Methods for transmitting and receiving control information using time-frequency resources of decoding candidates

We claim: 1. A method performed at a radio access network node, the method comprising: decoding, at a transceiver, at least one set of decoding candidates, each set of decoding candidates being associated with at least one spatial layer within a UE-specific search space for the transceiver, and each decoding candidate in the at least one set of decoding candidates including at least one time-frequency control channel resource element, the UE-specific search space being a three-dimensional search space for a control channel; and detecting, at the transceiver, whether control information is present on the control channel based on the decoded at least one set of decoding candidates; wherein a spatial dimension of the UE-specific search space is determined based on a number of spatial layers associated with the UE-specific search space and a transmit diversity order for the at least one set of decoding candidates. 2. The method of claim 1 , wherein the three-dimensional search space includes a time dimension, a frequency dimension and a spatial dimension. 3. The method of claim 1 , further comprising: determining a number of decoding candidates in each of the at least one set of decoding candidates based on a total size of the UE-specific search space for the transceiver and the spatial dimension of the UE-specific search space for the transceiver. 4. The method of claim 1 , wherein the number of spatial layers corresponds to a number of antenna ports associated with the UE-specific search space. 5. The method of claim 3 , wherein the number of spatial layers corresponds to a number of antenna ports associated with the UE-specific search space. 6. The method of claim 3 , wherein the at least one set of decoding candidates includes at least two sets of decoding candidates, the at least two sets of decoding candidates including a different number of decoding candidates. 7. The method of claim 1 , wherein a number of decoding candidates in the at least one set of decoding candidates is determined based on the number of spatial layers associated with the UE-specific search space and the transmit diversity order for the at least one set of decoding candidates. 8. The method of claim 7 , wherein a total size of the UE-specific search space is independent of the number of spatial layers associated with the UE-specific search space. 9. The method of claim 8 , wherein a number of decoding candidates in the at least one set of decoding candidates is reduced when the number of spatial layers associated with the UE-specific search space is increased. 10. The method of claim 7 , wherein the number of spatial layers corresponds to a number of antenna ports associated with the UE-specific search space. 11. The method of claim 1 , wherein the at least one set of decoding candidates includes at least two sets of decoding candidates, each of the at least two sets of decoding candidates using at least partially overlapping time-frequency resources. 12. The method of claim 11 , wherein a size of the overlap between time-frequency resources is controlled independently for each aggregation level. 13. The method of claim 1 , wherein the at least one set of decoding candidates includes at least a first set of decoding candidates and at least a second set of decoding candidates, at least one decoding candidate in the first set of decoding candidates being identical in time and frequency to at least one decoding candidate in the second set of decoding candidates. 14. The method of claim 1 , wherein the at least one set of decoding candidates includes at least two sets of decoding candidates, each of the at least two sets of decoding candidates using identical time-frequency resources. 15. The method of claim 1 , wherein the at least one set of decoding candidates includes at least two sets of decoding candidates, each of the at least two sets of decoding candidates using non-overlapping time-frequency resources. 16. The method of claim 1 , wherein the at least one set of decoding candidates includes at least a first set of decoding candidates and at least a second set of decoding candidates, the first set of decoding candidates being associated with at least a first antenna port, and the second set of decoding candidates being associated with at least a second antenna port. 17. The method of claim 1 , wherein the at least one set of decoding candidates includes at least a first set of decoding candidates and at least a second set of decoding candidates, at least the first set of decoding candidates being allocated for transmitting control information with transmit diversity, and at least the second set of decoding candidates being allocated for transmitting control information without transmit diversity. 18. A method performed at a radio access network node, the method comprising: selecting, by a first transceiver, a decoding candidate from a set of decoding candidates for transmitting control information on a control channel, the set of decoding candidates being associated with at least one spatial layer within a UE-specific search space for a second transceiver, and the selected decoding candidate in the set of decoding candidates including at least one time-frequency control channel resource element, the UE-specific search space being a three-dimensional search space for the control channel; and transmitting, from the first transceiver to the second transceiver, control information using the at least one time-frequency control channel resource element corresponding to the selected decoding candidate; wherein a spatial dimension of the UE-specific search space is determined based on a number of spatial layers associated with the UE-specific search space and a transmit diversity order for the set of decoding candidates. 19. The method of claim 18 , further comprising: signaling, to the second transceiver, at least one of a total size of the UE-specific search space, the spatial dimension of the UE-specific search space, a number of antenna ports associated with the UE-specific search space, identifies of the antenna ports, and the transmit diversity order. 20. A method performed at a radio access network node, the method comprising: selecting, by a first transceiver, a set of decoding candidates from among a plurality of sets of decoding candidates based on whether control information is to be transmitted with or without transmit diversity, the plurality of sets of decoding candidates including a first set of decoding candidates allocated for transmitting control information with transmit diversity and a second set of decoding candidates allocated for transmitting control information without transmit diversity, the first set of decoding candidates being associated with at least two spatial layers within a UE-specific search space for a second transceiver and the second set of decoding candidates being associated with at least one spatial layer within the UE-specific search space for the second transceiver, each decoding candidate in the first and second sets of decoding candidates including at least one time-frequency control channel resource element, the UE-specific search space being a three-dimensional search space for a control channel; selecting, by the first transceiver, a decoding candidate from the selected set of decoding candidates; and transmitting, from the first transceiver to the second transceiver, the control information using the at least one time-frequency control channel resource element of the selected decoding candidate; where