further comprising: a computing circuit configured to compute a parameter to trigger the receiving node to recommend a precoder for the second transmission rank when a performance of the second transmission