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Low complexity MMSE based interference cancellation for LTE uplink MIMO receiver

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dc.contributor.author Yin, Bei
Cavallaro, Joseph R.
dc.date.accessioned 2012-06-29T17:12:05Z
dc.date.available 2012-06-29T17:12:05Z
dc.date.issued 2011-12-01
dc.identifier.uri http://hdl.handle.net/1911/64352
dc.description.abstract In this paper, we propose a novel low complexity minimum mean square error (MMSE) interference cancellation (IC) to minimize the residual inter-symbol and inter-antenna interference in LTE/LTE-Advanced uplink. In the LTE/LTE-Advanced base station, frequency domain equalizers (FDEs) are adopted to achieve good performance. However, in multi-tap channels, the residual interference of FDE still degrades the performance. Conventional IC schemes can minimize this interference, but have high complexity and large feedback latency. These result in low throughput and require a large amount of resource in software defined radio (SDR) implementation. We show that our scheme can bring up to 8 dB gains in different channels, but only adds up to 7.2% complexity to the receiver. Compared to conventional IC, our scheme has fewer multiplications, less data to store, and shorter feedback latency.
dc.publisher Wireless Innovation Forum
dc.subject MMSE
LTE/LTE-Advanced
Software defined radio (SDR)
Frequency domain equalizers (FDE)
dc.title Low complexity MMSE based interference cancellation for LTE uplink MIMO receiver
dc.type Conference Paper
dc.contributor.center Center for Multimedia Communication
dc.citation.pageNumber 18-22
dc.citation.location Washington, DC
dc.citation.conferenceName Software Defined Radio Forum 2011 (SDR-WInnComm)
dc.citation.conferenceDate 2011
dc.identifier.citation B. Yin and J. R. Cavallaro,"Low complexity MMSE based interference cancellation for LTE uplink MIMO receiver," in Software Defined Radio Forum 2011 (SDR-WInnComm), 2011, pp. 18-22.

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    Publications by Rice University Electrical and Computer Engineering faculty and graduate students
  • CMC Publications [275 items]
    Publications by Rice Faculty and graduate students in multimedia communications