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Gustavo Fraidenraich
Gustavo Fraidenraich
Professor of Electrical Engineering, Unicamp
Verified email at decom.fee.unicamp.br - Homepage
Title
Cited by
Cited by
Year
Nakagami-m phase-envelope joint distribution
MD Yacoub, G Fraidenraich, JCS Santos Filho
Electronics Letters 41 (5), 259-261, 2005
1332005
The α-η-μ and α-κ-μ fading distributions
G Fraidenraich, MD Yacoub
2006 IEEE ninth international symposium on spread spectrum techniques and …, 2006
1232006
On the MIMO Channel Capacity for the Nakagami- Channel
G Fraidenraich, O Lévêque, JM Cioffi
IEEE Transactions on Information Theory 54 (8), 3752-3757, 2008
742008
Bit error probability for large intelligent surfaces under double-Nakagami fading channels
RC Ferreira, MSP Facina, FAP De Figueiredo, G Fraidenraich, ...
IEEE Open Journal of the Communications Society 1, 750-759, 2020
622020
Second-order statistics of maximal-ratio and equal-gain combining in Hoyt fading
G Fraidenraich, JCS Santos Filho, MD Yacoub
IEEE Communications Letters 9 (1), 19-21, 2005
612005
Channel estimation for massive MIMO TDD systems assuming pilot contamination and frequency selective fading
FAP De Figueiredo, FACM Cardoso, I Moerman, G Fraidenraich
IEEE access 5, 17733-17741, 2017
552017
CA-CFAR detection performance in homogeneous Weibull clutter
FDA García, ACF Rodriguez, G Fraidenraich, JCS Santos Filho
IEEE Geoscience and Remote Sensing Letters 16 (6), 887-891, 2018
512018
Joint statistics for two correlated Weibull variates
MD Yacoub, DB da Costa, US Dias, G Fraidenraich
IEEE Antennas and Wireless Propagation Letters 4, 129-132, 2005
512005
A simple accurate method for generating autocorrelated Nakagami-m envelope sequences
JCS Santos Filho, MD Yacoub, G Fraidenraich
IEEE Communications letters 11 (3), 231-233, 2007
502007
Second-order statistics of maximal-ratio and equal-gain combining in Weibull fading
G Fraidenraich, MD Yacoub, JCS Santos Filho
IEEE Communications Letters 9 (6), 499-501, 2005
462005
Second-order statistics of η-μ fading channels: Theory and applications
DB Da Costa, JCS Santos Filho, MD Yacoub, G Fraidenraich
IEEE Transactions on Wireless Communications 7 (3), 819-824, 2008
442008
Channel estimation for massive MIMO TDD systems assuming pilot contamination and flat fading
FAP de Figueiredo, FACM Cardoso, I Moerman, G Fraidenraich
EURASIP Journal on wireless Communications and Networking 2018 (1), 1-10, 2018
422018
On the MIMO channel capacity for the dual and asymptotic cases over Hoyt channels
G Fraidenraich, O Lévêque, JM Cioffi
IEEE communications letters 11 (1), 31-33, 2007
412007
Performance analysis of full duplex and selective and incremental half duplex relaying schemes
H Alves, G Fraidenraich, RD Souza, M Bennis, M Latva-aho
2012 IEEE Wireless Communications and Networking Conference (WCNC), 771-775, 2012
372012
The/spl lambda/-/spl mu/general fading distribution
G Fraidenraich, MD Yacoub
Proceedings of the 2003 SBMO/IEEE MTT-S International Microwave and …, 2003
362003
The SymmetricalDistribution: A General Fading Distribution
MD Yacoub, G Fraidenraich, HB Tercius, FC Martins
IEEE transactions on broadcasting 51 (4), 504-511, 2005
322005
Bit error rate closed-form expressions for LoRa systems under Nakagami and Rice fading channels
C Ferreira Dias, E Rodrigues de Lima, G Fraidenraich
Sensors 19 (20), 4412, 2019
312019
Comparing f-OFDM and OFDM performance for MIMO systems considering a 5G scenario
FAP de Figueiredo, NFT Aniceto, J Seki, I Moerman, G Fraidenraich
2019 IEEE 2nd 5G World Forum (5GWF), 532-535, 2019
312019
On the application of massive MIMO systems to machine type communications
FAP De Figueiredo, FACM Cardoso, I Moerman, G Fraidenraich
IEEE access 7, 2589-2611, 2018
302018
Large intelligent surfaces with discrete set of phase-shifts communicating through double-Rayleigh fading channels
FAP De Figueiredo, MSP Facina, RC Ferreira, Y Ai, R Ruby, QV Pham, ...
IEEE Access 9, 20768-20787, 2021
282021
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