Machine Learning Algorithms for Optical Fiber Telecoms · Bangor University, Wales, UK (PhD)...
Transcript of Machine Learning Algorithms for Optical Fiber Telecoms · Bangor University, Wales, UK (PhD)...
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Machine Learning Algorithms
for Optical Fiber Telecoms
Dr. Elias Giacoumidis26 March 2018
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Bangor University, Wales, UK (PhD)
Optical transmission for >40-Gb/s local and access networks
Athens Information Technology centre, Athens, Greece
Passive optical networks (PONs)
Telecom Paris-Tech, France (collaboration with France Telecom-Orange Labs)
Coherent optical communications for >100-Gb/s multi-channels
Aston University, UK
Digital signal processing (DSP)-based fibre nonlinearity compensation
University of Sydney, Sydney, Australia
Machine learning DSP for optical commun. and photonic-chip applications
Dublin City University (DCU), Ireland (visiting researcher at Xilinx-Ireland)
Real-time machine learning DSP for optical communications
Personal background
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Machine learning for optical communications
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Photonics: machine learning under the spotlight
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Typical optical communication system
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DSP importance in optical communications
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Constellation diagrams for modulation
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Synchronization
Optical carrier frequency offset
compensation
Linear Equalization
& Machine Learning
Data Recovery
DSP Receiver processing:
DSP receiver design with machine learning
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Clustering-based machine learning
K-means Fuzzy-logic c-means
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0
1
2
3
4
5
0 1 2 3 4 5
expression in condition 1
exp
ressio
n in
co
nd
itio
n 2
Algorithm: k-means, Distance Metric: Euclidean Distance
k1
k2
k3
Phase Modulator OCDMA setupK-means: Step 1
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Phase Modulator OCDMA setupK-means: Step 2
0
1
2
3
4
5
0 1 2 3 4 5
expression in condition 1
exp
ressio
n in
co
nd
itio
n 2
k1
k2
k3
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Phase Modulator OCDMA setupK-means: Step 3
0
1
2
3
4
5
0 1 2 3 4 5
expression in condition 1
exp
ressio
n in
co
nd
itio
n 2
k1
k2
k3
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Phase Modulator OCDMA setupK-means: Step 4
0
1
2
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4
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0 1 2 3 4 5
expression in condition 1
exp
ressio
n in
co
nd
itio
n 2
k1
k2
k3
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0
1
2
3
4
5
0 1 2 3 4 5
expression in condition 1
exp
ressio
n in
co
nd
itio
n 2
k1
k2k3
Phase Modulator OCDMA setupK-means: Step 5
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1 1
0 0x x
Hard clustering Fuzzy clustering
xSingle-dimensional data
MD
MD: Membership Degree
MD
Phase Modulator OCDMA setupFuzzy-logic c-means
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Linear equalization -
hard decision
boundaries
No equalization Machine learning -
soft decision/nonlinear
boundaries
Received constellation diagrams for 16-QAM
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I
Q
CASE-1 I
Q
Step 1: large group of 4 clusters Step 2: 4 groups of 4 clusters
I
Single-step: 1 group of 4 clusters &
6 groups of 2 clusters
CASE-2
Alternative design for 16 clusters
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Shapes of constellation diagrams
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DSP
transmitterDSP receiver with
machine learning
Digital-to-
Analogue
Conversion
Analogue-
to-Digital
Conversion
Electrical ReceiverElectrical Transmitter
Transceiver setup
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Nonlinear distortion
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ANN: Artificial Neural Network
𝜑𝑘,𝑖 𝑥 = nonlinear transformations of subcarrier k
N = level of constellation mapping
w = weights
e = error
s = signal
MMSE = minimum-mean square-error
Artificial Neural Network design
Ƹ𝑠 𝑘 =
𝑖=1
𝑁
𝑤𝑘,𝑖𝜑𝑘,𝑖(𝑠 𝑘 )
e k = s(k) − ොs(k)
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[1] E. Giacoumidis et al, OSA Opt. Let. 12 , 123 (2016)
[2] E. Giacoumidis et al, IEEE JLT 10, 234 (2017)
Complexity comparison (Number of operations)
Why machine learning is good for us?
Machine Learning tackles stochastic noises in
optical networks without knowledge of the fibre
link parameters (versatile learning).
It has benefit over wireless systems because
optical link has stable parameters.
Deterministic techniques
Deterministic techniques
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Comparison with benchmark technologies
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Crucial points
Real-time signal processing on FPGA
areas where errors
are most likely
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3D deep learning?
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Thank you for your attention !!!