Transmission mode allocation in LTE networks

What is claimed is: 1. A method, in a radio transceiver that supports two or more Multiple-Input Multiple-Output (MIMO) transmission and reception modes, the method comprising: evaluating channel conditions between the radio transceiver and a remote wireless device; comparing a throughput demand for the remote wireless device to a forward link capacity or reverse link capacity, or both; based on the channel conditions and the comparing of the throughput demand to the forward link capacity or reverse link capacity, or both, changing a forward link transmission mode or a reverse link transmission mode, or both, from a first multi-stream mode to a second multi-stream mode, the second multi-stream mode having fewer streams than the first multi-stream mode, despite that channel conditions for the corresponding link support the first multi-stream mode. 2. The method of claim 1 , wherein the first multi-stream mode is a four-stream spatial multiplexing mode and the second multi-stream mode is a two-stream spatial multiplexing mode. 3. The method of claim 1 , further comprising signaling the remote wireless device to switch from the first multi-stream mode to the second multi-stream mode for a subsequent reverse link transmission, and subsequently receiving data from the remote wireless device according to the second multi-stream mode. 4. The method of claim 1 , further comprising transmitting, to the remote wireless device, a forward link scheduling message indicating the change from the first multi-stream mode to the second multi-stream mode, and transmitting data to the remote wireless device according to the second multi-stream mode. 5. The method of claim 1 , wherein evaluating channel conditions between the radio transceiver and a remote wireless device comprises receiving and evaluating channel quality indicators sent by the remote wireless device, or measuring channel conditions based on reference symbols transmitted by the remote wireless device, or both. 6. The method of claim 1 , further comprising determining the throughput demand by evaluating a forward link buffer corresponding to the remote wireless device, or by receiving and evaluating a buffer status report from the remote wireless device, or both. 7. The method of claim 1 , wherein changing the forward link transmission mode or the reverse link transmission mode, or both, is based on determining that the throughput demand exceeds a predetermined fraction of a transmission-time-interval capacity. 8. The method of claim 1 , wherein changing the forward link transmission mode or the reverse link transmission mode, or both, is further based on an aggregate loading of the forward link or reverse link, or both. 9. A radio transceiver, comprising radio-frequency (RF) circuitry configured to support two or more Multiple-Input Multiple-Output (MIMO) transmission and reception modes, and a processing circuit configured to control the RF circuitry and to: evaluate channel conditions between the radio transceiver and a remote wireless device; compare a throughput demand for the remote wireless device to a forward link capacity or reverse link capacity, or both; and, based on the channel conditions and the comparing of the throughput demand to the forward link capacity or reverse link capacity, or both, change a forward link transmission mode or a reverse link transmission mode, or both, from a first multi-stream mode to a second multi-stream mode, the second multi-stream mode having fewer streams than the first multi-stream mode, despite that channel conditions for the corresponding link support the first multi-stream mode. 10. The radio transceiver of claim 9 , wherein the first multi-stream mode is a four-stream spatial multiplexing mode and the second multi-stream mode is a two-stream spatial multiplexing mode. 11. The radio transceiver of claim 9 , wherein the processing circuit is further configured to control the RF circuitry to signal the remote wireless device to switch from the first multi-stream mode to the second multi-stream mode for a subsequent reverse link transmission, and to subsequently receive data from the remote wireless device according to the second multi-stream mode. 12. The radio transceiver of claim 9 , wherein the processing circuit is further configured to control the RF circuitry to transmit, to the remote wireless device, a forward link scheduling message indicating the change from the first multi-stream mode to the second multi-stream mode, and to transmit data to the remote wireless device according to the second multi-stream mode. 13. The radio transceiver of claim 9 , wherein the processing circuit is configured to evaluate channel conditions between the radio transceiver and a remote wireless device by receiving and evaluating channel quality indicators sent by the remote wireless device, or by measuring channel conditions based on reference symbols transmitted by the remote wireless device, or both. 14. The radio transceiver of claim 9 , wherein the processing circuit is configured to determine the throughput demand by evaluating a forward link buffer corresponding to the remote wireless device, or by receiving and evaluating a buffer status report from the remote wireless device, or both. 15. The radio transceiver of claim 9 , wherein the processing circuit is configured to change the forward link transmission mode or the reverse link transmission mode, or both, based on determining that the throughput demand exceeds a predetermined fraction of a transmission-time-interval capacity. 16. The radio transceiver of claim 9 , wherein the processing circuit is configured to change the forward link transmission mode or the reverse link transmission mode, or both, based further on an aggregate loading of the forward link or reverse link, or both.