Verfügbarkeit: Nonlinear Fourier transform-based multi-soliton transmission for optical communications

Nonlinear Fourier transform-based multi-soliton transmission for optical communications:

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Bibliographische Detailangaben
1. Verfasser:	Span, Alexander (VerfasserIn)
Format:	Abschlussarbeit Buch
Sprache:	English
Veröffentlicht:	Stuttgart 2021
Schlagworte:	Optische Nachrichtenübertragung Photonik Hochschulschrift
Online-Zugang:	Inhaltsverzeichnis Inhaltsverzeichnis
Beschreibung:	xxiii, 131 Seiten Illustrationen, Diagramme 21 cm

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Datensatz im Suchindex

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adam_text	CONTENTS ACRONYMS XI LIST OF FIGURES XV LIST OF TABLES XXI ABSTRACT XXIV 1 INTRODUCTION 1 1.1 OPTICAL FIBER COMMUNICATION SYSTEMS ..................................................................... 3 1.1.1 DEVELOPMENT AND STATE OF THE ART .................................................................. 3 1.1.2 NONLINEARITY LIMITATIONS .................................................................................. 4 1.1.3 FROM FIGHTING TO EXPLOITING NONLINEARITY ..................................................... 6 1.2 NONLINEAR FOURIER TRANSFORM-BASED TRANSMISSION .................................................. 7 1.2.1 BASIC IDEA ........................................................................................................... 7 1.2.2 HISTORY ................................................................................................................. 8 1.2.3 CHALLENGES .......................................................................................................... 10 1.3 THESIS ORGANIZATION AND CONTRIBUTION ..................................................................... 12 2 NONLINEAR FOURIER TRANSFORM-BASED OPTICAL COMMUNICATIONS 13 2.1 THE NONLINEAR OPTICAL FIBER CHANNEL ........................................................................ 13 2.1.1 WAVE EQUATION ................................................................................................. 13 2.1.2 DISPERSION AND KERR NONLINEARITY .................................................................. 14 2.1.3 NORMALIZED NONLINEAR SCHRODINGER EQUATION ............................................... 16 2.2 NONLINEAR FOURIER TRANSFORM ........................................................................................ 17 2.2.1 LAX EQUATION AND ZAKHAROV-SHABAT SYSTEM ............................................... 17 2.2.2 NONLINEAR SPECTRUM ........................................................................................ 19 2.2.3 FORWARD NONLINEAR FOURIER TRANSFORM ........................................................... 21 2.2.4 INVERSE NONLINEAR FOURIER TRANSFORM ............................................................ 25 2.3 MULTI-SOLITON TRANSMISSION SYSTEM ........................................................................... 26 2.3.1 BASIC CONCEPT .................................................................................................... 26 2.3.2 CHALLENGES ........................................................................................................... 30 3 TIME-BANDWIDTH ANALYSIS OF MULTI-SOLITON PULSES 33 3.1 SUMMARY AND KEY FINDINGS ........................................................................................ 33 3.2 INTRODUCTION ..................................................................................................................... 34 3.3 MULTI-SOLITON TRANSMISSION ............................................................................................ 35 3.3.1 MOTIVATION AND SCENARIO .................................................................................. 35 3.3.2 DEFINITION OF PULSE DURATION AND BANDWIDTH ............................................... 39 3.4 MULTI-SOLITON PULSE OPTIMIZATION ............................................................................... 40 3.4.1 TRANSFORMATIONS PRESERVING THE TIME-BANDWIDTH PRODUCT ...................... 41 3.4.2 EIGENVALUES ON THE IMAGINARY AXIS ............................................................... 42 3.4.3 EIGENVALUE REAL PART CONSTELLATION ............................................................... 44 3.5 ESTIMATION OF TIME-BANDWIDTH PRODUCT .................................................................. 46 3.6 CONCLUSION ........................................................................................................................ 51 3.7 PROOFS OF THEOREMS ........................................................................................................ 52 4 JOINT MULTI-SOLITON PHASE MODULATION 63 4.1 SUMMARY AND KEY FINDINGS ........................................................................................ 63 4.2 INTRODUCTION ..................................................................................................................... 64 4.3 SCENARIO AND MOTIVATION ............................................................................................... 65 4.3.1 DEFINITION OF PULSE DURATION AND BANDWIDTH ............................................... 65 4.3.2 SPECTRAL AMPLITUDE PHASE MODULATION .......................................................... 66 4.3.3 PULSE SHAPE VARIATIONS ..................................................................................... 67 4.3.4 TIME-BANDWIDTH PRODUCT AND IDEAL SPECTRAL EFFICIENCY ............................ 69 4.4 SUBSET OF PHASE COMBINATIONS FOR MODULATION .......................................................... 70 4.5 OPTIMUM SOLITON MODULATION ..................................................................................... 73 4.5.1 PARAMETER OPTIMIZATION .................................................................................. 73 4.5.2 OPTIMUM SOLITON PARAMETERS AND SPECTRAL EFFICIENCY GAIN ...................... 76 4.6 CONCLUSION ........................................................................................................................ 78 5 SUCCESSIVE EIGENVALUE REMOVAL FOR DISCRETE SPECTRUM ESTIMATION 79 5.1 SUMMARY AND KEY FINDINGS ........................................................................................ 79 5.2 INTRODUCTION ..................................................................................................................... 80 5.3 ADDING AND REMOVING EIGENVALUES BY THE DARBOUX TRANSFORM .............................. 81 5.3.1 ADDING EIGENVALUES ............................................................................................ 82 5.3.2 REMOVING EIGENVALUES ..................................................................................... 82 5.4 SUCCESSIVE EIGENVALUE REMOVAL ALGORITHM ............................................................... 83 5.4.1 MOTIVATION ........................................................................................................... 83 5.4.2 EIGENVALUE REMOVAL AND TRUNCATION ................................................................. 84 VI 5.5 ANALYSIS OF EIGENVALUE ESTIMATION ERROR .................................................................. 85 5.6 SIMULATION RESULTS ........................................................................................................ 88 5.6.1 PULSE DURATION AND COMPLEXITY REDUCTION .................................................. 88 5.6.2 ESTIMATION ACCURACY ........................................................................................ 89 5.7 CONCLUSION ........................................................................................................................ 90 5.8 DERIVATION FOR EIGENVALUE REMOVAL WITH ESTIMATION ERROR ...................................... 92 6 EFFICIENT PRECODING SCHEME FOR DUAL-POLARIZATION SOLITON TRANSMISSION 95 6.1 SUMMARY AND KEY FINDINGS ........................................................................................ 95 6.2 INTRODUCTION .................................................................................................................... 96 6.3 MOTIVATION - TRANSFORMATION OF B ............................................................................... 98 6.4 DIFFERENTIAL PRECODING ...................................................................................................... 103 6.4.1 ENCODING ........................................................................................................... 104 6.4.2 ESTIMATION ........................................................................................................... 104 6.5 SIMULATION SETUP ........................................................................................................... 105 6.6 SIMULATION RESULTS ........................................................................................................ 107 6.6.1 FIRST ORDER SOLITON MODULATION ..................................................................... 107 6.6.2 PHASE MODULATION FOR SECOND ORDER SOLITON ................................................. 113 6.7 EXPLOITING THE DIFFERENTIAL GAIN: EFFICIENT MODULATION FORMAT ............................ 116 6.8 CONCLUSION ....................................................................................................................... 118 7 CONCLUSION 119 BIBLIOGRAPHY 121 VII
adam_txt	CONTENTS ACRONYMS XI LIST OF FIGURES XV LIST OF TABLES XXI ABSTRACT XXIV 1 INTRODUCTION 1 1.1 OPTICAL FIBER COMMUNICATION SYSTEMS . 3 1.1.1 DEVELOPMENT AND STATE OF THE ART . 3 1.1.2 NONLINEARITY LIMITATIONS . 4 1.1.3 FROM FIGHTING TO EXPLOITING NONLINEARITY . 6 1.2 NONLINEAR FOURIER TRANSFORM-BASED TRANSMISSION . 7 1.2.1 BASIC IDEA . 7 1.2.2 HISTORY . 8 1.2.3 CHALLENGES . 10 1.3 THESIS ORGANIZATION AND CONTRIBUTION . 12 2 NONLINEAR FOURIER TRANSFORM-BASED OPTICAL COMMUNICATIONS 13 2.1 THE NONLINEAR OPTICAL FIBER CHANNEL . 13 2.1.1 WAVE EQUATION . 13 2.1.2 DISPERSION AND KERR NONLINEARITY . 14 2.1.3 NORMALIZED NONLINEAR SCHRODINGER EQUATION . 16 2.2 NONLINEAR FOURIER TRANSFORM . 17 2.2.1 LAX EQUATION AND ZAKHAROV-SHABAT SYSTEM . 17 2.2.2 NONLINEAR SPECTRUM . 19 2.2.3 FORWARD NONLINEAR FOURIER TRANSFORM . 21 2.2.4 INVERSE NONLINEAR FOURIER TRANSFORM . 25 2.3 MULTI-SOLITON TRANSMISSION SYSTEM . 26 2.3.1 BASIC CONCEPT . 26 2.3.2 CHALLENGES . 30 3 TIME-BANDWIDTH ANALYSIS OF MULTI-SOLITON PULSES 33 3.1 SUMMARY AND KEY FINDINGS . 33 3.2 INTRODUCTION . 34 3.3 MULTI-SOLITON TRANSMISSION . 35 3.3.1 MOTIVATION AND SCENARIO . 35 3.3.2 DEFINITION OF PULSE DURATION AND BANDWIDTH . 39 3.4 MULTI-SOLITON PULSE OPTIMIZATION . 40 3.4.1 TRANSFORMATIONS PRESERVING THE TIME-BANDWIDTH PRODUCT . 41 3.4.2 EIGENVALUES ON THE IMAGINARY AXIS . 42 3.4.3 EIGENVALUE REAL PART CONSTELLATION . 44 3.5 ESTIMATION OF TIME-BANDWIDTH PRODUCT . 46 3.6 CONCLUSION . 51 3.7 PROOFS OF THEOREMS . 52 4 JOINT MULTI-SOLITON PHASE MODULATION 63 4.1 SUMMARY AND KEY FINDINGS . 63 4.2 INTRODUCTION . 64 4.3 SCENARIO AND MOTIVATION . 65 4.3.1 DEFINITION OF PULSE DURATION AND BANDWIDTH . 65 4.3.2 SPECTRAL AMPLITUDE PHASE MODULATION . 66 4.3.3 PULSE SHAPE VARIATIONS . 67 4.3.4 TIME-BANDWIDTH PRODUCT AND IDEAL SPECTRAL EFFICIENCY . 69 4.4 SUBSET OF PHASE COMBINATIONS FOR MODULATION . 70 4.5 OPTIMUM SOLITON MODULATION . 73 4.5.1 PARAMETER OPTIMIZATION . 73 4.5.2 OPTIMUM SOLITON PARAMETERS AND SPECTRAL EFFICIENCY GAIN . 76 4.6 CONCLUSION . 78 5 SUCCESSIVE EIGENVALUE REMOVAL FOR DISCRETE SPECTRUM ESTIMATION 79 5.1 SUMMARY AND KEY FINDINGS . 79 5.2 INTRODUCTION . 80 5.3 ADDING AND REMOVING EIGENVALUES BY THE DARBOUX TRANSFORM . 81 5.3.1 ADDING EIGENVALUES . 82 5.3.2 REMOVING EIGENVALUES . 82 5.4 SUCCESSIVE EIGENVALUE REMOVAL ALGORITHM . 83 5.4.1 MOTIVATION . 83 5.4.2 EIGENVALUE REMOVAL AND TRUNCATION . 84 VI 5.5 ANALYSIS OF EIGENVALUE ESTIMATION ERROR . 85 5.6 SIMULATION RESULTS . 88 5.6.1 PULSE DURATION AND COMPLEXITY REDUCTION . 88 5.6.2 ESTIMATION ACCURACY . 89 5.7 CONCLUSION . 90 5.8 DERIVATION FOR EIGENVALUE REMOVAL WITH ESTIMATION ERROR . 92 6 EFFICIENT PRECODING SCHEME FOR DUAL-POLARIZATION SOLITON TRANSMISSION 95 6.1 SUMMARY AND KEY FINDINGS . 95 6.2 INTRODUCTION . 96 6.3 MOTIVATION - TRANSFORMATION OF B . 98 6.4 DIFFERENTIAL PRECODING . 103 6.4.1 ENCODING . 104 6.4.2 ESTIMATION . 104 6.5 SIMULATION SETUP . 105 6.6 SIMULATION RESULTS . 107 6.6.1 FIRST ORDER SOLITON MODULATION . 107 6.6.2 PHASE MODULATION FOR SECOND ORDER SOLITON . 113 6.7 EXPLOITING THE DIFFERENTIAL GAIN: EFFICIENT MODULATION FORMAT . 116 6.8 CONCLUSION . 118 7 CONCLUSION 119 BIBLIOGRAPHY 121 VII
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spellingShingle	Span, Alexander Nonlinear Fourier transform-based multi-soliton transmission for optical communications Optische Nachrichtenübertragung (DE-588)4172668-6 gnd Photonik (DE-588)4243979-6 gnd
subject_GND	(DE-588)4172668-6 (DE-588)4243979-6 (DE-588)4113937-9
title	Nonlinear Fourier transform-based multi-soliton transmission for optical communications
title_auth	Nonlinear Fourier transform-based multi-soliton transmission for optical communications
title_exact_search	Nonlinear Fourier transform-based multi-soliton transmission for optical communications
title_exact_search_txtP	Nonlinear Fourier transform-based multi-soliton transmission for optical communications
title_full	Nonlinear Fourier transform-based multi-soliton transmission for optical communications vorgelegt von Alexander Span aus Stuttgart
title_fullStr	Nonlinear Fourier transform-based multi-soliton transmission for optical communications vorgelegt von Alexander Span aus Stuttgart
title_full_unstemmed	Nonlinear Fourier transform-based multi-soliton transmission for optical communications vorgelegt von Alexander Span aus Stuttgart
title_short	Nonlinear Fourier transform-based multi-soliton transmission for optical communications
title_sort	nonlinear fourier transform based multi soliton transmission for optical communications
topic	Optische Nachrichtenübertragung (DE-588)4172668-6 gnd Photonik (DE-588)4243979-6 gnd
topic_facet	Optische Nachrichtenübertragung Photonik Hochschulschrift
url	https://d-nb.info/1251563899/04 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=033825375&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT spanalexander nonlinearfouriertransformbasedmultisolitontransmissionforopticalcommunications

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