Global ETD Search

191	Návrh modernizace železniční stanice Valašské Meziříčí / Design of modernization of Valašské Meziříčí Railway Station Málek, Jiří January 2016 (has links) The theme of this thesis is to design modernization of Valašské Meziříčí Railway Station. This thesis includes reconstruction of both station heads and the design of the platforms for the safe movement of persons with reduced mobility with seven platform edges in total. The thesis deals with the construction of the railway superstructure and substructure, including drainage.
192	A Meta Analysis of Gigabit Ethernet over Copper Solutions for Cluster-Networking Hoefler, Torsten, Rehm, Wolfgang 28 June 2005 (has links) The IEEE Standard for Gigabit Networking was accepted in June 1998 and ratified as IEEE 802.3z. This standard uses considers an optical cable for signal transmission. One year later a new standard for Gigabit Ethernet over unshielded twisted pair of the 5th category was certified under the name 802.3ab. Nowadays, there are a couple of younger and older studies about Gigabit Ethernet technology and performance. This Meta Analysis is intended to put the main results altogether into one document suitable for a proper choice of gigabit networking equipment for cluster computers. info:eu-repo/classification/ddc/004 ddc:004 Cluster Cluster <Rechnernetz> Copper Ethernet Gigabit Ethernet ieee 802.3 ieee 802.3ab switches
193	Molecular switches facilitate rhythms in the circadian clock of Neurospora crassa Upadhyay, Abhishek 22 April 2021 (has links) Zirkadiane Rhythmen haben sich in allen Lebensbereichen aufgrund täglicher Wechselwirkungen zwischen internen Zeitgebern und Umweltreizen entwickelt. Molekulare Oszillatoren bestehen aus einer Transkriptions-Translations-Rückkopplungsschleife (TTFL), die selbsterregte Rhythmen ermöglicht. Eine verzögerte negative Rückkopplungsschleife ist zentral für dieses genregulatorische Netzwerk. Die Theorie sagt voraus, dass selbsterregte Oszillationen robuste Verzögerungen und Nichtlinearitäten (Ultrasensitivität) erfordern. Wir untersuchen die zirkadianen Rhythmen in dem filamentösen Pilz Neurospora crassa, um die zugrundeliegenden Uhrmechanismen zu studieren. Seine TTFL umfasst den aktivierenden White Collar Complex (WCC) und den hemmenden FFCKomplex, der aus FRQ (Frequency), FRH (FRQ-interacting RNA Helicase) und CK1a (Caseinkinase 1a) besteht. Darüber hinaus gibt es mehrere Phosphorylierungsstellen auf FRQ (~100) und WCC (~ 95). FRQ wird durch CK1a phosphoryliert. Während wir die zeitliche Dynamik dieser Proteine erforschen, untersuchen wir: 1) wie multiple, langsame und zufällige Phosphorylierungen die Verzögerung und Nichtlinearität in der negativen Rückkopplungsschleife bestimmen. 2) wie Grenzzyklus-Oszillationen entstehen und wie molekulare Schalter selbsterregte Rhythmen unterstützen. In der ersten Veröffentlichung simulieren wir FRQ-Multisite-Phosphorylierungen mit Hilfe gewöhnlicher Differentialgleichungen. Das Modell zeigt zeitliche und stationäre Schalter für die freie Kinase und das phosphorylierte Protein. In der zweiten Veröffentlichung haben wir ein mathematisches Modell von 10 Variablen mit 26 Parametern entwickelt. Unser Modell offenbarte einen Wechsel zwischen WC1-induzierter Transkription und FFC-unterstützter Inaktivierung von WC1. Zusammenfassend wurde die Kernuhr von Neurospora untersucht und dabei die Mechanismen, die den molekularen Schaltern zugrunde liegen, aufgedeckt. / Circadian rhythms have evolved across the kingdoms of life due to daily interactions between internal timing and environmental cues. Molecular oscillators consist of a transcription-translation feedback loop (TTFL) allowing self-sustained rhythms. A delayed negative feedback loop is central to this gene regulatory network. Theory predicts that self-sustained oscillations require robust delays and nonlinearities (ultrasensitivity). We study the circadian rhythms in the filamentous fungi Neurospora crassa to investigate the underlying clock mechanisms. Its TTFL includes the activator White Collar Complex (WCC) (heterodimer of WC1 and WC2) and the inhibitory FFC complex, which is made of FRQ (Frequency protein), FRH (Frequency interacting RNA Helicase) and CK1a (Casein kinase 1a). Moreover, there are multiple phosphorylation sites on FRQ (~ 100) and WCC (~ 95). FRQ is phosphorylated by CK1a. While exploring the temporal dynamics of these proteins, we investigate: 1) how multiple, slow and random phosphorylations govern delay and nonlinearity in the negative feedback loop. 2) how limit cycle oscillations arise and how molecular switches support selfsustained rhythms. In the first publication, we simulate FRQ multisite phosphorylations using ordinary differential equations. The model shows temporal and steady state switches for the free kinase and the phosphorylated protein. In the second publication, we developed a mathematical model of 10 variables with 26 parameters consisting of WC1 and FFC elements in nuclear and cytoplasmic compartments. Control and bifurcation analysis showed that the model produces robust oscillations. Our model revealed a switch between WC1-induced transcription and FFC-assisted inactivation of WC1. Using this model, we also studied possible mechanisms of glucose compensation. In summary, the core clock of Neurospora was examined and mechanisms underlying molecular switches were revealed. Zirkadiane Uhr filamentösen Pilz mathematische Modellierung molekularen Schaltern circadian clock filamentous fungi mathematical modeling molecular switches 570 Biowissenschaften; Biologie 529 Chronologie WD 8100 ddc:570 ddc:529
194	Investigation Of Solid-state Ion Conduction With Stable Silver Isotope Analysis And High Performance Computing Anderson, Calvin 01 April 2023 (has links) No description available. Geochemistry Computer Science Condensed Matter Physics ion conduction isotope fractionation atomic switches genetic algorithms reactive force fields molecular dynamics high-performance computing
195	New Topology for STATCOM / Ny topologi för STATCOM Ibáñez Sánchez, Marta January 2017 (has links) Static compensators (STATCOM) based on high-power converters are widely used for utilitiesand industrial applications in order to enhance the power system reliability. Nowadays,the Chain-Link Modular Multilevel Converter is the best solution for such applications,providing high eciency and reliability, and good harmonic performance. However, thecurrent delta and wye congurations present diculties in controlling negative sequencein unbalanced networks, as well as high capacitance requirements, which results in bulkySTATCOMs.This thesis aims to analyse a new Chain-Link Modular Multilevel Converter for STATCOMapplications. The main feature of the proposed topology is the presence of a commondc-link that will allow the exchange of energy between phases, facilitating the compensationof negative sequence components. Consequently, the required zero sequence componentinjection for the current Chain-Link congurations are avoided, and thus, also theconsequent over-sizing of the converter. Moreover, it is expected to have lower capacitancerequirements, because of the elimination of the second order harmonic (100 Hz)component in most of the capacitors, as they are charged and discharged by a bi-phasecurrent instead of a single-phase one. Additionally, lower conduction losses are expectedby reducing the number of devices in the conduction path.The layout and operation of the new converter have been analysed in this thesis.A STATCOM Simulink model provided by ABB has been modied to satisfy the newtopology. The theoretical benets of the proposed converter are supported by dierentsimulations carried out in Matlab-Simulink. In particular, it is shown a 50 % of negativesequence capability without any zero sequence component injection. The total capacitanceof the converter can be reduced a 30 % in comparison with the delta Chain-LinkModular Multilevel Converter, which is the preferable topology in the market nowadays.Furthermore, the losses are kept quite low if SiC semiconductors are used.On the other hand, the proposed topology requires the usage of bi-directional switchesto do the commutation and allow the exchange of energy between phases. An in-depthanalysis of the commutation process is shown at the end of this thesis, concluding that BidirectionalControlled Thyristors would be a promising solution for this converter topology. / Reaktiv effektkompensering (STATCOM) baserade på högeffektomvandlare används vidaför samhällsservice och industriella användningar för att förbättra elsystemet pålitliga.Nuförtiden, Chain-Link Modular Multilevel Converter är den bästa lösningen för sådanaanvändningar, vilket ger hög verkningsgrad och mycket pålitliga, samt låg harmonisk distortion.Hursomhelst, den nuvarande delta och wye konfigurationer presentera svårigheteratt kontrollera negativ sekvens i obalanserade nätverk, vilket leder till överdimensioneringav omvandlaren. Vidare, dessa Chain-Link topologier har hög kapacitans kraven, vilketresulterar i skrymmande STATCOMs.Den här avhandlingen syftar till att analysera en ny Chain-Link Modular MultilevelConverter för STATCOM användningar. Det viktigaste kännetecken av den föreslagnatopologi är närvaron av en gemensam likspänningslänk som gör det möjligt utbytet avenergi mellan faserna, som underlättar ersättning av negativ sekvens komponenter. Pådetta sätt, den behövlig noll sekvens komponent injektion i de aktuella konfigurationernaundviks, och således, också den därav följande överdimensioneringen av omvandlaren.Dessutom, förväntas det att ha lägre kapacitans kraven, eftersom den första övertonens(100 Hz) komponent undviks i några av kondensatorerna, såsom de är laddas och urladdasav en bi-fas ström i stället för en enda-fas ett. Vidare, lägre ledningsförluster förväntasgenom att reducera antalet enheter i ledningsvågen.Layouten och drift av den nya omvandlaren beskrivs i denna avhandling. En Simulinkmodell från ABB har modifierats för att tillfredsställa den nya topologin. De teoretiskafördelarna med det föreslagna omvandlare topologi stöds av simuleringsresultat i Matlab-Simulink. I synnerhet, är det visas en 50 % av negativ sekvens kapacitet utan noll sekvenskomponent injektion. Den totala kapacitansen hos omvandlaren kan minskas på ett 30 %jämfört med den delta Chain-Link Modular Multilevel Converter, som är den föredragnatopologin på marknaden idag. Vidare är förlusterna hålls ganska låg om SiC halvledareanvänds.Å andra sidan, kräver den föreslagna topologi användningen av dubbelriktade omkopplareatt göra kommuteringen och möjliggöra utbytet av energi mellan faserna. Enfördjupad analys av kommuteringsförloppet visas i slutet av denna avhandling, slutsatsenatt Bi-directional Controlled Tyristors skulle vara en lovande lösning för topologin. STATCOM Modular Multilevel Converter Chain-Link negative sequence capability common dc-link bi-directional switches Elektroteknik och elektronik
196	The Nordic Prediction Method For Railway Traffic Noise : Improvements of the current corrections forrailway bridges, switches and crossings HELGADÓTTIR, KRISTÍN, BJÖRNSDÓTTIR, RAGNHEIÐUR January 2019 (has links) Railway noise is a very important and growing health hazard in today´s society.Railway systems pass through towns and cities and create noise. When trainsride through or over railway bridges, switches and crossings the noise increasessubstantially, causing great annoyance to the residents in the area.At the present time, acoustic regulations exist in most countries and are set to achievea good environmental quality in residential areas, schools, hospitals, offices andhotels.A few calculation models exist for railway traffic noise, such as The NPM 1996,NORD2000 and Cnossos-EU. The NPM 1996 is currently used in Sweden to calculatenoise propagation from railway traffic. To uphold the regulations set, it is importantthat the method used is as precise as possible. All of these calculation modelsare based on several correction factors. Today, the current corrections for trackconditions, that is railway bridges, switches and crossings, are not very accurate andneed to be reconsidered.The aim of this project was to investigate and quantify the error of the NPM correctionfactors and give some indication of how they should be adjusted. This is done to makethe noise prediction from railway traffic more accurate and thus protect the residentsfrom these health risks.The specific objective was to perform significant amount of field measurements ofnoise from trains on different steel bridges, switches and crossings, as well as on afew concrete bridge according to the measurement standard Nordtest NT 098. Thefield work was carried out over the period March to May, when weather conditionsmet the criteria for field measurements, in and around the Stockholm area.The results obtained revealed that the correction factors for steel bridges andcrossings are considerably lower in the NPM than measured in this project. However,the correction factors for switches and concrete bridges are similar to the ones inthe NPM. In this thesis, a part of the correction factors have only been invalidatedto a degree. It has been shown that each bridge is unique and perhaps there is apossibility of finding similarities between some type of bridges. However, much moreiv \|measurements are needed to see any correlation between each bridge type. Thus,further and more comprehensive measurements have to be carried out in order toestablish new accurate correction factors for track conditions in the Nordic PredictionMethod. The Nordic Prediction Method Railway traffic Railway noise Noise measurements Acoustics Steel bridges Concrete bridges Switches Railway crossings Correction factor Correction for track condition Engineering and Technology Teknik och teknologier
197	Integrated Inp Photonic Switches May-Arrioja, Daniel 01 January 2006 (has links) Photonic switches are becoming key components in advanced optical networks because of the large variety of applications that they can perform. One of the key advantages of photonic switches is that they redirect or convert light without having to make any optical to electronic conversions and vice versa, thus allowing networking functions to be lowered into the optical layer. InP-based switches are particularly attractive because of their small size, low electrical power consumption, and compatibility with integration of laser sources, photo-detectors, and electronic components. In this dissertation the development of integrated InP photonic switches using an area-selective zinc diffusion process has been investigated. The zinc diffusion process is implemented using a semi-sealed open-tube diffusion technique. The process has proven to be highly controllable and reproducible by carefully monitoring of the diffusion parameters. Using this technique, isolated p-n junctions exhibiting good I-V characteristics and breakdown voltages greater than 10 V can be selectively defined across a semiconductor wafer. A series of Mach-Zehnder interferometric (MZI) switches/modulators have been designed and fabricated. Monolithic integration of 1x2 and 2x2 MZI switches has been demonstrated. The diffusion process circumvents the need for isolation trenches, and hence optical losses can be significantly reduced. An efficient optical beam steering device based on InGaAsP multiple quantum wells is also demonstrated. The degree of lateral current spreading is easily regulated by controlling the zinc depth, allowing optimization of the injected currents. Beam steering over a 21 microns lateral distance with electrical current values as low as 12.5 mA are demonstrated. Using this principle, a reconfigurable 1x3 switch has been implemented with crosstalk levels better than -17 dB over a 50 nm wavelength range. At these low electrical current levels, uncooled and d.c. bias operation is made feasible. The use of multimode interference (MMI) structures as active devices have also been investigated. These devices operate by selective refractive index perturbation on very specific areas within the MMI structure, and this is again realized using zinc diffusion. Several variants such as a compact MMI modulator that is as short as 350 µm, a robust 2x2 photonic switch and a tunable MMI coupler have been demonstrated. indium phosphide InP photonic switches integrated optics semiconductors multimode interference MMI multiple quantum wells MQW electrooptic carrier induced Mach-Zehnder Electromagnetics and Photonics Optics
198	Modeling and Simulation of Microelectromechanical Systems in Multi-Physics Fields Younis, Mohammad Ibrahim 09 July 2004 (has links) The first objective of this dissertation is to present hybrid numerical-analytical approaches and reduced-order models to simulate microelectromechanical systems (MEMS) in multi-physics fields. These include electric actuation (AC and DC), squeeze-film damping, thermoelastic damping, and structural forces. The second objective is to investigate MEMS phenomena, such as squeeze-film damping and dynamic pull-in, and use the latter to design a novel RF-MEMS switch. In the first part of the dissertation, we introduce a new approach to the modeling and simulation of flexible microstructures under the coupled effects of squeeze-film damping, electrostatic actuation, and mechanical forces. The new approach utilizes the compressible Reynolds equation coupled with the equation governing the plate deflection. The model accounts for the slip condition of the flow at very low pressures. Perturbation methods are used to derive an analytical expression for the pressure distribution in terms of the structural mode shapes. This expression is substituted into the plate equation, which is solved in turn using a finite-element method for the structural mode shapes, the pressure distributions, the natural frequencies, and the quality factors. We apply the new approach to a variety of rectangular and circular plates and present the final expressions for the pressure distributions and quality factors. We extend the approach to microplates actuated by large electrostatic forces. For this case, we present a low-order model, which reduces significantly the cost of simulation. The model utilizes the nonlinear Euler-Bernoulli beam equation, the von K´arm´an plate equations, and the compressible Reynolds equation. The second topic of the dissertation is thermoelastic damping. We present a model and analytical expressions for thermoelastic damping in microplates. We solve the heat equation for the thermal flux across the microplate, in terms of the structural mode shapes, and hence decouple the thermal equation from the plate equation. We utilize a perturbation method to derive an analytical expression for the quality factor of a microplate with general boundary conditions under electrostatic loading and residual stresses in terms of its structural mode shapes. We present results for microplates with various boundary conditions. In the final part of the dissertation, we present a dynamic analysis and simulation of MEMS resonators and novel RF MEMS switches employing resonant microbeams. We first study microbeams excited near their fundamental natural frequencies (primary-resonance excitation). We investigate the dynamic pull-in instability and formulate safety criteria for the design of MEMS sensors and RF filters. We also utilize this phenomenon to design a low-voltage RF MEMS switch actuated with a combined DC and AC loading. Then, we simulate the dynamics of microbeams excited near half their fundamental natural frequencies (superharmonic excitation) and twice their fundamental natural frequencies (subharmonic excitation). For the superharmonic case, we present results showing the effect of varying the DC bias, the damping, and the AC excitation amplitude on the frequency-response curves. For the subharmonic case, we show that if the magnitude of the AC forcing exceeds the threshold activating the subharmonic resonance, all frequency-response curves will reach pull-in. / Ph. D. Primary and Secondary Excitations Singular Perturbation Dynamic Pull-in Finite element method RF Switches Microbeams Microplates MEMS Electrostatic Actuation Thermoelastic Damping Squeeze-Film Damping Resonators
199	Förbättrat underhåll av fasta korsningar i spårväxlar / Improved Maintenance of Fixed Crossings in Railway S&C Laitila, Johan January 2019 (has links) Järnvägen har möjliggjort boende och arbete på olika orter, genom tågpendling, samt intresset för godstransporter på järnvägen ökar. För att upprätthålla en god status på järnvägen behövs mycket pengar, samtidigt som dess tillgänglighet påverkar många människor. Detta gör det än mer angeläget med en robust järnvägsanläggning, med hög tillgänglighet samt en god punktlighet för både person- och godståg. Ett bättre planerat underhåll möjliggör en längre användbar livstid för samtliga komponenter i järnvägsanläggningen. Som anläggningsdel förorsakar spårväxlar den högsta kostnaden i en banöverbyggnad, med korsningar som ett av de mest frekventa komponentbytena. Idag är den användbara livstiden på fasta mangankorsningar för låg, ca 100 MBrt, då den förväntas vara mellan 100–500 MBrt. Detta ligger till grund för arbetet där syftet är att undersöka hur det förbyggande underhållet av fasta korsningar i spårväxlar bättre kan planeras, utföras och följas upp för att förlänga dess användbara livstid. Vidare är målet med examensarbetet att genom en nulägesanalys, som innefattar dagens erfarenheter, förslag till förbättrade arbetsmetoder och morgondagens informationsinhämtning, fastställa vilken information som kommer att krävas för att på ett bättre sätt planera underhållet, samt att fastställa vilka underhållsåtgärder som är nödvändiga för det förebyggande underhållet av fasta korsningar i spårväxlar. Baserat på detta utformas en underhållsplan med tillhörande LCC för fasta korsningar i spårväxlar. Vidare ska samtliga underhållsåtgärder i underhållsplanen vara planeringsbara minst 3 månader i förväg, och det är önskvärt att underhållsplanen ska sträcka sig 36 månader framåt. Initialt utförs en nulägesanalys och arbetet fortsätter med förslag på förbättrade arbetsmetoder. Båda i avseende hur och när underhåll utförs på fasta mangankorsningar idag ute i anläggningen. Avslutningsvis presenteras en underhållsplan med intervall samt de resurser som krävs för de underhållsåtgärder som ska utföras. Dessa åtgärder är byte av korsning, inslipning, slipning, påsvets, spårriktning/stoppning, shimsning av moträl, byte av korkgummi samt ballastrening. Tillhörande till underhållsplanen utformas en kalkyl för livscykelkostnad, LCC, där arbete efter nuläge samt arbete efter underhållsplan jämförs. Resultatet från arbetet visar att samtliga entreprenörer anser att brist på tid i spår är en starkt bidragande faktor till att fasta korsningar byts. Detta tillsammans med att rätt förebyggande underhållsåtgärder som inslipning och förebyggande slipning för att upprätthålla profil, samt kontroll av spårläge och åtgärd vid behov inte görs. Vidare utför entreprenören ingen uppföljning av utförda underhållsåtgärder, utan beslut om underhållsåtgärder baseras till stor del på säkerhets- och underhållsbesiktningar. Detta medför att de arbetar mest avhjälpande, med åtgärd av besiktningsanmärkning. Dock för växelrevision och systematiskt växelunderhåll är erfarenhet, god lokalkännedom och god kännedom om anläggningen den avsevärt största informationskällan för entreprenören idag. Infrastrukturägaren utför även en viss leveransuppföljning, dock inte i tillräcklig utsträckning för att säkerställa att de får det som beställts. Registrering av samtliga förebyggande underhållsåtgärder bör förbättra och förenkla infrastrukturägarens uppföljning. Vidare för att möjliggöra en mer strategisk underhållsplanering behövs metoder för tillståndsbaserat underhåll tas fram, i syfte att få en bättre uppfattning om degradering av profilen för en fast mangankorsning. Till detta krävs automatiska maskinella mätningar, vilket gör mätningar reproducerbara och mätdata går att trenda. Slutligen den bristfälliga återrapporteringen av förebyggande underhållsåtgärder i kombination med entreprenörens hemlighållande av exakt underhållskostnad, resulterar i att underhållskostnaden för korsningar inte kan redovisas på en aggregerad och individuell nivå. / The railroad has made it possible for housing and work at various locations, by rail lanes, and the interest in rail freight transport is increasing. To maintain good status on the railroad, a lot of money is needed, while its availability affects many people. This makes it even more important with a robust railway facility, with high availability and good punctuality for both passenger and freight trains. Better planned maintenance enables longer useful life for all components of the railway facility. As part of the plant do railway S&C cause the highest cost in a track superstructure, with crossings as the most frequent component changes. Today, the useful life of fixed manganese crossings is too low, about 100 MBrt, since the expectancy is between 100 -500 MBrt. This is the basis for the work, where the purpose is to investigate how the preventive maintenance of fixed crossings in S&C can be better planned, performed and followed up to extend its useful life. Furthermore, the aim of the thesis work is to determine, through a current situation analysis, which includes current experiences, proposals for improved working methods and tomorrow's information gathering, which information will be required to better plan maintenance, and to determine which maintenance measures are necessary for the preventive maintenance of fixed crossings in S&C. Based on this, a maintenance plan with associated LCC is designed for fixed crossings in S&C. Furthermore, all maintenance measures in the maintenance plan must be planned at least 3 months in advance, and it is desirable that the maintenance plan should extend 36 months ahead. Initially, a zero-position analysis is performed, and work continues with suggestions for improved working methods. Both in terms of how and when maintenance is carried out on fixed crossings today outside in the railway facility. Finally, a maintenance plan is presented with intervals and the resources required for the maintenance actions to be performed. These actions include change of crossing, grinding in, grinding, welding, track direction/padding, shimming guardrail, changing of corkrubber and ballast cleaning. Compliance with the maintenance plan is a life cycle cost calculation, LCC, comparing work according to zero-position and work according to maintenance plan. The results from the work show that all entrepreneurs believe that lack of time in the track is a strong contributing factor to changing fixed crossings. This, along with proper preventive maintenance measures such as grinding in and preventive grinding to maintain profile, as well as verify track position and action when needed are not done. In addition, the contractor does not perform any follow-up on performed maintenance work, maintenance decisions are based largely on safety and maintenance inspections. This means that they work most correctively, with the action of inspection note. However, for exchange audit and systematic gear maintenance, experience, good local knowledge and good knowledge of the plant is the most important source of information for the entrepreneur today. The infrastructure owner also performs a certain delivery follow-up, but not sufficiently to ensure that they get what is ordered. Registration of all preventive maintenance measures should improve and simplify the infrastructure owner's follow-up. In addition, to enable more strategic maintenance planning, condition-based maintenance methods are required, with a view to gaining a better perception of degradation of the profile of a fixed manganese crossing. In addition, automatic machine measurements are required, which makes measurements reproducible and measurement data can be trend. Finally, the inadequate reporting of preventive maintenance measures in combination with the contractor's secrecy of exact maintenance costs, results in the maintenance cost for crossings not being reported at an aggregated and individual level. Crossing Maintenance plan Switches and crossings Predetermined maintenance Strategic maintenance planning Korsning Underhållsplan Spårväxel Förutbestämt underhåll Strategisk underhållsplanering Reliability and Maintenance Tillförlitlighets- och kvalitetsteknik
200	Photonic Integrated Circuits Utilizing Nano-Electromechanical Systems on Silicon-on-Insulator Platform for Software Defined Networking in Elastic Optical Networks: New Insights Into Phased Array Systems, Tunable WDM, and Cascaded FIR and IIR Architectures Hussein, Ali Abdulsattar 09 September 2019 (has links) Optical communications systems operate at the limits of their margins to respond to increasing capacity demands. Some of the signal processing functions required must soon operate at speeds beyond electronic implementation. Optical signal processors are fundamentally analog which requires precise control of the operating state. Programmable optical components are consequently essential. The thesis explores and elucidates the properties of meshes of generalized Mach-Zehnder interferometers (GMZIs) amenable to silicon (Si) photonics integration that are based on multimode interference couplers with programmability achieved via voltage controlled phase-shift elements within the interferometer arms to perform a variety of finite impulse response (FIR) and infinite impulse response (IIR) signal processing functions. The thesis presents a novel class of integrated photonic phased array systems with a single-stage, multistage, and feedback architectures. The designed photonic integrated systems utilize nano-electromechanical-system (NEMS) operated phase shifters of cascaded free suspended slot waveguides that are compact and require a small amount of power to operate. The structure of the integrated photonic phased array switch (IPPAS) elements is organized such that it brings the NEMS-operated phase shifters to the exterior sides of the construction; facilitating electrical connection. The transition slot couplers used to interconnect the phase shifters to the rest of the silicon structure are designed to enable biasing one of the silicon beams of each phase shifter from an electrode located at the side of the phase shifter. The other silicon beam of each phase shifter is biased through the rest of the silicon structure of the fabric, which is taken as a ground. Phased array processors of 2×2 and 4×4 multiple-input-multiple-output (MIMO) ports are conveniently designed within reasonable footprints native to the current fabrication technologies. The response of the single-stage 4×4 broadband IPPAS element is determined, and its phase synthesis states required for single-throw, double-throw and broadcast routing operations are predicted. The transmission responses of the single-stage wavelength division multiplexing (WDM) processors of 2×2 and 4×4 MIMO ports are simulated. The wavelength steering capability of the transmission interferograms by applying progressive phase shifts through the array of NEMS-operated phase shift elements of the single-stage 4×4 WDM (de)multiplexer is demonstrated. The advantages of cascading broadband and WDM phased array sections are articulated through several study cases. Five different cascaded phased array architectures are trialed for the construction of non-blocking 4×4 IPPAS broadband switches that are essential elements in the construction of universal photonic processors. A cascaded 2×2 WDM (de)multiplexer that can set the bandwidth of the (de)multiplexed cyclic channels into a binary number of programmable values is demonstrated. The envelope and wavelength modulations of the transmission responses utilizing a cascaded forward structure of three 2×2 sections that can be utilized for the (de)multiplexing of different bandwidth channels are demonstrated providing individual wavelength steering capability of the narrowband and wideband channels and the individual wavelength steering capability of the slow envelope and wavelength modulating functions. Innovative universal 2×2 and 4×4 cascaded phased array processors of advanced high-order architectures that can function as both non-blocking broadband routers and tunable WDM (de)multiplexers with spectrum steering and bandwidth control of the (de)multiplexed demands are introduced. The multimode interference (MMI) coupler is utilized for the construction of several IIR feedback photonic processors. Tunable photonic feedback processors have the advantage of using less number of MMI couplers compared to their counterparts of FIR forward-path processors saving on the footprint and loss merits. A passive feedback 2×2 (de)multiplexer made of a 4×4 MMI coupler and two loopback paths is proposed. The inclusion of an imbalance in the lengths of the loopback paths of the same symmetrical feedback (de)multiplexer is demonstrated to achieve wavelength modulation of the (de)multiplexed transmission responses that are useful for the (de)multiplexing of different bandwidth channels. Several newly introduced IIR feedback architectures are demonstrated to function similarly as their counterparts of FIR forward-path processors as binary bandwidth variable (de)multiplexers, envelope and wavelength modulation (de)multiplexers, and universal feedback processors. The investigation provided in this thesis is also supported with dynamic zero-pole evolution analysis in the complex plane of analysis of the studied FIR and IIR photonic processors to enhance understanding the principle of operation. This research expands the prospective for constructing innovative silicon-on-insulator (SOI) based optical processors for applications in modern optical communication systems and programmable elastic optical networks (EONs). Photonics SOI Nano-electromechanical NEMS-operated phase shifters Elastic optical networks Photonic integrated circuits Tunable optical processors Universal photonic processors Wavelength division multiplexing Tunable WDM Binary bandwidth control of WDM Optical spectrum steering Optical switches WDM (de)multiplexers Wavelength selective routing Optical switches and routers

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