2017 IEEE Photonics Conference (IPC 2017) Conference Information

TuH2 - Digital Signal Processing I Session Presider: Eduardo Temprana Giraldo

10:30-12:00 Poinsettia/ Quince

TuH2.1 -

Artificial Neural Networks for Linear and Non-Linear Impairment Mitigation Invited

10:30-11:00
2017-10-03 10:30 2017-10-03 11:00 America/Denver Artificial Neural Networks for Linear and Non-Linear Impairment Mitigation TBD Hilton Santa Fe Historic Plaza Poinsettia/ Quince

J. Estara Tolosa , Nokia Bell Labs

TuH2.2 -

Silicon Photonics Enabled SSBI cancellation

11:00-11:15
2017-10-03 11:00 2017-10-03 11:15 America/Denver Silicon Photonics Enabled SSBI cancellation We propose a SiP enabled interference cancellation scheme for OFDM. System performance is evaluated by sweeping the signal to carrier ratio, guard band and SiP component parameters. Hilton Santa Fe Historic Plaza Poinsettia/ Quince

L. Rusch , Laval University, Centre d'optique, photonique e, QC, Canada

M. LYU , Laval University, Quebec City, QC, Canada

TuH2.3 -

SiP IQ modulator Linearization by Memory Polynomial Pre-distortion Model

11:15-11:30
2017-10-03 11:15 2017-10-03 11:30 America/Denver SiP IQ modulator Linearization by Memory Polynomial Pre-distortion Model Mach-Zehnder modulators introduce nonlinearities for large driving signals that induce bit error rate (BER) penalties. In silicon photonics a nonlinear phase response leads to a more complex nonlinear response. We propose a digital pre-distorter based on a nonlinear memory polynomial model to reduce BER penalty. Hilton Santa Fe Historic Plaza Poinsettia/ Quince

S. Zhalehpour , PhD student, Québec, QC, Canada

J. Lin , Stagiaire postdoctoral , Québec, QC, Canada

L. Rusch , Professeure titulaire, Québec, QC, Canada

TuH2.4 -

Blind Polarization Identification and Demultiplexing using Statistical Learning

11:30-11:45
2017-10-03 11:30 2017-10-03 11:45 America/Denver Blind Polarization Identification and Demultiplexing using Statistical Learning We propose a blind technique to identify the number of polarization in an optical signal using Principal Component Analysis (PCA). Experimental results verifying the proposed technique are presented. Additionally, the relation between PCA and Independent Component Analysis (ICA) are discussed. Hilton Santa Fe Historic Plaza Poinsettia/ Quince

S. Varughese , Georgia Institute of Technolog, Atlanta, GA, United States

J. Langston , Georgia Institute of Technolog, Atlanta, GA, United States

R. DeSalvo , Harris Corporation, Palm Bay, FL, United States

S. Ralph , Georgia Institute of Technolog, Atlanta, GA, United States

TuH2.5 -

Multicarrier Approaches for High-Baudrate Optical-Fiber Transmission Systems With a Single Coherent Receiver

11:45-12:00
2017-10-03 11:45 2017-10-03 12:00 America/Denver Multicarrier Approaches for High-Baudrate Optical-Fiber Transmission Systems With a Single Coherent Receiver In this paper, we show the remarkable timing error (TE) and residual chromatic dispersion (CD) tolerance improvements of the filter bank multicarrier (FBMC) over orthogonal frequency division multiplexing (OFDM) for high-baudrate spectral slicing transmitter and single coherent receiver transmissions. Hilton Santa Fe Historic Plaza Poinsettia/ Quince

T. NGUYEN , University of Mons, Mons, Belgium

S. LE , Nokia Bell Labs, Stuttgart, Germany

Q. HE , Aachen University, 52062 Aachen, Germany

L. COMPERNOLLE , Proximus SA., 1030 Bruxelles, Belgium

M. WUILPART , University of Mons, Mons, Belgium

P. MEGRET , University of Mons, Mons, Belgium