?url_ver=Z39.88-2004&rft_val_fmt=info%3Aofi%2Ffmt%3Akev%3Amtx%3Adc&rft.title=Full-Duplex+Enabled+Cloud+Radio+Access+Network&rft.creator=Shojaeifard%2C+A&rft.creator=Wong%2C+KK&rft.creator=Yu%2C+W&rft.creator=Zheng%2C+G&rft.creator=Tang%2C+J&rft.description=Full-duplex+(FD)+has+emerged+as+a+disruptive+solution+for+improving+the+achievable+spectral+efficiency+(SE)%2C+thanks+to+the+recent+major+breakthroughs+in+self-interference+(SI)+mitigation.+The+FD+versus+half-duplex+(HD)+SE+gain%2C+in+the+context+of+cellular+networks%2C+is+however+largely+limited+by+the+mutual+interference+(MI)+between+the+downlink+(DL)+and+uplink+(UL).+A+potential+remedy+for+tackling+the+MI+bottleneck+is+through+cooperative+communications.+This+paper+provides+a+stochastic+analysis+of+FD+enabled+cloud+radio+access+network+(CRAN)+with+finite+user-+centric+cooperative+clusters.+Contrary+to+the+most+existing+theoretical+studies+of+C-RAN%2C+we+explicitly+take+into+consideration+non-isotropic+fading+channel+conditions%2C+and+finite-capacity+fronthaul+links.+Accordingly%2C+we+develop+analytical+expressions+for+the+FD+C-RAN+DL+and+UL+SEs.+The+results+indicate+that+significant+FD+versus+HD+C-RAN+SE+gains+can+be+achieved%2C+particularly+in+the+presence+of+sufficient-+capacity+fronthaul+links+and+advanced+interference+cancellation+capabilities.&rft.subject=Interference+cancellation%2C+Cooperative+communication%2C+Signal+to+noise+ratio%2C+Radio+access+networks%2C+Fading+channels%2C+Frequency+modulation&rft.publisher=IEEE&rft.date=2018-07-26&rft.type=Proceedings+paper&rft.language=eng&rft.source=+++++In%3A++The+Proceedings+of+the+2018+IEEE+87th+Vehicular+Technology+Conference+(VTC+Spring).++++IEEE%3A+Red+Hook+(NY)%2C+USA.+(2018)+++++&rft.format=text&rft.identifier=https%3A%2F%2Fdiscovery.ucl.ac.uk%2Fid%2Feprint%2F10055234%2F1%2FWong_Full-Duplex%2520Enabled%2520Cloud%2520Radio%2520Access%2520Network_AAM.pdf&rft.identifier=https%3A%2F%2Fdiscovery.ucl.ac.uk%2Fid%2Feprint%2F10055234%2F&rft.rights=open