Ivan Aldaya
Ivan Aldaya
State University of São Paulo
Verified email at
Cited by
Cited by
Millimeter-wave frequency radio over fiber systems: a survey
J Beas, G Castanon, I Aldaya, A Aragón-Zavala, G Campuzano
IEEE Communications surveys & tutorials 15 (4), 1593-1619, 2013
Artificial neural network nonlinear equalizer for coherent optical OFDM
MA Jarajreh, E Giacoumidis, I Aldaya, ST Le, A Tsokanos, Z Ghassemlooy, ...
IEEE Photonics Technology Letters 27 (4), 387-390, 2014
Fiber nonlinearity-induced penalty reduction in CO-OFDM by ANN-based nonlinear equalization
E Giacoumidis, ST Le, M Ghanbarisabagh, M McCarthy, I Aldaya, S Mhatli, ...
Optics letters 40 (21), 5113-5116, 2015
Volterra-based reconfigurable nonlinear equalizer for coherent OFDM
E Giacoumidis, I Aldaya, MA Jarajreh, A Tsokanos, ST Le, F Farjady, ...
IEEE Photonics Technology Letters 26 (14), 1383-1386, 2014
Comparison of DSP-based nonlinear equalizers for intra-channel nonlinearity compensation in coherent optical OFDM
E Giacoumidis, S Mhatli, T Nguyen, ST Le, I Aldaya, ME McCarthy, ...
Optics letters 41 (11), 2509-2512, 2016
Harnessing machine learning for fiber-induced nonlinearity mitigation in long-haul coherent optical OFDM
E Giacoumidis, Y Lin, J Wei, I Aldaya, A Tsokanos, LP Barry
Future internet 11 (1), 2, 2018
Nonlinear carrier dynamics in silicon nano-waveguides
I Aldaya, A Gil-Molina, JL Pita, LH Gabrielli, HL Fragnito, P Dainese
Optica 4 (10), 1219-1227, 2017
Fiber taper diameter characterization using forward Brillouin scattering
PF Jarschel, LS Magalhaes, I Aldaya, O Florez, P Dainese
Optics letters 43 (5), 995-998, 2018
Intra and inter-channel nonlinearity compensation in WDM coherent optical OFDM using artificial neural network based nonlinear equalization
E Giacoumidis, S Mhatli, J Wei, ST Le, I Aldaya, MFC Stephens, ...
2017 Optical Fiber Communications Conference and Exhibition (OFC), 1-3, 2017
Experimental comparison of artificial neural network and Volterra based nonlinear equalization for CO-OFDM
E Giacoumidis, ST Le, I Aldaya, JL Wei, M McCarthy, NJ Doran, ...
Optical Fiber Communication Conference, W3A. 4, 2016
Phase-insensitive RF envelope detection allows optical heterodyning of MHz-linewidth signals
I Aldaya, G Campuzano, C Gosset, G Castañón
IEEE Photonics Technology Letters 25 (22), 2193-2196, 2013
Side-lobe level reduction in bio-inspired optical phased-array antennas
JL Pita, I Aldaya, OJS Santana, P Dainese, LH Gabrielli
Optics express 25 (24), 30105-30114, 2017
Kerr-induced nonlinearity reduction in coherent optical OFDM by low complexity support vector machine regression-based equalization
E Giacoumidis, S Mhatli, T Nguyen, ST Le, I Aldaya, MA McCarthy, ...
Optical Fiber Communication Conference, Th2A. 49, 2016
A survey of key-enabling components for remote millimetric wave generation in radio over fiber networks
I Aldaya, J Beas, G Castanon, G Campuzano, A Aragon-Zavala
Optics & Laser Technology 49, 213-226, 2013
Histogram based clustering for nonlinear compensation in long reach coherent passive optical networks
I Aldaya, E Giacoumidis, G de Oliveira, J Wei, JL Pita, JD Marconi, ...
Applied Sciences 10 (1), 152, 2019
Nonlinear blind equalization for 16-QAM coherent optical OFDM using support vector machines
E Giacoumidis, S Mhatli, ST Le, I Aldaya, ME McCarthy, AD Ellis, ...
ECOC 2016; 42nd European Conference on Optical Communication, 1-3, 2016
Periodic and aperiodic pulse generation using optically injected DFB laser
I Aldaya, C Gosset, C Wang, G Campuzano, F Grillot, G Castanon
Electronics Letters 51 (3), 280-282, 2015
A tutorial on optical feeding of millimeter-wave phased array antennas for communication applications
I Aldaya, G Campuzano, G Castañón, A Aragón-Zavala
International Journal of Antennas and Propagation 2015, 2015
Communication in transportation systems
O Strobel
IGI Global, 2013
Simultaneous generation of wavelength division multiplexing PON and RoF signals using a hybrid mode-locked laser
I Aldaya, G Campuzano, G Castañón
Optical Fiber Technology 23, 53-60, 2015
The system can't perform the operation now. Try again later.
Articles 1–20