67 research outputs found
Performance improvement of SS-WDM passive optical networks using semiconductor optical amplifiers: Modeling and experiment
Les sources incohérentes sont proposées comme alternatives aux lasers stabilisés en longueur d'onde pour réduire le coût des réseaux optiques passifs utilisant le multiplexage par longueur d'onde découpée dans le spectre (SS-WDM PONs). À cause de leur nature incohérente, ces sources génèrent au récepteur un large bruit d'intensité. Ce bruit limite l'efficacité spectrale et/ou le taux binaire pouvant être achevé. Cette thèse étudie l'utilisation des amplificateurs optique à semi-conducteur SOAs pour nettoyer le bruit d'intensité. De plus, lors de cette thèse, nous explorons les outils numériques et expérimentaux qui nous permettent d'analyser les performances des SOAs dans le cadre de systèmes de communication multi-canaux, incluant le SS-WDM. Nous présentons des modèles mathématiques pour le bruit d'intensité, ce bruit étant celui qui limite les performances des systèmes de communication utilisant des sources incohérentes. Nous discutons les dynamiques complexes des SOAs et présentons les équations qui gouvernent l'évolution des porteurs de charges dans ces amplificateurs. Nous identifions et soulignons l'effet des paramètres les plus importants, qui affectent le processus ainsi que la dynamique de nettoyage du bruit d'intensité. Nous passons en revue, les différentes techniques de nettoyage de bruit avec les SOAs, qui ont démontré les meilleurs résultats connus. De plus, nous effectuons une revue de littérature poussée pour ce qui a attrait au problème de post-filtrage lorsque le SOA est placé au transmetteur, avant la modulation. Notre première contribution pendant ce travail de recherche est de démontrer, en utilisant l'intermodulation de gain d'un SOA au récepteur pour convertir le signal incohérent en laser cohérent, une amélioration significative du taux d'erreur binaire BER. Cette méthode est spectralement efficace, d'autant plus qu'elle ne souffre point la limitation occasionnée par le post-filtrage au récepteur. En contre partie elle nécessite un ample budget de puissance qui doit assurer une saturation suffisante de l'amplificateur au récepteur. Une source laser est aussi nécessaire au récepteur. Ceci est un inconvénient, même si une telle source n'ait pas besoin d'une quelconque stabilisation. Pour contourner le problème causé par le post-filtrage quand le SOA est au transmetteur, nous proposons un nouveau récepteur pour les systèmes de communication WDM, qui permet de mieux garder le nettoyage de bruit, et ce malgré le filtrage optique au récepteur. La nouvelle méthode consiste en un détecteur balancé utilisé au récepteur: d'un bord, tous les canaux sont détectés sans distinction. De l'autre, le signal désiré est bloqué pendant que tous les autres canaux sont détectés. Avec cette méthode, il est facile de saturer l'amplificateur pour une meilleure suppression de bruit tout en évitant en grande partie la dégradation causé par le post-filtrage. Nous avons expérimentalement démontré un système WDM dense de 8 x 10 Gbps avec une source incohérente et un SOA en saturation. Une autre contribution originale de ce travail est le développement d'un outil de simulation pour les SOAs qui est numériquement plus efficace et léger que les modèles connus à ce jour. Nous avons donc développé un modèle théorique simple, pouvant être implémenté par diagramme block, dans le but de simuler les performances des hens de communications WDM. Notre modèle démontre une bonne concordance avec les résultats expérimentaux ainsi qu'une diminution de temps de calcul de l'ordre de 20 fois. Finalement, lors de la dernière partie de ces travaux, nous nous sommes occupés de mesurer, de façon précise, le temps de recouvrement du gain dans un SOA. Le temps de recouvrement des porteurs dans un SOA est un des paramètres les plus importants qui sont à l'origine du phénomène de nettoyage de bruit et qui régissent le comportement ainsi que les dynamiques de l'amplificateur. Nous avons étudié en particulier, la dépendance de ce temps de recouvrement r de la longueur d'onde. Pour le SOA utilisé lors de notre étude expérimentale, nous avons démontré que r dépendait de la longueur d'onde de façon similaire au spectre de gain. Ces mesures ont été possibles grâce au développement d'un nouveau dispositif de mesure pompe/sonde, qui permettait de mesurer le recouvrement du gain pour une pompe et une sonde à la même longueur d'onde et ayant le même état de polarisation
Using optical injection of Fabry-Perot lasers for high-speed access in optical telecommunications
conference 7720 " Semiconductor Lasers and Laser Dynamics ", Posters session [7720-83]International audienceIn this paper we present our recent works on optical injection of Fabry-Perot laser diode for application in access networks. The injection-locked Fabry-Perot laser diode is used as low-cost colorless transmitters for high-speed optical access exploiting wavelength-division-multiplexing technology. The modification of main characteristics of Fabry-Perot laser such as spectral properties, noise and modulation is shown in injection-locking regime. The strong dependence of these properties onto injection parameters is also given. Finally, the operation of injection-locked Fabry-Perot laser diode in a wavelength-division-multiplexed optical access system using a novel multi-wavelength master source based on quantum-dash mode-locked laser is presented and its transmission performances at 2.5Gb/s are reported
Study of architectures & protection schemes for high-speed WDM-based passive optical access networks utilizing centralized light sources for colorless optical network units
Zhang Bo.Thesis (M.Phil.)--Chinese University of Hong Kong, 2006.Includes bibliographical references (leaves 55-59).Abstracts in English and Chinese.Chapter Chapter 1 --- Introduction to Passive Optical Networks --- p.1Chapter 1.1 --- Passive Optical Network (PON) --- p.2Chapter 1.1.1 --- PON architecture --- p.3Chapter 1.1.2 --- PON benefits --- p.4Chapter 1.2 --- The History of PON --- p.4Chapter 1.3 --- WDM-PON --- p.5Chapter 1.4 --- Outline of This Thesis --- p.8Chapter Chapter 2 --- Previous Schemes for Colorless ONU Operation in WDM-PON --- p.9Chapter 2.1 --- Introduction --- p.10Chapter 2.2 --- Previous WDM-PON Architectures for Colorless ONU Operation --- p.10Chapter 2.2.1 --- Spectrum slicing BLS employed at the ONU --- p.11Chapter 2.2.2 --- Centralized broadband light source (BLS) for upstream optical carrier supply --- p.12Chapter 2.2.3 --- Reuse of the downstream carrier at the ONU --- p.17Chapter 2.3 --- Summary --- p.21Chapter Chapter 3 --- WDM-PON with a Centralized Supercontinuum Broadband Light Source for Colorless ONUs --- p.23Chapter 3.1 --- Introduction --- p.24Chapter 3.1.1 --- Introduction to Supercontinuum Generation --- p.24Chapter 3.1.2 --- Introduction to Photonic Crystal Fibers --- p.25Chapter 3.1.3 --- Supercontinuum Generation in a Photonic Crystal Fiber --- p.27Chapter 3.2 --- WDM-PON with Centralized Supercontinuum Broadband Light Source --- p.27Chapter 3.2.1 --- Motivation --- p.27Chapter 3.2.2 --- Proposed access network --- p.28Chapter 3.2.3 --- Experimental demonstration and results --- p.30Chapter 3.2.4 --- Discussions --- p.32Chapter 3.2.5 --- Conclusion --- p.34Chapter 3.3 --- Broadcast Signal Delivery over a WDM-PON based on Supercontinuum Generation --- p.34Chapter 3.3.1 --- Motivation --- p.34Chapter 3.3.2 --- Proposed network architecture --- p.35Chapter 3.3.3 --- Experiment results and discussions --- p.36Chapter 3.3.4 --- Conclusion --- p.38Chapter 3.4 --- Summary --- p.38Chapter Chapter 4 --- A Survivable WDM-PON with Colorless Optical Network Units --- p.39Chapter 4.1 --- Introduction --- p.40Chapter 4.2 --- Previous Protection Schemes --- p.40Chapter 4.3 --- A Survivable WDM-PON with Centralized BLS --- p.44Chapter 4.3.1 --- Network topology and wavelength assignment --- p.45Chapter 4.3.2 --- Protection operation principles --- p.46Chapter 4.3.3 --- Experimental results --- p.47Chapter 4.4 --- Summary --- p.48Chapter Chapter 5 --- Summary and Future Work --- p.50Chapter 5.1 --- Summary of the Thesis --- p.51Chapter 5.2 --- Future Work --- p.52LIST OF PUBLICATIONS --- p.54REFERENCES --- p.5
Integrated Optoelectronic Devices and System Limitations for WDM Passive Optical Networks
This thesis puts focus on the technological challenges for Wavelength Division Multiplexed Passive Optical Network (WDM-PON) implementation, and presents novel semiconductor optical devices for deployment at the optical network unit (ONU). The first-ever reported L-band Reflective semiconductor optical amplifier (RSOA) is presented based on InP-base material. A theoretical model is developed to estimate the optical gain and the saturation power of this device compared to a conventional SOA. Experiments on this device design show long-range telecom wavelength operation, with polarization-independent gain of greater than 20 dB, and low saturation output power of 0 dBm suitable for PON applications.
Next, the effect of the amplified spontaneous emission noise of RSOA devices on WDM-PON system is investigated. It is shown through theoretical modeling and simulations that the RSOA noise combined with receiver noise statistics increase probability of error, and induce considerable power penalties to the WDM-PON system. By improving the coupling efficiencies, and by distributing more current flow to the input of these devices, steps can be taken to improve device noise characteristics.
Further, in spectrally-spliced WDM-PONs deploying RSOAs, the effect of AWG filter shape on system performance is investigated. Simulation modeling and experiments show that deployment of Flat-band AWGs is critical for reducing the probability of error caused by AWG spectral shape filtering. Flat-band athermal AWGs in comparison to Gaussin-shape counterparts satisfy the maximum acceptable error probability requirements, and reduce the power penalty associated with filtering effect. In addition, detuning between two AWG center wavelengths impose further power penalties to the WDM-PON system.
In the last section of this thesis, motivated by RSOA device system limitations, a novel injection-locked Fabry-Perot (IL-FP) device is presented which consists of a gain section monolithically integrated with a phase section. The gain section provides locking of one FP mode to a seed source wavelength, while the phase modulator allows for adjusting the wavelength of the internal modes by tuning bias current to maintain mode-locking. This device counters any mode drifts caused by temperature variations, and allows for cooler-less operation over a wide range of currents.
The devices and the performance metrics subsequently allow for a hybrid integration platform on a silicon substrate and integrate many functionalities like reflective modulator with thin film dielectric filter and receiver on a single chip for deployment at the user-end of future-proof low cost WDM-PONs
Optical Network Design, Modelling and Performance Evaluation for the Upgraded LHC at CERN
This thesis considers how advances in optical network and optoelectronic technologies may be utilised in particle physics applications. The research is carried out within a certain framework; CERN's Large Hadron Collider (LHC) upgrade. The focus is on the upgrade of the "last-tier" data links, those residing between the last information-processing stage and the accelerator. For that purpose, different network architectures, based on the Passive Optical Network (PON) architectural paradigm, are designed and evaluated. Firstly, a Time-Division Multiplexed (TDM) PON targeting timing, trigger and control applications is designed. The bi-directional, point-to-multipoint nature of the architecture leads to infrastructure efficiency increase. A custom protocol is developed and implemented using FPGAs. It is experimentally verified that the network design can deliver significantly higher data rate than the current infrastructure and meet the stringent latency requirements of the targeted application. Consequently, the design of a network that can be utilised to transmit all types of information at the upgraded LHC, the High-Luminosity LHC (HL-LHC) is discussed. The most challenging requirement is that of the high upstream data rate. As WDM offers virtual point-to-point connectivity, the possibility of using a Wavelength-Division Multiplexed (WDM) PON is theoretically investigated. The shortcomings of this solution are identified; these include high cost and complexity, therefore a simpler architecture is designed. This is also based on the PON paradigm and features the use of Reflective Electroabsorption Modulators (REAM) at the front-end (close to the particle collision point). Its performance is experimentally investigated and shown to meet the requirements of a unified architecture at the HL-LHC from a networking perspective. Finally, since the radiation resistance of optoelectronic components used at the front-end is of major importance, the REAM radiation hardness is experimentally investigated. Their radiation resistance limits are established, while new insights into the radiation damage mechanism are gained
Research of M-PAM and Duobinary Modulation Formats for Use in High-Speed WDM-PON Systems
The exponential growth of Internet data traffic and progress of Information and Communication Technology (ICT) sector pushes hard the telecommunication infrastructure for upgrading the transmission data rate. Wavelength division multiplexed passive optical networks (WDM-PONs) can be the next generation solution for nowadays problems which are related to transmission capacity. Next-generation WDM-PON systems based on mixed wavelength transmitters are expected to become more cost-efficient at high per user data rates, e.g., over 10 Gbit/s per channel. Important advantage of this technology is to set various channel spacing and use different modulation formats to increase spectral efficiency in the same time and provide different transmission speeds for end user, based on pay-as-you-grow approach. Therefore, several modulation formats like non-return to zero (NRZ) also called 2-level pulse-amplitude modulation (PAM-2), four level PAM or PAM-4 and Duobinary (DB) are investigated to understand their limitations, advantages and disadvantages to be further used in next generation PON systems to increase its capacity and spectral efficiency
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Optical fiber transmission systems for in-door next generation broadband access network.
This thesis was submitted for the award of Doctor of Philosophy and was awarded by Brunel University London.This thesis investigates the generation and radio-over-fibre (RoF) transport of unlicensed 60 GHz millimetre-wave (mm-wave) frequency band. The investigated benefits of transmission schemes applicable for the mm-wave generation include optical carrier suppression (OCS), optical frequency multiplication (OFM) and remote heterodyne detection (RHD). For the in-door cabling of the mm-wave transmission, a low-cost polymer optical fibre (POF) along with bend-insensitive single mode fibre (BI-SMF) has been investigated for short-range networks. Transporting mm-wave generated signals over POF and BI-SMF cables based on OCS scheme showed results with the highest spectral efficiency and least inter-symbol interference over a 2.5 Gbit/s data delivery. Based on this thesis analysis, OCS simulation of POF showed the most reliable power penalty performance and receiver sensitivity at 30-m whilst the BI-SMF fiber produced equal observations at 150-m and more. In observing the free space links of delivering the RoF signal, the attenuation on the received signal power for both POF and BI-SMF was insignificant but expected, as the simulation assumed complete and total collimation of the light beams onto the aperture of the photodetector. OCS scheme for mm-wave generation and transport was explored based on the cost effectiveness of using one external modulator compared to other generation schemes that utilised more than one external modulator. OFM scheme was simulated to transport LTE and Wi-Fi signals along with 60 GHz RF band through both SMF and MMF-POF/BI-SMF cables. OFM transport scheme produced the highest attenuation on LTE, Wi-Fi and mm-wave signals carrying 100 Mbit/s data as simulated POF lengths increased. The best performance POF length was observed at 10-m. The application of offset launch technique at the coupling of SMF and POF showed insignificant improvement on signal bandwidth. The free space OFM transmission also demonstrated negligible change to the received signal power. This reinforces the attributes of deploying OWC system in an in-door environment. In other investigation, the simulated successful delivery of mm-wave signal using RHD scheme modulated and transported 10 Gbit/s data signal over POF and BI-SMF cables. Additional observed unrecorded result also showed BI-SMF cable maintained a 2% reduction of received power for 450-m fiber cable from 150-m. The attributes to RHD includes its low operating power system application and delivery of localised 60 GHz signal for uplink RoF transmission. The conceptualised design of Gigabit data delivery for indoor customer applications either through POF or BI-SMF cable, transporting various wireless channels has been presented in this thesis for the design of a robust next generation Broadband access network to reinforce the fiber-inside-the-home (FiTH) deployment
Optical frequency comb source for next generation access networks
The exponential growth of converged telecommunication services and the increasing demands for video rich multimedia applications have triggered the vast development of optical access technology to resolve the capacity bottleneck at metropolitan-access aggregations. To further enhance overall performance, next generation optical access networks will require highly efficient wavelength division multiplexing (WDM) technology beyond the capability of current standard time division multiplexed (TDM) systems. The successful implementation of future-proof WDM access networks depends on advancements in high performance transmission schemes as well as economical and practical electronic/photonic devices. This thesis focuses on an investigation of the use of optical frequency comb sources, and spectrally efficient modulation formats, in high capacity WDM based optical access networks. A novel injected gain switched comb generation technique which deliver simplicity, reliability, and cost effectiveness has been proposed and verified through experimental work. In addition, a detailed characterization of the optical comb source has been undertaken with special attention on the phase noise property of the comb lines. The potential of the injected gain switched comb source is then demonstrated in a digital coherent receiver based long reach WDM access scenario, which intends to facilitate 10 - 40 Gbit/s data delivery per channel . Furthermore, an optical scalar transmission scheme enabling the direct detection of higher order modulation format signals has been proposed and experimentally investigated
Self-Seeded RSOA-Fiber Cavity Lasers vs. ASE Spectrum-Sliced or Externally Seeded Transmitters—A Comparative Study
Reflective semiconductor optical amplifier fiber cavity lasers (RSOA-FCLs) are appealing, colorless, self-seeded, self-tuning and cost-efficient upstream transmitters. They are of interest for wavelength division multiplexed passive optical networks (WDM-PONs) based links. In this paper, we compare RSOA-FCLs with alternative colorless sources, namely the amplified spontaneous emission (ASE) spectrum-sliced and the externally seeded RSOAs. We compare the differences in output power, signal-to-noise ratio (SNR), relative intensity noise (RIN), frequency response and transmission characteristics of these three sources. It is shown that an RSOA-FCL offers a higher output power over an ASE spectrum-sliced source with SNR, RIN and frequency response characteristics halfway between an ASE spectrum-sliced and a more expensive externally seeded RSOA. The results show that the RSOA-FCL is a cost-efficient WDM-PON upstream source, borrowing simplicity and cost-efficiency from ASE spectrum slicing with characteristics that are, in many instances, good enough to perform short-haul transmission. To substantiate our statement and to quantitatively compare the potential of the three schemes, we perform data transmission experiments at 5 and 10 Gbit/s
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