Global ETD Search

451	Advanced link and transport control protocols for broadband optical access networks Xiao, Chunpeng 13 November 2006 (has links) The objective of this dissertation is to improve the service quality of broadband optical access networks by developing advanced link- and transport- layer protocols. Current access technologies represent a significant bottleneck in bandwidth and service quality between a high-speed residential/enterprise network and a largely overbuilt core network. Although it is believed that passive optical network (PON) will be the most promising solution to provide truly broadband connections to end users, a suit of protocols are required to provide quality of service (QoS). In this dissertation, we design a new reservation MAC scheme that arbitrates upstream transmission, prevents collisions, and varies bandwidth according to demand and priority. The new access scheme exploits both WDM and TDM to cater for both light and heavy bandwidth requirements. Next, we introduce delta compression as an efficient method for fast content download. In the third part of this dissertation, we enhance the transport performance of Ethernet services by addressing the throughput optimization issue at the edge of the network. A novel SLA-aware transport control scheme is proposed to utilize reserved bandwidth more efficiently using a shifted additive increase multiplicative decrease (AIMD) algorithm, and to detect congestion more accurately based on hypothesis test. The performance of the proposed scheme is compared with traditional TCP through theoretical analyses and simulations. Passive optical networks Media access control Ethernet services Transport control protocol Quality of service Optical fibers Computer networks Ethernet (Local area network system) Optical communications
452	Optoelectronic device simulation: Optical modeling for semiconductor optical amplifiers and Solid state lighting Wang, Dongxue Michael 11 April 2006 (has links) This dissertation includes two parallel topics: optical modeling of wavelength converters based on semiconductor optical amplifiers (SOA) and optical modeling for LEDs and solid state lighting. A steady-state numerical model of wavelength converters based on cross-gain SOAs is developed. In this model, a new model of the gain coefficient is applied. Each physical variable, such as the carrier density, gain coefficient, differential gain, and internal loss, spatially varies across the SOA cavity and is numerically calculated throughout the device. Increased accuracy over previous studies is achieved by including such spatial variations. This model predicts wavelength-dependent characteristics of a wavelength converter of the SOA in both large and small signal regimes. Some key performance factors of SOA wavelength converters. A hybrid method incorporating both guided wave optics and optical ray tracing is also developed to model LEDs and solid state lighting. This method can model either single wavelength or dual-wavelength LED structures with different die shapes and packages. The waveguide and diffraction optics are mainly used to model the near-field optics inside LED chips and its vicinity and to identify guided modes and leakage modes. Geometrical ray tracing is applied to model the far-field pattern and light interactions at different material interfaces, such as LED chip structures, LED package materials, and light scattering at those rough surfaces and textures. To improve LED light extraction efficiency, different LED die shapes and device structures can also be optimized using this method. New technologies for future research on SOAs and LEDs are also proposed. Solid state lighting LED Optical amplifier Wavelength division multiplexing Light emitting diodes Optical communications Semiconductors Optical properties
453	Novel architectures for broadband free-space optical communications: deep-space and terrestrial optical links Hashmi, Ali Javed 22 April 2010 (has links) The main objective of this research is to design, simulate, and evaluate telescope array-based receiver architectures for the inter-planetary optical communication links, which is able to provide broadband data support for future deep-space and universe exploration missions. The major aspects of this research are as follows: (1) evaluation and performance comparison of telescope arrays-based receiver with a large, monolithic telescope-based receiver, (2) mathematical modeling and analysis of the impact of various limiting factors (i.e., background noise, atmospheric turbulence, synchronization and tracking errors) on the performance of optical array receiver, (3) design and evaluation of subsystems and adaptive signal processing algorithms for the mitigation of the above-mentioned deleterious effects, and (4) development of an end-to-end simulation and analysis platform for an optical communication link between a transmitter in Mars orbit and an Earth-based array receiver after integration of the proposed sub-systems. In the second part of this research, I aim to extend the analysis to the free-space, short-range, terrestrial optical communication links. In this part, the objective is the development of the efficient simulation tools for the analysis of receiver performance and optical beam propagation through turbulent atmospheric channel. In the experimental part of the research, the investigation of the use of adaptive optics (AO) subsystems for turbulence and background noise compensation in the deep-space optical communication links will be carried out. Optical communications Telescope arrays Adaptive optics Deep-space communications Adaptive filters Large astronomical telescopes Pulse amplitude modulation Pulse modulation (Electronics)
454	Communications with chaotic optoelectronic systems - cryptography and multiplexing Rontani, Damien 20 October 2011 (has links) With the rapid development of optical communications and the increasing amount of data exchanged, it has become utterly important to provide effective ar- chitectures to protect sensitive data. The use of chaotic optoelectronic devices has already demonstrated great potential in terms of additional computational security at the physical layer of the optical network. However, the determination of the security level and the lack of a multi-user framework are two hurdles which have prevented their deployment on a large scale. In this thesis, we propose to address these two issues. First, we investigate the security of a widely used chaotic generator, the external cavity semiconductor laser (ECSL). This is a time-delay system known for providing complex and high-dimensional chaos, but with a low level of security regarding the identification of its most critical parameter, the time delay. We perform a detailed analysis of the influence of the ECSL parameters to devise how higher levels of security can be achieved and provide a physical interpretation of their origin. Second, we devise new architectures to multiplex optical chaotic signals and realize multi-user communications at high bit rates. We propose two different approaches exploiting known chaotic optoelectronic devices. The first one uses mutually cou- pled ECSL and extends typical chaos-based encryption strategies, such as chaos-shift keying (CSK) and chaos modulation (CMo). The second one uses an electro-optical oscillator (EOO) with multiple delayed feedback loops and aims first at transpos- ing coded-division multiple access (CDMA) and then at developing novel strategies of encryption and decryption, when the time-delays of each feedback loop are time- dependent. Communication Chaos Nonlinear dynamics Synchronization Time-delay systems Optoelectronic devices Multiplexing Physical layer security Optical communications Computer security Chaotic behavior in systems
455	Frontiers of optical networking technologies: millimeter-wave radio-over-fiber and 100g transport system for next-generation high-data-rate applications Hsueh, Yu-Ting 04 April 2012 (has links) The enabling technologies and the issues of next-generation millimeter-wave wireless access network and 100G long-haul optical transport network were developed and identified. To develop a simple and cost-effective millimeter-wave optical-wireless system, all-round research on the technical challenges of optical millimeter-wave generation, transmission impairments compensation, and simple base station design were discussed. Several radio-over-fiber systems were designed to simultaneously deliver multi-band wireless services on a single optical infrastructure, enabling converged system control and quality maintenance in central office. For the 100G optical transport network, the issues related to successful implementations of transmitter, fiber link, and receiver of a 112-Gb/s polarization-division multiplexing-quadrature phase shift keying (PDM-QPSK) system were comprehensively explored. The experimental results based on the constructed 112-Gb/s testbed indicated that careful dispersion management can effectively increase nonlinearity tolerance. Furthermore, the special emphasis on the two impairments of the 100G network with reconfigurable optical add-drop multiplexers: passband narrowing and in-band crosstalk, was studied. The results demonstrated that these impairments can be readily predicted with proper experimental and simulation efforts. 100G long-haul network Millimeter wave communication systems Millimeter wave devices Optical communications Telecommunication systems
456	Simulation und experimentelle Untersuchung von optischen und elektronischen Entzerrern in hochbitratigen optischen Übertragungssystemen Fritzsche, Daniel 28 September 2010 (has links) (PDF) In dieser Arbeit werden verschiedene Methoden zur Erhöhung der Systemtoleranz optischer Übertragungssysteme theoretisch analysiert, durch numerische Simulationen untersucht und in Experimenten und Feldversuchen praktisch überprüft. Der Schwerpunkt lag dabei auf empfängerseitigen elektronischen sowie optischen Entzerrern. Diese Entzerrer verbessern die Signalübertragung, in dem sie die Augenöffnung des Signals am Empfänger vergrößern oder in dem sie durch digitale Logikschaltungen das gesendete Signal aus einem gestörten Signal rekonstruieren. Der Schwerpunkt dieser Arbeit liegt jedoch auf der Untersuchung der Entzerrer auf Systemebene, d.h. es wird das Verhalten in einem kompletten optischen Übertragungssystem bestehend aus Sender, Glasfaserstrecke und Empfänger bewertet. Zur Untersuchung wurde eine Simulationsumgebung in der Programmiersprache FORTRAN erstellt, in der die unterschiedlichen Entzerrer in verschiedenen Netz-Szenarien untersucht wurden. Zur praktischen Untersuchung wurde außerdem eine Testumgebung im verlegten Glasfasernetz aufgebaut und eine Realisierung eines Entzerrers experimentell untersucht. / In this thesis, several methods for the enhancement of the tolerance of optical transmission systems are analyzed theoretically, investigated in numerical simulations and evaluated in experiments and field trials. The investigations were thereby focused on receiver sided electronic and optical equalizers. Those devices improve the signal transmission by increasing the eye-opening at the receiver or by reconstructing the original signal from the distorted received signal by the use of digital signal processing. However, this thesis is focused on the investigation of different equalizers on a system level where the performance of a complete transmission system consisting of a transmitter, transmission fiber and receiver is evaluated. For those studies a simulation environment was created using the programming language FORTRAN where the different equalizers were evaluated in different network scenarios. For practical investigations, a test environment was created using the deployed fiber infrastructure and specific equalizer realization were evaluated experimentally. optische Nachrichtentechnik Photonik Glasfaser Entzerrung Entzerrer dispersionskompensation PMD optical communications fiber optics photonics equalization dispersion compensation PMD ddc:620 rvk:ZN 6280 rvk:ZN 6294
457	Ολοκληρωμένα κυκλώματα μεγάλης ταχύτητας για τηλεπικοινωνιακές εφαρμογές / High speed integrated circuits for telecommunication applications Μπιλιώνης, Γεώργιος 20 October 2009 (has links) Η ανάγκη για ολοκληρωμένα κυκλώματα που λειτουργούν σε υψηλές συχνότητες/ταχύτητες πηγάζει από το γεγονός ότι οι τηλεπικοινωνιακές εφαρμογές νέας γενιάς βασίζονται στη μετάδοση και τη λήψη δεδομένων με πολύ μεγάλους ρυθμούς. Οι υλοποιήσεις των εφαρμογών αυτών σε τεχνολογίες πυριτίου παρουσιάζουν μεγάλες σχεδιαστικές προκλήσεις. Στα πλαίσια της παρούσης διδακτορικής διατριβής, έχοντας κατά νου τις παραπάνω προκλήσεις, αρχικά παρουσιάζεται μια αναλυτική διαδικασία για την εξαγωγή των παραμέτρων μετάδοσης διαφορικών γραμμών μεταφοράς υλοποιημένων σε τεχνολογία πυριτίου. Η μέθοδος αυτή βασίζεται στη χρήση των παραμέτρων σκέδασης μεικτού ρυθμού και έχει το πλεονέκτημα ότι εξάγει τα χαρακτηριστικά των διαφορικών γραμμών μεταφοράς χωρίς τη χρήση επαναληπτικών μεθόδων. Ένα άλλο θέμα που πραγματεύεται η παρούσα διατριβή είναι μια μεθοδολογία βαθμονόμησης (calibration) για την αύξηση της ακρίβειας ηλεκτρομαγνητικού εξομοιωτή στην εξαγωγή των παραμέτρων που έχουν παθητικά στοιχεία (γραμμές μεταφοράς και σπειροειδείς επαγωγοί υλοποιημένα σε τεχνολογία πυριτίου). Οι δύο παραπάνω μεθοδολογίες χρησιμοποιήθηκαν για τη σχεδίαση και την υλοποίηση πλήρως διαφορικού κατανεμημένου ταλαντωτή ελεγχόμενου από τάση σε τεχνολογία πυριτίου 0.35μm SiGe BiCMOS. Για τη ρύθμιση της συχνότητας χρησιμοποιείται η τεχνική της μεταβολής καθυστέρησης με την αρωγή θετικής ανάδρασης. Η συνεισφορά της παρούσης διδακτορικής διατριβής είναι ότι ο παραπάνω ταλαντωτής είναι ο πρώτος πλήρως ολοκληρωμένος κατανεμημένος διαφορικός ταλαντωτής. / The demand for high speed/high frequency integrated circuits stems from the fact that modern communication applications require high bit rate data transfer. The implementations of these applications on silicon based technologies impose several design challenges. This dissertation tries to address some of these issues. First, we propose a direct parameter extraction procedure for the case of symmetrical differential transmission lines. This method is based on the mixed-mode S-parameter theory and its main advantage is the fact that it doesn’t use any kind repetitive algorithms. Another issue that this dissertation addresses is a calibration methodology for the augmentation of the parameter extraction accuracy of high frequency passive elements (transmission lines and spiral inductors) when an electromagnetic simulator is used. The abovementioned methodologies were utilized in the design and implementation of a fully integrated differential distributed voltage controlled oscillator in a 0.35 μm SiGe BiCMOS technology. As a frequency tuning technique the delay variation by positive feedback is used. The main contribution of this dissertation is the fact that this oscillator is the first fully integrated differential distributed oscillator. Παράμετροι σκέδασης 621.382 Telecommunications Optical communications Distributed circuits S-parameters Voltage controlled oscillator
458	Evaluation des technologies optiques pour les réseaux domestiques à très haut débit Al Hajjar, Hani 14 March 2013 (has links) (PDF) Over the last ten years, the number of laptop computers, personal digital assistants (PDAs) and other mobile terminals has massively increased. This evolution has led to a huge demand of wireless communications, in the purpose of avoiding wires and connectors to supply mobility in various places such as offices, homes, rail stations or airports. To date, this mobility is mainly offered by radiofrequency (RF) communications using Wi-Fi channels, with a maximum bitrate of 300 Mbps. However, new indoor applications such as non-compressed high-definition (HD) video transfer or remote hard-disk backup require much higher bandwidths (> 2Gbps). Such a bitrate can be transmitted using an optical wireless communications OWC system. In this thesis, a new architecture of OWC has been proposed and studied according to the GROWTH criteria (GReen Optical Wireless InTo Home network). This architecture is based on distributed free-space optical pico-cells in each room of the home interconnected by optical fibers and offering bitrates that exceed 1 Gbps. The work is divided into four parts: dimensioning of the systems and the selection of associated opto-electronics technologies, simulation of the hybrid optical channel (fiber optics + free-space) using the VPI Transmission Maker and Matlab softwares, choice of the wavelength and finally the experimental measurements to validate the performance of the system. Indoor optical communications Infrared Free-space Polymer optical fiber Optical concentrator Photo-receiver High bit rave
459	Οπτικά τηλεπικοινωνιακά συστήματα διασύνδεσης υψηλής φασματικής απόδοσης με πολυπλεξία μήκους κύματος και προηγμένες τεχνικές διαμόρφωσης / Spectrally efficient WDM optical networks with advanced modulation formats Καρίνου, Φωτεινή 09 July 2013 (has links) Οι απαιτήσεις των δικτύων διασύνδεσης, στα υπολογιστικά συστήματα υψηλής απόδοσης, αυξάνονται με αλματώδη ρυθμό τόσο σε χωρητικότητα, όσο και σε ρυθμούς σηματοδοσίας που πρέπει να εξυπηρετηθούν. Αυτή η αύξηση των ρυθμών σηματοδοσίας επιβάλλει την αντικατάσταση των ηλεκτρικών διακοπτών που χρησιμοποιούνται μέχρι τώρα, από τους οπτικούς. Η τεχνολογία των οπτικών ινών παρουσιάζει σημαντικά πλεονεκτήματα για τέτοιες εφαρμογές διότι επιτρέπει τη μετάδοση σε μεγαλύτερες αποστάσεις, παρέχει ευρυζωνικότητα, είναι πιο ανθεκτική στην ηλεκτρομαγνητική παρεμβολή, και μπορεί να είναι πιο συμφέρουσα ενεργειακά, κάτι που εξαρτάται από το ρυθμό σηματοδοσίας και το μήκος της ζεύξης. Σε αυτή την κατεύθυνση, αυτή η διδακτορική διατριβή αποσκοπεί στο σχεδιασμό και την επίδειξη οικονομικά συμφέροντων, υψηλής διεκπαιρεωτικής ικανότητας, οπτικών δικτύων διασύνδεσης ικρυωμάτων για τα exascale (10^18 Flops) υπολογιστικά συστήματα υψηλής απόδοσης και τα κέντρα δεδομένων. Ειδικότερα, μελετάται μία πρωτότυπη, οικονομικά βελτιστοποιημένη, αρχιτεκτονική ενός αμιγώς οπτικού δικτύου διασύνδεσης η οποία χρησιμοποιεί οπτικούς ημιαγωγικούς ενισχυτές για να επιτελέσει τη μεταγωγή. Αυτή η προτεινόμενη, οικονομικότερη εκδοχή του υπο μελέτη N×N αμιγώς οπτικού, ραβδεπαφικού διακόπτη, χρησιμοποιεί ένα μειωμένο αριθμό απαιτούμενων πυλών ON/OFF. Στην παρούσα διατριβή η προτεινόμενη αρχιτεκτονική συγκρίνεται με την αρχικά προταθείσα και αποδεικνύεται η εξίσου καλή λειτουργία της με την πρώτη, τόσο θεωρητικά όσο και πειραματικά. Επιπλέον, για την αύξηση της χωρητικότητας και παράλληλα για την καταπολέμηση των φαινομένων μετάδοσης στο δίκτυο διασύνδεσης (ιδιαίτερα της αυτοδιαμόρφωσης και ετεροδιαμόρφωσης της απολαβής (SGM και XGM), της αυτοδιαμόρφωσης και ετεροδιαμόρφωσης της φάσης (SPM και XPM), και της εξάρτησης της απολαβής από την πόλωση (PDG)), μελετώνται, εκτός από την τεχνική διαμόρφωσης πλάτους με άμεσης φώραση (IM/DD), διάφορες προηγμένες τεχνικές διαμόρφωσης όπως η διαφορική διαμόρφωση φάσης (DPSK) με άμεση φώραση, η διαμόρφωση με ορθογώνια πολυπλεξία συχνότητας (OFDM) με άμεση φώραση, καθώς και μελλοντικά υποψήφιες τεχνικές διαμόρφωσης, για τέτοια είδους δίκτυα, όπως η τετραδική διαμόρφωση φάσης με πολυπλεξία της πόλωσης (PDM-QPSK), και η δεκαεξαδική διαμόρφωση φάσης και πλάτους (16QAM) χωρίς (SP) και με (PDM) πολυπλεξία της πόλωσης, με σύμφωνη φώραση. Τέλος, ως δεύτερη ερευνητική δραστηριότητα, μελετώνται ζεύξεις σημείου-προς-σημείο, που βασίζονται στη χρήση πομπών κάθετης κοιλότητας επιφανειακής εκπομπής (VCSELs) και πολύτροπες (MMF) ή μονότροπες (SMF) ίνες, σε συνδυασμό με συμβατικές τεχνικές διαμόρφωσης, όπως η ΙΜ/DD, και προηγμένες, όπως η διαμόρφωση πλάτους τεσσάρων επιπέδων (4-PAM), και η OFDM διαμόρφωση. Η χρήση των παραπάνω τεχνολογιών επιτρέπει την αύξηση της χωρητικότητας και τη μείωση του κόστους στα τρέχοντα συστήματα οπτικής διασύνδεσης. / Data rates are continuing to increase for box-to-box, rack-to-rack, board-to-board, and chip-to-chip interconnects for terabit switches and routers, multiprocessor computers and high-end servers. The increase in individual line rates and bandwidth drives the need to replace copper interconnects with optical interconnects. Fiber optics are advantageous for these applications because they allow for longer link lengths, increased bandwidth, smaller cables and connectors, less susceptibility to electromagnetic interference, and potentially lower power dissipation, depending on the data rate and link length. Towards this direction, this thesis aims to design and demonstrate low-cost, low-latency, high throughput, rack-to-rack optical interconnect architectures for exascale (i.e., performing 10^18 floating point operations per second) high-performance computing (HPC) systems and data centers. In particular, a novel, cost-effective, optical interconnect architecture for ultrafast optical switching, based on semiconductor optical amplifiers (SOAs), is studied. The proposed design of a fast N×N all-optical, wavelength-space crossbar switch for optical interconnects uses a minimum number of ON/OFF gates. This thesis compares and proves the superiority of the proposed architecture with respect to its originally-proposed counterpart, both theoretically and experimentally. Additionally, in order to increase the capacity and to minimize the impact of transmission effects (especially self-gain modulation (SGM), cross-gain modulation (XGM), self-phase modulation (SPM), cross-phase modulation (XPM), and polarization dependent gain (PDG)), we investigate the performance of conventional binary intensity modulation (IM), in conjunction with direct detection, as well as of advanced, more resilient, spectrally-efficient modulation formats (e.g., Differential Phase Shift Keying (DPSK), Orthogonal Frequency Division Multiplexing (OFDM), Polarization Division Multiplexed Quadrature Phase Shift Keying (PDM-QPSK), Single (SP)- and PDM- 16-ary Quadrature Amplitude Modulation (16QAM) in conjunction with coherent detection). Finally, as a seperate research activity, we study the performance of point-to-point links based on vertical-cavity surface-emitting lasers (VCSELs) and single- or multi- mode fibers, in conjuction with IM/DD, four-level Pulse Amplitude Modulation (4-PAM), and OFDM, to enable state-of-the-art, high-capacity, low-cost optical interconnects. Οπτικοί διακόπτες 004.65 Optical interconnects Optical networks Optical communications Advanced modulation formats Semiconductor optical amplifiers
460	Ultrafast indoor optical wireless communications Diaz, Ariel Gomez January 2016 (has links) Traffic from wireless and mobile devices is predicted to increase 10-fold between 2014 and 2019, surpassing wired data traffic by 2016. Given the expected radio frequency (RF) capacity crunch, this growing wireless demand will have to be met using a variety of new technologies exploiting other parts of the electromagnetic spectrum. Promising research areas include the Millimetre Band as well as Optical Wireless Communications (OWC). Millimetre Band demonstrations have accomplished ultrafast multi-Gigabit links, making use of state-of-the-art fibre transmission systems. However, complex opto-electronic (OE) interfaces are required to convert the optical carrier into Millimetre wireless signals. To avoid these interfaces, an all-optical transparent network is proposed here, spanning over both the fibre and OWC domains, in order to deliver ultrahigh data rates to mobile end-users in indoor environments. This is supported by the recent deployment of fibre-to-the-home (FTTH) networks creating the potential for Terabit aggregate connections at the user's doorstep. Therefore, infrared fibre-wireless-fibre (FWF) links are studied to support data rates over 100 Gb/s in nomadic applications. The link coverage is achieved via narrow beam beamsteering over a wide field-of-view (FOV) using suitable localization and tracking techniques. The proposed model is inherently bidirectional and transparent, i.e. independent of the data rate and modulation format. In this thesis, the potential for ultrafast wide coverage OWCs using SMF-based transceivers and coherent transmission is demonstrated. A record data rate of 418 Gb/s and 209 Gb/s with a wide FOV of θ<sub>FOV</sub>=±30° and θ<sub>FOV</sub>=±20°, respectively, is shown at a free space range of 3 m. To the best of our knowledge, this is the fastest demonstration of an indoor wireless link that offers practical room-scale coverage. The automated alignment of this FWF link is also demonstrated with the design and implementation a mm-accurate localization and tracking system. Finally, architectures for point-to-multipoint communications are explored in order to adapt the system to multiple users.

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