Revision as of 10:50, 19 October 2015 edit 132.168.158.86 (talk) Grammatical Mistake ← Previous edit		Revision as of 17:26, 18 May 2016 edit undo Headbomb (talk \| contribs) Edit filter managers, Autopatrolled, Extended confirmed users, Page movers, File movers, New page reviewers, Pending changes reviewers, Rollbackers, Template editors 473,183 edits m →Performance of Zero-forcing Precoding: clean up, replaced: IEEE Trans. Information Theory → IEEE Transactions on Information Theory using AWB Next edit →
Line 4: ==Performance of Zero-forcing Precoding== If the transmitter knows the downlink [[channel state information]] (CSI) perfectly, ZF-precoding can achieve almost the system capacity when the number of users is large. On the other hand, with limited [[channel state information]] at the transmitter (CSIT) the performance of ZF-precoding decreases depending on the accuracy of CSIT. ZF-precoding requires the significant feedback overhead with respect to signal-to-noise-ratio (SNR) so as to achieve the full multiplexing gain.<ref name="Jindal_ZF">{{cite journal\|author=N. Jindal\|title=MIMO Broadcast Channels with Finite Rate Feedback\|journal=IEEE ~~Trans.~~Transactions on Information Theory.\|pages=5045–5059\|volume=52\|issue=11\|date=Nov 2006\|doi=10.1109/TIT.2006.883550}}</ref> Inaccurate CSIT results in the significant throughput loss because of residual multiuser interferences. Multiuser interferences remain since they can not be nulled with beams generated by imperfect CSIT. ==Mathematical description==

Zero-forcing precoding: Difference between revisions