Method for WiFi beamforming, feedback, and sounding (WiBEAM)

What is claimed is: 1. A method for use in a wireless transmit/receive unit (WTRU) for providing beamforming feedback, the method comprising: receiving a sounding frame; performing a first measurement on the sounding frame; performing a first decomposition on the performed first measurement; performing a second decomposition on the performed first measurement to generate a set of resulting angles; selecting a first subset of the set of resulting angles and a second subset of the set of resulting angles, wherein the first subset of the set of resulting angles is distinct from the second subset of the set of resulting angles; quantizing each angle of the set of resulting angles to generate quantized angles by: determining a first range based on first angle statistics associated with the first subset of the set of resulting angles, assigning the first range to each angle of the first subset of the set of resulting angles, determining a second range based on second angle statistics associated with the second subset of the set of resulting angles, and assigning the second range to each angle of the second subset of the set of resulting angles, wherein the first range is different than the second range; and transmitting the quantized angles in a feedback frame. 2. The method of claim 1 wherein the first decomposition is a singular value decomposition (SVD). 3. The method of claim 1 wherein the second decomposition is a Givens rotation based decomposition. 4. The method of claim 1 wherein the feedback frame is a codebook component feedback frame. 5. The method of claim 1 wherein the feedback frame includes results of a monitored transmission by another WTRU. 6. The method of claim 1 further comprising: performing a second measurement on the sounding frame; performing a third decomposition on the performed second measurement; performing a fourth decomposition on the performed second measurement to generate a second set of resulting angles; calculating a difference between the set of resulting angles and the second set of resulting angles to determine differential resulting angles; selecting a first subset of the set of differential resulting angles and a second subset of the set of differential resulting angles, wherein the first subset of the set of differential resulting angles is distinct from the second subset of the set of differential resulting angles; quantizing each differential resulting angle by: determining a third range based on third angle statistics associated with the first subset of the set of differential resulting angles, assigning a third range to each angle of the first subset of the set of differential resulting angles, determining a fourth range based on fourth angle statistics associated with the second subset of the set of differential resulting angles, and assigning the fourth range to each angle of the second subset of the set of differential resulting angles, wherein the third range is different than the fourth range; and transmitting the quantized differential resulting angles in a second feedback frame. 7. The method of claim 1 wherein the quantized angles are transmitted in multiple frames. 8. The method of claim 1 wherein the feedback frame comprises a plurality of subframes, wherein each subframe includes a separate cyclic redundancy check (CRC). 9. The method of claim 1 wherein the feedback frame comprises a plurality of subframes, wherein feedback bits are assigned to each subframe based on significance. 10. The method of claim 1 wherein the feedback frame is transmitted in a plurality of feedback elements. 11. A wireless transmit/receive unit (WTRU) configured for providing beamforming feedback, the WTRU comprising: a receiver configured to receive a sounding frame; a processor configured to: perform a first measurement on the sounding frame, perform a first decomposition on the performed first measurement, perform a second decomposition on the performed first measurement to generate a set of resulting angles, select a first subset of the set of resulting angles and a second subset of the set of resulting angles, wherein the first subset of the set of resulting angles is distinct from the second subset of the set of resulting angles, quantize each angle of the set of resulting angles to generate quantized angles by: determining a first range based on first angle statistics associated with the first subset of the set of resulting angles, assigning the first range to each angle of the first subset of the set of resulting angles, determining a second range based on second angle statistics associated with the second subset of the set of resulting angles, and assigning the second range to each angle of the second subset of the set of resulting angles, wherein the first range is different than the second range; and a transmitter configured to transmit the quantized angles in a feedback frame. 12. The WTRU of claim 11 wherein the first decomposition is a singular value decomposition (SVD). 13. The WTRU of claim 11 wherein the second decomposition is a Givens rotation based decomposition. 14. The WTRU of claim 11 wherein the feedback frame is a codebook component feedback frame. 15. The WTRU of claim 11 wherein the feedback frame includes results of a monitored transmission by another WTRU. 16. The WTRU of claim 11 wherein the quantized angles are transmitted in multiple frames. 17. The WTRU of claim 11 wherein the feedback frame comprises a plurality of subframes, wherein each subframe includes a separate cyclic redundancy check (CRC). 18. The WTRU of claim 11 wherein the feedback frame comprises a plurality of subframes, wherein feedback bits are assigned to each subframe based on significance. 19. The WTRU of claim 11 wherein the feedback frame is transmitted in a plurality of feedback elements. 20. The WTRU of claim 11 , wherein the processor is further configured to: perform a second measurement on the sounding frame, perform a third decomposition on the performed second measurement, perform a fourth decomposition on the performed second measurement to generate a second set of resulting angles, calculate a difference between the set of resulting angles and the second set of resulting angles to determine differential resulting angles, select a first subset of the set of differential resulting angles and a second subset of the set of differential resulting angles, wherein the first subset of the set of differential resulting angles is distinct from the second subset of the set of differential resulting angles; and quantize each differential resulting angle by: determining a third range based on third angle statistics associated with the first subset of the set of differential resulting angles, assigning a third range to each angle of the first subset of the set of differential resulting angles, determining a fourth range based on fourth angle statistics associated with the second subset of the set of differential resulting angles, and assigning the fourth range to each angle of the second subset of the set of differential resulting angles, wherein the third range is different than the fourth range; and wherein the transmitter is further configured to transmit the quantized differential resulting angles in a second feedback frame.