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42746590 AIL |
1 | \relax |
2 | \providecommand\hyper@newdestlabel[2]{} | |
3 | \providecommand\HyperFirstAtBeginDocument{\AtBeginDocument} | |
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15 | \global\let\hyper@last\relax | |
16 | \gdef\HyperFirstAtBeginDocument#1{#1} | |
17 | \providecommand\HyField@AuxAddToFields[1]{} | |
18 | \providecommand\HyField@AuxAddToCoFields[2]{} | |
19 | \citation{PONintro} | |
20 | \citation{NGPON2-1} | |
21 | \citation{ponroadmap} | |
22 | \citation{ponroadmap} | |
23 | \citation{foc} | |
24 | \citation{savorydigital} | |
25 | \@writefile{toc}{\contentsline {section}{\numberline {1}Introduction and Motivation}{1}{section.1}} | |
26 | \citation{foc} | |
27 | \citation{savorydigital} | |
28 | \citation{savorydigital} | |
29 | \citation{savorydigital} | |
30 | \citation{savorydigital} | |
31 | \citation{foc} | |
32 | \@writefile{toc}{\contentsline {section}{\numberline {2}The Simulation Model}{2}{section.2}} | |
33 | \newlabel{sec:simmodel}{{2}{2}{The Simulation Model}{section.2}{}} | |
34 | \newlabel{sec:simmodel@cref}{{[section][2][]2}{2}} | |
35 | \@writefile{toc}{\contentsline {subsection}{\numberline {2.1}Chromatic Dispersion}{2}{subsection.2.1}} | |
36 | \newlabel{sec:CD}{{2.1}{2}{Chromatic Dispersion}{subsection.2.1}{}} | |
37 | \newlabel{sec:CD@cref}{{[subsection][1][2]2.1}{2}} | |
38 | \newlabel{eq:CDimpresp}{{1}{2}{Chromatic Dispersion}{equation.2.1}{}} | |
39 | \newlabel{eq:CDimpresp@cref}{{[equation][1][]1}{2}} | |
40 | \@writefile{toc}{\contentsline {subsection}{\numberline {2.2}Adaptive Equalizer}{2}{subsection.2.2}} | |
41 | \citation{foc} | |
42 | \@writefile{lof}{\contentsline {figure}{\numberline {1}{\ignorespaces Block diagram of the simulation model.\relax }}{3}{figure.caption.1}} | |
43 | \providecommand*\caption@xref[2]{\@setref\relax\@undefined{#1}} | |
44 | \newlabel{fig:model}{{1}{3}{Block diagram of the simulation model.\relax }{figure.caption.1}{}} | |
45 | \newlabel{fig:model@cref}{{[figure][1][]1}{3}} | |
46 | \@writefile{lof}{\contentsline {figure}{\numberline {2}{\ignorespaces QPSK constellation after chromatic dispersion, without AWGN.\relax }}{3}{figure.caption.2}} | |
47 | \newlabel{fig:CDconst}{{2}{3}{QPSK constellation after chromatic dispersion, without AWGN.\relax }{figure.caption.2}{}} | |
48 | \newlabel{fig:CDconst@cref}{{[figure][2][]2}{3}} | |
49 | \@writefile{lof}{\contentsline {figure}{\numberline {3}{\ignorespaces QPSK signal with simulated chromatic dispersion and CD compensation, over an AWGN channel, with $z=\SI {200}{km}$.\relax }}{3}{figure.caption.3}} | |
50 | \newlabel{fig:CDCompz200}{{3}{3}{QPSK signal with simulated chromatic dispersion and CD compensation, over an AWGN channel, with $z=\SI {200}{km}$.\relax }{figure.caption.3}{}} | |
51 | \newlabel{fig:CDCompz200@cref}{{[figure][3][]3}{3}} | |
52 | \@writefile{lof}{\contentsline {figure}{\numberline {4}{\ignorespaces QPSK signal with CD, CD compensation, and CMA adaptive equalizer, over an AWGN channel, with $z=\SI {2}{km}$.\relax }}{3}{figure.caption.4}} | |
53 | \newlabel{fig:CDCompz2}{{4}{3}{QPSK signal with CD, CD compensation, and CMA adaptive equalizer, over an AWGN channel, with $z=\SI {2}{km}$.\relax }{figure.caption.4}{}} | |
54 | \newlabel{fig:CDCompz2@cref}{{[figure][4][]4}{3}} | |
55 | \@writefile{lof}{\contentsline {figure}{\numberline {5}{\ignorespaces Constellations showing the adaptive behaviour of the CMA.\relax }}{3}{figure.caption.5}} | |
56 | \newlabel{fig:adaptBefAft}{{5}{3}{Constellations showing the adaptive behaviour of the CMA.\relax }{figure.caption.5}{}} | |
57 | \newlabel{fig:adaptBefAft@cref}{{[figure][5][]5}{3}} | |
58 | \citation{foc} | |
59 | \citation{ccsm} | |
60 | \citation{ccsm} | |
61 | \citation{foc} | |
62 | \citation{taylorphest} | |
63 | \citation{taylorphest} | |
64 | \@writefile{toc}{\contentsline {subsection}{\numberline {2.3}Phase Noise Correction}{4}{subsection.2.3}} | |
65 | \@writefile{toc}{\contentsline {subsubsection}{\numberline {2.3.1}Differential PSK}{4}{subsubsection.2.3.1}} | |
66 | \@writefile{toc}{\contentsline {subsubsection}{\numberline {2.3.2}Block phase noise estimation}{4}{subsubsection.2.3.2}} | |
67 | \newlabel{eq:rk4}{{2}{4}{Block phase noise estimation}{equation.2.2}{}} | |
68 | \newlabel{eq:rk4@cref}{{[equation][2][]2}{4}} | |
69 | \newlabel{fig:phaseNoiseCircle}{{6a}{4}{Phase noise randomly rotating the constellation.\relax }{figure.caption.6}{}} | |
70 | \newlabel{fig:phaseNoiseCircle@cref}{{[subfigure][1][6]6a}{4}} | |
71 | \newlabel{sub@fig:phaseNoiseCircle}{{a}{4}{Phase noise randomly rotating the constellation.\relax }{figure.caption.6}{}} | |
72 | \newlabel{sub@fig:phaseNoiseCircle@cref}{{[subfigure][1][6]6a}{4}} | |
73 | \newlabel{fig:viterbiphest}{{6b}{4}{Example of the Viterbi-Viterbi algorithm estimating phase noise.\relax }{figure.caption.6}{}} | |
74 | \newlabel{fig:viterbiphest@cref}{{[subfigure][2][6]6b}{4}} | |
75 | \newlabel{sub@fig:viterbiphest}{{b}{4}{Example of the Viterbi-Viterbi algorithm estimating phase noise.\relax }{figure.caption.6}{}} | |
76 | \newlabel{sub@fig:viterbiphest@cref}{{[subfigure][2][6]6b}{4}} | |
77 | \@writefile{lof}{\contentsline {figure}{\numberline {6}{\ignorespaces Phase noise, and how it affects the received symbols.\relax }}{4}{figure.caption.6}} | |
78 | \citation{taylorphest} | |
79 | \citation{matlabcomm} | |
80 | \citation{taylorphest} | |
81 | \citation{foc} | |
82 | \citation{nfo} | |
83 | \citation{nfo} | |
84 | \citation{savory100Gbps} | |
85 | \citation{aoe} | |
86 | \@writefile{lof}{\contentsline {figure}{\numberline {7}{\ignorespaces A cycle slip.\relax }}{5}{figure.caption.7}} | |
87 | \newlabel{fig:cycleslip}{{7}{5}{A cycle slip.\relax }{figure.caption.7}{}} | |
88 | \newlabel{fig:cycleslip@cref}{{[figure][7][]7}{5}} | |
89 | \@writefile{toc}{\contentsline {subsection}{\numberline {2.4}Non-linearity: Kerr Effect}{5}{subsection.2.4}} | |
90 | \@writefile{lof}{\contentsline {figure}{\numberline {8}{\ignorespaces Performance of various methods under a phase noise of \SI {10}{MHz}, on a particular run of the simulation.\relax }}{5}{figure.caption.8}} | |
91 | \newlabel{fig:phasenoise_ult}{{8}{5}{Performance of various methods under a phase noise of \SI {10}{MHz}, on a particular run of the simulation.\relax }{figure.caption.8}{}} | |
92 | \newlabel{fig:phasenoise_ult@cref}{{[figure][8][]8}{5}} | |
93 | \@writefile{toc}{\contentsline {section}{\numberline {3}Future Plan and Timeline}{5}{section.3}} | |
94 | \newlabel{sec:future}{{3}{5}{Future Plan and Timeline}{section.3}{}} | |
95 | \newlabel{sec:future@cref}{{[section][3][]3}{5}} | |
96 | \bibcite{PONintro}{1} | |
97 | \bibcite{NGPON2-1}{2} | |
98 | \bibcite{ponroadmap}{3} | |
99 | \bibcite{foc}{4} | |
100 | \bibcite{savorydigital}{5} | |
101 | \bibcite{ccsm}{6} | |
102 | \bibcite{taylorphest}{7} | |
103 | \bibcite{matlabcomm}{8} | |
104 | \bibcite{nfo}{9} | |
105 | \bibcite{savory100Gbps}{10} | |
106 | \bibcite{aoe}{11} |