Performance evaluation of turbulence-accentuated interchannel crosstalk for hybrid fibre and free-space optical wavelength-division-multiplexing systems using digital pulse-position modulation

A hybrid fibre and free-space optical communication link using digital pulse-position modulation (DPPM) in a wavelength-division-multiplexing system is proposed. Such a system, which could provide a power efficient, robust and flexible solution to high-speed access networks, is a contender for a passive optical network solution and could readily be deployed in areas with restrictions in optical fibre installation, or alternatively as a disaster recovery network. Interchannel crosstalk and atmospheric turbulence are major impairments in such a system and could combine in some cases to degrade the system. Both impairments are investigated here and the results are presented in the form of bit error probability, required optical transmission power and power penalties. Depending on the position of the interferer relative to the desired user, power penalties of about 0.2–3.0 dB for weak turbulence and above 20 dB for strong turbulence regimes are reported for bit error rate of 10−6. DPPM scheme with a coding level of 2 show about 2 dB improvements over on–off-keying scheme

WDM/TDM PON bidirectional networks single-fiber/wavelength RSOA-based ONUs layer 1/2 optimization

This Thesis proposes the design and the optimization of a hybrid WDM/TDM PON at the L1 (PHY) and L2 (MAC) layers, in terms of minimum deployment cost and enhanced performance for Greenfield NGPON. The particular case of RSOA-based ONUs and ODN using a single-fibre/single-wavelength is deeply analysed. In this WDM/TDM PON relevant parameters are optimized. Special attention has been given at the main noise impairment in this type of networks: the Rayleigh Backscattering effect, which cannot be prevented. To understand its behaviour and mitigate its effects, a novel mathematical model for the Rayleigh Backscattering in burst mode transmission is presented for the first time, and it has been used to optimize the WDM/TDM RSOA based PON. Also, a cost-effective, simple design SCM WDM/TDM PON with rSOA-based ONU, was optimized and implemented. This prototype was successfully tested showing high performance, robustness, versatility and reliability. So, the system is able to give coverage up to 1280 users at 2.5 Gb/s / 1.25 Gb/s downstream/upstream, over 20 Km, and being compatible with the GPON ITU-T recommendation. This precedent has enabled the SARDANA network to extend the design, architecture and capabilities of a WDM/TDM PON for a long reach metro-access network (100 km). A proposal for an agile Transmission Convergence sub-layer is presented as another relevant contribution of this work. It is based on the optimization of the standards GPON and XG-PON (for compatibility), but applied to a long reach metro-access TDM/WDM PON rSOA-based network with higher client count. Finally, a proposal of physical implementation for the SARDANA layer 2 and possible configurations for SARDANA internetworking, with the metro network and core transport network, are presented

Hybridní přístupová síť xPON/xDSL

Import 03/11/2016The aim of this master thesis is to build up experimental hybrid xPON/xDSL, specifically hybrid EPON/ADSL and EPON/VDSL network, together with deployment of the semiconductor optical amplifiers. The first chapter of the theoretical part is focused to describe access networks in consideration of the used transmission medium. The explanation of the transmission channel and transmission techniques applied in DSL technology are discussed in the second chapter. Following chapter compares the main standards of DSL technology. Data transmission and principle of operation is discussed in single chapter aimed to EPON network. Principles of amplification, basic parameters, and properties of the semiconductor optical amplifiers are explained in a separate chapter. Thesis continues with the practical part, where are included the results of all realized measurements. Basic optical measurements (attenuation, dispersion, power level) were performed on the created topologies. The semiconductors optical amplifiers were applied to the EPON network to achieve the gain characteristics of amplifiers and to find out advantages or disadvantages of their use. Then the formed hybrid networks were verified by RFC2544 and ITU-T Y.1564 testing standards to investigate quality of services depending on the fiber and metallic line lengths. Created EPON topology with deployment of the semiconductor optical amplifiers was also designed in OptiSystem software to compare the measured and simulated results.Cieľom tejto dilomovej práce je vybudovať experimentálnu hybridnú sieť xPON/xDSL, konkrétne hybridnú sieť EPON/ADSL a EPON/VDSL spolu s nasadením polovodičových optických zosilňovačov. Prvá kapitola teoreticej časti je zameraná na popis prístupových sietí vzhľadom na typ použitého, prenosového média. V druhej kapitole je vysvetlený prenosový kanál a prenosové techniky používané v technológii DSL. Ďalšia kapitola porovnáva najznámejšie DSL štandardy. V samostanej kapitole zameranej na sieť EPON je vysvetlený dátový prenos a princíp funkčnosti. Princípy zosilnenia, základné parametre a vlastnosti polovodičových optických zosilňovačov sú vysvetlené v samostatnej kapitole. Práca pokračuje praktickou časťou, kde sa nachádzajú výsledky všetkých vykonaných meraní. Na vytvorených topológiach boli vykonané základné merania pre optické siete (útlm, disperzie, výkonové úrovne). Na zistenie zisku zosilňovačov a ich výhody resp. nevýhody, boli zosilňovače nasadené do siete EPON. Hybridné sieťe boli otestované podľa štandardov RFC2544 a ITU-T Y.1564, kvôli zabezpečeniu kvality služieb v závislosti na dĺžky optického vlákna a metalického vedenia. Vytvorená topológia EPON siete spolu s nasadením polovodičových optických zosilňovačov bola navrhnutá v simulačnom software OptiSystem na porovnanie nameraných a odsimulovaných výsledkov.440 - Katedra telekomunikační technikyvýborn

Next generation optical access networks and coexistence with legacy PONs

Nowadays, Fiber-to-the-Home is one of the most promising solutions to provide broadband services in access networks. However, the fiber is inefficiently used as most of the deployed systems are still based on Time Division Multiplexing Passive Optical Networks (TDM-PONs) providing shared transmission capacities up to 2.5 Gb/s down and 1.25 Gb/s up, among multiple users. Research on high-speed electronics and Wavelength Division Multiplexing (WDM) has allowed the emergence of what is known as the second generation PON (NG-PON2), which specify aggregated capacities up to 40 Gb/s, stacking four channels at symmetric data rates of 10 Gb/s each, for residential scenarios. Nevertheless, the capacity per channel is still shared between multiple users due to the use of TDM. Moreover, the optical spectrum efficiency is low because channels are widely spaced (50 to 100 GHz). In addition, the sensitivity, reach and number of users is limited as consequence of using direct detection (DD) systems. In consequence, and due to the increase in bandwidth demands of new multimedia applications, it is necessary to propose solutions that cope with this tendency and, even more important, that can coexist with legacy systems, being one of the major requirements of network operators to guarantee a smooth and non-disruptive technology migration. In this thesis, a breakthrough technology such as Ultra-Dense WDM (UDWDM) that allows to allocate a large number of channels spaced only by a few GHz is used. This approach consent to envision the concept of Wavelength-to-the-User, where each costumer can be served with dedicated bandwidth links. The key technologies are based on coherent systems, with inherent wavelength selectivity and improved sensitivity compared to DD systems, thanks to the booster action of a tunable local oscillator (LO) laser. Because of cost is the main constraint in access networks, especially at the customer premises equipment (Optical Network Unit - ONU), in this thesis, a new class of coherent transceivers, based on low-cost direct modulated lasers and simplified receiver schemes, are proposed and experimentally tested. Moreover, the issue of coexistence is investigated through theoretical studies and real-time implementations, demonstrating full compatibility with legacy systems. Between the proposed solutions, a simple technique to adjust digitally the direct phase modulation of a distributed feedback (DFB) laser is presented to support flexible transmission rates. Next, several multilevel phase modulation formats for achieving higher transmission rates and better spectral efficiency are experimentally compared. Subsequently, the topic of photonic integration is addressed, demonstrating for the first time an 8-ary hybrid amplitude and phase modulated transmitter (Tx), by using a low-cost, small-footprint and energy efficient dual electro-absorption modulated laser (DEML). Finally, two novel proposals, to reduce the complexity of heterodyne and intradyne detection, are provided to face the typical issue of complexity and high-cost of coherent systems. The former explores the possibility of using only one DFB laser as LO and Tx at the ONU. The later demonstrates for the first time, a novel phase time diversity technique alternating phase modulation at each complex component (in-phase - I and quadrature - Q) achieving a 10 Gb/s' transmission with polarization independence.En la actualidad, la Fibra hasta el Hogar es una de las soluciones más prometedoras para proporcionar servicios de banda ancha en las redes de acceso. Sin embargo, la fibra se usa de manera poco eficiente, ya que la mayoría de los sistemas implementados todavía están basados en redes ópticas pasivas de multiplexación por división en el tiempo (TDM-PON) que brindan capacidades de transmisión compartidas entre múltiples usuarios de hasta 2.5 Gb/s y 1.25 Gb/s. La investigación en electrónica de alta velocidad y la multiplexación por división de longitud de onda (WDM) ha permitido el surgimiento de lo hoy se conoce como PON de segunda generación (NG-PON2), que especifica capacidades agregadas de hasta 40 Gb/s, apilando cuatro canales a velocidades de datos simétricas de 10 Gb/s cada uno, para escenarios residenciales. Sin embargo, la capacidad por canal todavía se comparte entre múltiples usuarios debido al uso de TDM. Además, la eficiencia en el uso del espectro óptico es baja porque los canales están muy separados (50 a 100 GHz). Asimismo, la sensibilidad, el alcance y el número de usuarios están limitados debido al uso de sistemas de detección directa. En consecuencia, y debido al aumento de las demandas de ancho de banda de las nuevas aplicaciones multimedia, es necesario proponer soluciones que respondan a esta tendencia y, lo que es más importante, que puedan coexistir con sistemas heredados, siendo uno de los principales requisitos de los operadores de red para garantizar una migración de tecnología fluida y sin interrupciones. En esta tesis, se utiliza una tecnología de vanguardia, como la multiplexación por división ultra densa de longitud de onda (UDWDM) que permite distribuir un gran número de canales espaciados solo por unos pocos GHz. Este enfoque permite vislumbrar el concepto de longitud de onda para el usuario, donde cada cliente puede usar enlaces de ancho de banda dedicados. Las tecnologías clave están basadas en los sistemas coherentes, con selectividad de longitud de onda inherente y sensibilidad mejorada en comparación con los sistemas de detección directa, gracias al efecto de amplificación óptica de un láser oscilador local (LO) sintonizable. Debido a que el costo es la principal restricción en las redes de acceso, especialmente del equipo en las instalaciones del cliente (unidad de red óptica - ONU), en ésta tesis, una nueva clase de transceptores coherentes, basados en láseres de bajo coste modulados directamente y esquemas de recepción simplificados, son propuestos y probados experimentalmente. Además, el problema de la coexistencia es investigado a través de estudios teóricos y experimentos en tiempo real, demostrando compatibilidad total con los sistemas heredados. Entre las soluciones propuestas, se presenta una técnica simple para ajustar digitalmente la modulación de fase directa de un láser de retroalimentación distribuida (DFB), y admitir velocidades de transmisión flexibles. Acto seguido, se comparan experimentalmente varios formatos multinivel de modulación de fase, para lograr tasas de transmisión más altas y una mejor eficiencia espectral. Posteriormente, se aborda el tema de la integración fotónica, demostrando por primera vez un transmisor (Tx) con modulación híbrida de fase y amplitud de ocho puntos, mediante el uso de un dispositivo pequeño, de bajo coste y eficiente energéticamente, como lo es el láser dual de electro-absorción modulada (DEML). Finalmente, se presentan dos propuestas novedosas para reducir la complejidad de la detección heterodina e intradina, afrontando el problema típico de la complejidad y alto coste de los sistemas coherentes. La primera explora la posibilidad de usar solo un láser DFB en la ONU, como LO y Tx. La segunda, demuestra por primera vez, una nueva técnica de diversidad fase en el tiempo, que alterna la modulación de fase en cada componente del plano complejo (fase-I y cuadratura-Q) logrando una transmisión de 10 Gb / s / λ con independencia de polarizació

Next generation optical access networks and coexistence with legacy PONs

Nowadays, Fiber-to-the-Home is one of the most promising solutions to provide broadband services in access networks. However, the fiber is inefficiently used as most of the deployed systems are still based on Time Division Multiplexing Passive Optical Networks (TDM-PONs) providing shared transmission capacities up to 2.5 Gb/s down and 1.25 Gb/s up, among multiple users. Research on high-speed electronics and Wavelength Division Multiplexing (WDM) has allowed the emergence of what is known as the second generation PON (NG-PON2), which specify aggregated capacities up to 40 Gb/s, stacking four channels at symmetric data rates of 10 Gb/s each, for residential scenarios. Nevertheless, the capacity per channel is still shared between multiple users due to the use of TDM. Moreover, the optical spectrum efficiency is low because channels are widely spaced (50 to 100 GHz). In addition, the sensitivity, reach and number of users is limited as consequence of using direct detection (DD) systems. In consequence, and due to the increase in bandwidth demands of new multimedia applications, it is necessary to propose solutions that cope with this tendency and, even more important, that can coexist with legacy systems, being one of the major requirements of network operators to guarantee a smooth and non-disruptive technology migration. In this thesis, a breakthrough technology such as Ultra-Dense WDM (UDWDM) that allows to allocate a large number of channels spaced only by a few GHz is used. This approach consent to envision the concept of Wavelength-to-the-User, where each costumer can be served with dedicated bandwidth links. The key technologies are based on coherent systems, with inherent wavelength selectivity and improved sensitivity compared to DD systems, thanks to the booster action of a tunable local oscillator (LO) laser. Because of cost is the main constraint in access networks, especially at the customer premises equipment (Optical Network Unit - ONU), in this thesis, a new class of coherent transceivers, based on low-cost direct modulated lasers and simplified receiver schemes, are proposed and experimentally tested. Moreover, the issue of coexistence is investigated through theoretical studies and real-time implementations, demonstrating full compatibility with legacy systems. Between the proposed solutions, a simple technique to adjust digitally the direct phase modulation of a distributed feedback (DFB) laser is presented to support flexible transmission rates. Next, several multilevel phase modulation formats for achieving higher transmission rates and better spectral efficiency are experimentally compared. Subsequently, the topic of photonic integration is addressed, demonstrating for the first time an 8-ary hybrid amplitude and phase modulated transmitter (Tx), by using a low-cost, small-footprint and energy efficient dual electro-absorption modulated laser (DEML). Finally, two novel proposals, to reduce the complexity of heterodyne and intradyne detection, are provided to face the typical issue of complexity and high-cost of coherent systems. The former explores the possibility of using only one DFB laser as LO and Tx at the ONU. The later demonstrates for the first time, a novel phase time diversity technique alternating phase modulation at each complex component (in-phase - I and quadrature - Q) achieving a 10 Gb/s' transmission with polarization independence.En la actualidad, la Fibra hasta el Hogar es una de las soluciones más prometedoras para proporcionar servicios de banda ancha en las redes de acceso. Sin embargo, la fibra se usa de manera poco eficiente, ya que la mayoría de los sistemas implementados todavía están basados en redes ópticas pasivas de multiplexación por división en el tiempo (TDM-PON) que brindan capacidades de transmisión compartidas entre múltiples usuarios de hasta 2.5 Gb/s y 1.25 Gb/s. La investigación en electrónica de alta velocidad y la multiplexación por división de longitud de onda (WDM) ha permitido el surgimiento de lo hoy se conoce como PON de segunda generación (NG-PON2), que especifica capacidades agregadas de hasta 40 Gb/s, apilando cuatro canales a velocidades de datos simétricas de 10 Gb/s cada uno, para escenarios residenciales. Sin embargo, la capacidad por canal todavía se comparte entre múltiples usuarios debido al uso de TDM. Además, la eficiencia en el uso del espectro óptico es baja porque los canales están muy separados (50 a 100 GHz). Asimismo, la sensibilidad, el alcance y el número de usuarios están limitados debido al uso de sistemas de detección directa. En consecuencia, y debido al aumento de las demandas de ancho de banda de las nuevas aplicaciones multimedia, es necesario proponer soluciones que respondan a esta tendencia y, lo que es más importante, que puedan coexistir con sistemas heredados, siendo uno de los principales requisitos de los operadores de red para garantizar una migración de tecnología fluida y sin interrupciones. En esta tesis, se utiliza una tecnología de vanguardia, como la multiplexación por división ultra densa de longitud de onda (UDWDM) que permite distribuir un gran número de canales espaciados solo por unos pocos GHz. Este enfoque permite vislumbrar el concepto de longitud de onda para el usuario, donde cada cliente puede usar enlaces de ancho de banda dedicados. Las tecnologías clave están basadas en los sistemas coherentes, con selectividad de longitud de onda inherente y sensibilidad mejorada en comparación con los sistemas de detección directa, gracias al efecto de amplificación óptica de un láser oscilador local (LO) sintonizable. Debido a que el costo es la principal restricción en las redes de acceso, especialmente del equipo en las instalaciones del cliente (unidad de red óptica - ONU), en ésta tesis, una nueva clase de transceptores coherentes, basados en láseres de bajo coste modulados directamente y esquemas de recepción simplificados, son propuestos y probados experimentalmente. Además, el problema de la coexistencia es investigado a través de estudios teóricos y experimentos en tiempo real, demostrando compatibilidad total con los sistemas heredados. Entre las soluciones propuestas, se presenta una técnica simple para ajustar digitalmente la modulación de fase directa de un láser de retroalimentación distribuida (DFB), y admitir velocidades de transmisión flexibles. Acto seguido, se comparan experimentalmente varios formatos multinivel de modulación de fase, para lograr tasas de transmisión más altas y una mejor eficiencia espectral. Posteriormente, se aborda el tema de la integración fotónica, demostrando por primera vez un transmisor (Tx) con modulación híbrida de fase y amplitud de ocho puntos, mediante el uso de un dispositivo pequeño, de bajo coste y eficiente energéticamente, como lo es el láser dual de electro-absorción modulada (DEML). Finalmente, se presentan dos propuestas novedosas para reducir la complejidad de la detección heterodina e intradina, afrontando el problema típico de la complejidad y alto coste de los sistemas coherentes. La primera explora la posibilidad de usar solo un láser DFB en la ONU, como LO y Tx. La segunda, demuestra por primera vez, una nueva técnica de diversidad fase en el tiempo, que alterna la modulación de fase en cada componente del plano complejo (fase-I y cuadratura-Q) logrando una transmisión de 10 Gb / s / λ con independencia de polarizaciónPostprint (published version

Hybrid fibre and free-space optical solutions in optical access networks

This thesis evaluates the potentials of hybrid fibre and free space optical (FSO) communications access networks in providing a possible solution to an all optical access network. In such network architectures, the FSO link can extend the system to areas where an optical fibre link is not feasible, and/or provide limited mobility for indoor coverage. The performance of hybrid fibre and FSO (HFFSO) networks based on digital pulse position modulation (DPPM), for both the indoor and outdoor environments of the optical access network, are compared with the performance of such a network that is based on conventional on-off keying non-return-to-zero (OOK NRZ) modulation using results obtained through computational and analytical modelling. Wavelength division multiplexing (WDM) and/or code division multiple access (CDMA) are incorporated into the network for high speed transmission and/or network scalability. The impacts of optical scintillation, beam spreading and coupling losses, multiple access interference (MAI), linear optical crosstalk and amplified spontaneous emission noise (ASE) on the performance of hybrid fibre and FSO (HFFSO) access networks are analysed, using performance evaluation methods based on simple Gaussian approximation (GA) and more complex techniques based on moment generating function (MGF), including the Chernoff bound (CB), modified Chernoff bound (MCB) and saddlepoint approximation (SPA). Results in the form of bit error rate (BER), power penalty, required optical power and outage probability are presented, and both the CB and MCB, which are upper bounds, are suggested as safer methods of assessing the performance of practical systems. The possibility of using a CDMA-based HFFSO network to provide high speed optical transmission coverage in an indoor environment is investigated. The results show a reduction in transmit power of mobile devices of about 9 – 20 dB (depending on number of active users) when an optical amplifier is used in the system compared to a non-amplified system, and up to 2.8 dB improvement over OOK NRZ receiver sensitivity is provided by a DPPM system using integrate and compare circuitry for maximum likelihood detection, and at coding level of two, for minimum bandwidth utilization. Outdoor HFFSO networks using only WDM, and incorporating CDMA with WDM, are also investigated. In the presence of atmospheric scintillations, an OOK system is required (for optimum performance) to continuously adapt its decision threshold to the fluctuating instantaneous irradiance. This challenge is overcome by using the maximum likelihood detection DPPM system, and necessitated the derivation of an interchannel crosstalk model for WDM DPPM systems. It is found that optical scintillation worsens the effect of interchannel crosstalk in outdoor HFFSO WDM systems, and results in error floors particularly in the upstream transmission, which are raised when CDMA is incorporated into the system, because of MAI. In both outdoor HFFSO networks (with WDM only and with WDM incorporating CDMA), the optical amplifier is found necessary in achieving acceptable BER, and with a feeder fibre of 20 km and distributive FSO link length of 1500 m, high speed broadband services can be provided to users at safe transmit power at all turbulence levels in clear air atmosphere

Equalização digital para sistemas de transmissão ópticos coerentes

This thesis focus on the digital equalization of fiber impairments for coherent optical transmission systems. New efficient and low-complexity equalization and mitigation techniques that counteract fiber nonlinear impairments are proposed and the tradeoff between performance and complexity is numerically assessed and experimentally demonstrated in metro and long-haul 400G superchannels-based transmission systems. Digital backpropagation (DBP) based on low-complexity split-step Fourier method and Volterra series nonlinear equalizers are experimentally assessed in an uniform superchannel system. In contrast with standard DBP methods, these techniques prove to be able to be implemented with larger step-sizes, consequently requiring a reduced number of multiplications, and still achieve a significant reach extension over linear equalization techniques. Moreover, given its structure, the complexity of the proposed Volterra-based DBP approach can be easily adjusted by changing the nonlinear filter dimension according to the system requirements, thus providing a higher flexibility to the nonlinear equalization block. A frequency-hybrid superchannel envisioning near-future flexible networks is then proposed as a way to increase the system bit-rate granularity. The problematic of the power-ratio between superchannel carriers is addressed and optimized for linear and nonlinear operation regimes using three distinct FEC paradigms. Applying a single FEC to the entire superchannel has a simpler implementation and is found to be a more robust approach, tolerating larger uncertainties on the system parameters optimization. We also investigate the performance gain provided by the application of different DBP techniques in frequency-hybrid superchannel systems, and its implications on the optimum power-ratio. It is shown that the application of DBP can be restricted to the carrier transporting the higher cardinality QAM format, since the DBP benefit on the other carriers is negligible, which might bring a substantially complexity reduction of the DBP technique applied to the superchannel.A presente tese foca-se na equalização digital das distorções da fibra para sistemas óticos de transmissão coerente. São propostas novas técnicas eficientes e de baixa complexidade para a equalização e mitigação das distorções não lineares da fibra, e o compromisso entre desempenho e complexidade é testado numericamente e demonstrado experimental em sistemas de transmissão metro e longa distância baseados em supercanais 400G. A propagação digital inversa baseada no método de split-step Fourier e equalizadores não lineares de séries de Volterra de baixa complexidade são testadas experimentalmente num sistema baseado em supercanais uniformes. Ao contrário dos métodos convencionais utilizados, estas técnicas podem ser implementadas utilizando menos interações e ainda extender o alcance do sistema face às técnicas de equalização linear. Para além disso, a complexidade do método baseado em Volterra pode ser facilmente ajustada alterando a dimensão do filtro não linear de acordo com os requisitos do sistema, concedendo assim maior flexibilidade ao bloco de equalização não linear. Tendo em vista as futuras redes flexı́veis, um supercanal hı́brido na frequência é proposto de modo a aumentar a granularidade da taxa de transmissão do sistema. A problemática da relação de potência entre as portadoras do supercanal é abordada e optimizada em regimes de operação linear e não linear utilizando paradigmas diferentes de códigos correctores de erros. A aplicação de um único código corrector de erros à totalidade do supercanal mostra ser a abordagem mais robusta, tolerando maiores incertezas na optimização dos parâmetros do sistema. O ganho de desempenho dado pela aplicação de diferentes técnicas de propagação digital inversa em sistemas de supercanais hı́bridos na frequência é tamém analizado, assim como as suas implicações na relação óptima de potência. Mostra-se que esta pode ser restringida à portadora que transporta o formato de modulação de ordem mais elevada, uma vez que o benefı́cio trazido pelas restantes portadotas é negligenciável, permitindo reduzir significativamente a complexidade do algoritmo aplicado.Programa Doutoral em Telecomunicaçõe