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{{COI|date=March 2018}}
{{notability|date=March 2018}}
{{more footnotes|date=December 2021}}
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===Throughput performance===
The figure illustrates the throughput advantage of PU<sup>2</sup>RC over the conventional single-user and no scheduling scheme, assuming that the codebook size is one, i.e., <math>(G=1)</math>. For larger codebook sizes the performance can be better than the performance of the unit-size codebook. Because of codebook-based multi-user scheduling, PU<sup>2</sup>RC outperforms the conventional single-user and no scheduling scheme when the number of users is larger than one. Note that the performance plotted in the figure for the two systems were obtained assuming linear receiver.
==See also==▼
* [[Multiple-input multiple-output communications]]▼
* [[Multi-user MIMO]] as the advanced MIMO communication technology▼
* [[Precoding]]▼
* [[Spatial multiplexing]]▼
==References==
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* K.K. Wong, R.D. Murch and K.B. Letaief, "Performance Enhancement of Multiuser MIMO Wireless Communication Systems," IEEE Transactions on Communications, Vol 50 No 12, Dec. 2002, pp 1960 –1970
* Further benefits of the revised definition of CQI for TxAA, 3GPP TSG-R1-030130, San Diego, 7–10 Jan. 2003.
▲==See also==
▲* [[Multiple-input multiple-output communications]]
▲* [[Multi-user MIMO]] as the advanced MIMO communication technology
▲* [[Precoding]]
▲* [[Spatial multiplexing]]
==Further reading==
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