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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
11

Fault-Tolerant Deadlock-Free Custom NoC Topology Synthesis for Three-Dimensional Integrated Circuits

Zheng, Yi-Xue 01 August 2011 (has links)
This thesis proposes a synthesis methodology which is capable of fault-tolerance and deadlock-free for constructing a custom NoC topology in 3D ICs. In this thesis, the processors and their communications can be synthesized simultaneously in the system-level floorplanning with fault tolerant consideration, called 3D-NoC-FT. Experimental results show that the pro-posed 3D-NoC-FT produces custom 3D NoCs with lower power dissipation than previous works. This method is also more scalable, which makes it ideal for complicated 3D NoC de-signs. Compared with the previous 3D NoC work (3D-SAL-FP) without link fault tolerance, our fault tolerant method outperforms on the average the power dissipation by 1.67X with rela-tively small overhead of latency by 17% and the number of TSV by 35%, respectively.
12

Vertically-Integrated CMOS Technology for Third-Generation Image Sensors

Skorka, Orit Unknown Date
No description available.
13

Senyvo amžiaus žmonių stacionarios globos paslaugų ekonominis ir socialinis efektyvumas / Economic efficiency and effectiveness of the Institutional care services for the elderly people

Bikmanienė, Raimonda 24 May 2005 (has links)
In the context of integration of the Lithuanian social service sector into the international social security system of the European Union where relations of market economy are getting more and more stronger, it is important to substantiate the trends and priorities for efficient development of the mentioned services. In order to ensure rendering of one of the types of the mentioned services – institutional care services – for elderly population not only by the objective structure and scope, but also to ensure sufficient funding thereof, it is necessary to identify the priorities and principles of efficient rendering of the mentioned services. Researches carried out in the European Union show that most of the goals of effectiveness of institutional care services (further – “the ICS”) for the elderly are short-term, driven to technical efficiency, where efforts are taken to render maximal quantity of services (of the definite quality) for the minimal ICS costs. However, the increasing need for these services in a result of new changes in the structure and values of the society is not adequate to public resources and does not ensure satisfaction of the ICS need either. As we can see from EU and Lithuanian experience, the old model of rendering of the mentioned services, which is based on the unified conception of the customers, is not a long-term model, as it does not meet the objectives of economic and social efficiency. Researches covered by this thesis demonstrate that... [to full text]
14

Software Architecture and Framework for Programmable Automation Controller: A Systematic Literature Review and A Case Study

Chen, Hao, Xu, Luyang January 2018 (has links)
Background. PAC controller is a strengthened version of PLC controller. Its function is very similar, but its essence and construction are different. PLC and PAC have many successful applications in the field of industrial automation control. There is a lot of literature about the software architecture of PLC control system. However, there is almost no relevant literature on software architecture based on PAC control system. A well-performing and stable automatic control system is indispensable to the design and development of suitable software architecture. The quality and pattern of software architecture can even affect the stability and efficiency of the control system. Objectives. Based on these problems, we defined two primary objectives. The first is to investigate the architecture of some existing large industrial control systems, to analyze and summarize the scenarios and advantages and disadvantages of these architectural patterns. The second, based on the results of effort for the first objective, we want to propose and design a set of automated control solution architecture model based on PAC control system, which is implemented and applied in a printing house. In the process, we sum up the challenges and obstacles encountered in implementing the solution and provide some guidance or reference for those involved in the field. Methods. For the first objective, we used a systematic literature review to collect data about existing ICS architecture. Concerning the second objective, a case study was conducted in a printing house in Karlskrona Sweden, in the study, we proposed a software architecture model suitable for PAC automation control system. Then, we developed and tested the automation control system and summarized some challenges and obstacles in the process of the implementation. Results. The existing ICS (Industrial Control System) architecture models and critical problems and challenges in the implementation of ICS are identified. From the existing literature, we have summarized five commonly used large industrial control system architecture models, which are mainly using composite structures, that is, a combination of multiple architecture patterns. Also, some critical problems in the industrial control system, such as information security, production reliability, etc. are also identified. In the case study, we put forward an automatic control solution for Printing House based on SLR results. We designed the hardware deployment architecture of the system and the software control architecture. Generally speaking, this architecture is based on C/S architecture. In the development of client, we adopt the popular MVC architecture mode. In the longitudinal view of the whole system, an extended hierarchical architecture model is adopted. In the core control system, we adopt the modular architecture design idea. The whole control system is composed of 6 parts, four subsystems of PAC terminal, one server-side program and one client program. After a long time, development and test, our system finally goes online for the production, and its production efficiency is improved compared with the old system. Its expansion functions, such as Production Report and Tag Print, are deeply satisfying for the customers. Conclusions. In this research, we summarize and compare the advantages and disadvantages of several commonly used industrial control systems. Besides, we proposed a software architecture model and developed an automation control system based on PAC. We fill the gap that there is a lack of studies about the software architecture about the implementation of the automation control system based on PAC. Our result can help software engineers and developers in ICS fields to develop their own PAC based automation control system.
15

Návrh infrastruktury ICS pro průmyslový podnik / Design of ICS Infrastructure for Industrial Compan

Sidor, Peter January 2017 (has links)
This thesis deals with the issues of industrial communication, that is necessary to take account before making a final draft of industrial infrastructure and the overall design of a network infrastructure for a particular object. The first part of this thesis describes ICS system, parts of ICS and principle of operation. The thesis also focuses on the current trends in industrial networks, systems communication, security requirements of physical layer and the main differences from commercial infrastructures. The second part of the thesis describes the design of infrastructure for the foundry object. The final draft resolves the location of the switchboards, the specification of the used elements, the security, the cost of the solution and the final solution in practice.
16

A Novel Approach to Determining Real-Time Risk Probabilities in Critical Infrastructure Industrial Control Systems

Elrod, Michael 01 January 2017 (has links)
Critical Infrastructure Industrial Control Systems are substantially different from their more common and ubiquitous information technology system counterparts. Industrial control systems, such as distributed control systems and supervisory control and data acquisition systems that are used for controlling the power grid, were not originally designed with security in mind. Geographically dispersed distribution, an unfortunate reliance on legacy systems and stringent availability requirements raise significant cybersecurity concerns regarding electric reliability while constricting the feasibility of many security controls. Recent North American Electric Reliability Corporation Critical Infrastructure Protection standards heavily emphasize cybersecurity concerns and specifically require entities to categorize and identify their Bulk Electric System cyber systems; and, have periodic vulnerability assessments performed on those systems. These concerns have produced an increase in the need for more Critical Infrastructure Industrial Control Systems specific cybersecurity research. Industry stakeholders have embraced the development of a large-scale test environment through the Department of Energy’s National Supervisory Control and Data Acquisition Test-bed program; however, few individuals have access to this program. This research developed a physical industrial control system test-bed on a smaller-scale that provided an environment for modeling a simulated critical infrastructure sector performing a set of automated processes for the purpose of exploring solutions and studying concepts related to compromising control systems by way of process-tampering through code exploitation, as well as, the ability to passively and subsequently identify any risks resulting from such an event. Relative to the specific step being performed within a production cycle, at a moment in time when sensory data samples were captured and analyzed, it was possible to determine the probability of a real-time risk to a mock Critical Infrastructure Industrial Control System by comparing the sample values to those derived from a previously established baseline. This research achieved such a goal by implementing a passive, spatial and task-based segregated sensor network, running in parallel to the active control system process for monitoring and detecting risk, and effectively identified a real-time risk probability within a Critical Infrastructure Industrial Control System Test-bed. The practicality of this research ranges from determining on-demand real-time risk probabilities during an automated process, to employing baseline monitoring techniques for discovering systems, or components thereof, exploited along the supply chain.
17

Design methodologies for heterogeneous 3-D integrated systems

Papistas, Ioannis January 2018 (has links)
Design techniques for heterogeneous three-dimensional (3-D) integrated circuits are developed in this thesis. Heterogeneous 3-D integration is a platform for multifunctional, high performance, and low power electronics. For the advancement of heterogeneous 3-D ICs, contactless solutions are investigated to implement inter-tier communication between tiers manufactured with disparate processes and heterogeneous technologies. Two challenges for the development of contactless inter-tier communication are addressed, the design of energy efficient, heterogeneous inductive link transceivers and the impact of crosstalk noise due to the on-chip spiral inductors. Inter-tier communication between circuits fabricated with disparate technologies requires transceivers capable of operating at dissimilar voltages. A low power transceiver design methodology is proposed exploiting the difference in the core voltage between disparate manufacturing processes in a 3-D system in package. A transceiver is designed to provide inter-tier communication between a sensing layer, designed in a commercial 0.35 Âμm process and a processing layer, designed in an advanced 65 nm process. A significant gain in the power consumed by the transceiver is shown compared to equivalent state-of-the-art prototypes, profiting by the tradeoff between the core voltage and sensing ability of the transceiver circuit in each process. Due to their wireless nature, however the use of inductive links introduces crosstalk noise due to the coupling between the on-chip inductor and on-chip interconnects in the vicinity of the inductor. The noise caused by the inductor on the power distribution network of an integrated system is explored, analysed, and modelled through electromagnetic simulations. The spatial distribution of the noise is described for several power distribution topologies to determine the preferred placement solution for the power and ground network in the vicinity of the inductor, considering the impact on other sources of noise, such as the resistive drop. Depending upon the power distribution network topology, the induced noise can be reduced up to 70% when the additional noise caused by the inductive link is considered by the routing algorithm. Additionally, a methodology utilising an analytic model is proposed for the evaluation of the crosstalk noise without resorting to electromagnetic simulations. A closed-form magnetostatic model is developed to assess the mutual inductance between the on-chip inductor and the power distribution network. Utilising the mutual inductance model, the crosstalk noise is evaluated with SPICE simulations. A signifcant benefit in speedup is achieved, up to four orders of magnitude for determining the mutual inductance and up to 4.7× for the assessment of the crosstalk noise. The accuracy of the model is within 10% of the electromagnetic simulation.
18

Advanced Fluorescence Correlation Techniques to Study Membrane Dynamics / Neuartige Fluoreszenz-Korrelations-Techniken zur Untersuchung von Membrandynamik

Ries, Jonas 27 August 2008 (has links) (PDF)
Fluorescence Correlation Spectroscopy (FCS) is a powerful tool to measure important physical quantities such as concentrations, diffusion coefficients, diffusion modes or binding parameters, both in solution and in membranes. However, it can suffer from severe artifacts, especially in non-ideal systems. Here we develop several novel implementations of FCS which overcome these limitations and facilitate accurate and quantitative determination of dynamic parameters in membranes. Two-focus FCS with camera-detection allows for accurate and calibration-free determination of diffusion coefficients. Confocal FCS using a laser scanning microscope provides an unprecedented positioning accuracy which enabled us to study, for the first time with FCS, dynamics in bacterial membranes. Scanning FCS with a scan path perpendicular to the membrane plane allows to correct for instabilities permitting long measurement times necessary to study slow diffusion. It can easily be extended to measure calibration-free diffusion coefficients with two-focus scanning FCS and to quantify binding with dual color scanning FCS. Spectral crosstalk can be avoided effectively by using alternating excitation. Using this method we were able to perform measurements in systems previously not accessible with FCS, such as yeast cell membranes or membranes of living zebrafish embryos. Line-scan FCS with a scan path in the membrane plane uses the parallel acquisition along the line to increase the statistical accuracy and decrease the measurement times. Knowledge of the scan speed serves as an internal calibration, enabling accurate diffusion and concentration measurements within seconds, hardly affected by photobleaching. Both realizations of scanning FCS can be easily implemented with commercial laser scanning microscopes. Often, a fluorescence background around the membrane cannot be avoided. The high surface selectivity needed in this case can be achieved efficiently by using a novel objective for FCS, the supercritical angle objective, which produces a very flat and laterally confined detection volume. Another technique with similar surface selectivity is FCS with total internal reflection excitation (TIRFCS). Due to the lack of a correct model, the accurate analysis of TIR-FCS data was previously not possible. In this work we develop such a model, enabling quantitative measurements of membrane dynamics with TIR-FCS. The novel FCS techniques developed here will have a high impact on the use of FCS to address key questions in biological systems, previously inaccessible by other methods. / Fluoreszenz-Korrelations-Spektroskopie (FCS) ist eine mächtige Methode, um wichtige physikalische Parameter wie Konzentrationen, Diffusionskoeffizienten, Diffusionsarten oder Bindungsparameter in Lösung und in Modell- oder Zellmembranen zu bestimmen. In nichtidealen Systemen ist FCS fehleranfällig. In dieser Arbeit entwickeln wir mehrere neuartige Realisierungen von FCS, welche diese Fehlerquellen umgehen und die genaue und quantitative Messung dynamischer Parameter in Membranen ermöglichen. Zwei-Fokus FCS mit Kamera-Detektion erlaubt eine genaue und kalibrationsfreie Messung von Diffusionskoeffizienten. Konfokale FCS mit einem Laserscanningmikroskop besitzt eine bislang unerreichte Positionsgenauigkeit, welche uns erstmals dynamische Messungen in Bakterienmembranen mit FCS ermöglichte. Scanning FCS mit einem Scanweg senkrecht zur Membran ermöglicht eine Korrektur von Instabilitäten und damit lange Messzeiten, die zur Bestimmung langsamer Diffusionskoeffizienten notwendig sind. Eine Erweiterung zur kalibrationsfreien Messung von Diffusionskoeffizienten mit Zwei-Fokus Scanning FCS und von Bindungsparametern mit Zwei-Farben Scanning FCS ist einfach. Mit diesen Methoden konnten wir in Systemen messen, die bislang FCS nicht zugänglich waren, so in Hefezellmembranen oder in Membranen lebender Zebrafischembryonen. Line-scan FCS besitzt einen Scanweg parallel zur Membran. Die parallele Messung entlang der ganzen Linie führt zu einer deutlichen Verbesserung der Statistik und damit zu kurzen Messzeiten. Die Kenntnis der Scangeschwindigkeit dient einer internen Kalibration und erlaubt eine akkurate Bestimmung von Diffusionskoeffizienten und Konzentrationen innerhalb weniger Sekunden, kaum beeinflusst vom Bleichen von Fluorophoren. Beide Arten von Scanning FCS können mit einem kommerziellen Laserscanningmikroskop realisiert werden. Häufig kann bei FCS Messungen ein fluoreszierender Hintergrund nicht vermieden werden. Hier ist eine hohe Oberflächenselektivitiät nötig, welche effizient mit einem neuartigen Objektiv erreicht werden kann. Dieses Supercritical Angle-Objektiv erzeugt ein sehr flaches und lateral begrenztes Detektionsvolumen. Eine weitere Methode mit einer ähnlich guten Oberflächenselektivität ist FCS mit Anregung über totale interne Reflektion (TIR-FCS). Bislang war eine quantitative Analyse der TIR-FCS Daten kaum möglich, da keine ausreichend genaue theoretische Beschreibung existierte. In dieser Arbeit entwickeln wir ein akkurates Modell, welches quantitative Messungen mit TIR-FCS erlaubt. Die hier entwickelten neuartgien FCS-Techniken ermöglichen die Untersuchung biologischer Fragestellungen, welche bislang keiner anderen Methode zugänglich sind.
19

Návrh Evropské komise ve věci reformy mechanismu řešení investičních sporů: komparativní analýza / European Commission's Reform Proposal Concerning The Investment Dispute Settlement Mechanism: Comparative Analysis

Munzar, Tomáš January 2016 (has links)
European Commission's Reform Proposal Concerning The Investment Dispute Settlement Mechanism: Comparative Analysis In November 2015, during negotiations with the USA about the investment chapter of TTIP, the European Commission presented US delegates with a text which significantly differs from the traditional model of ISDS. Commission's reform proposal is a reaction to the current criticism directed towards the legitimacy of investment arbitration and to the demands for its thorough reform or even removal from the TTIP draft text. The Commission introduced the proposal after the public consultation opened in connection with the criticism of ISDS attracted significant public interest. This thesis aims to analyze the Commission's proposal and determine whether the Commission has introduced a sound proposal which would be capable of replacing the traditional concept of ISDS. The thesis further examines whether there are smaller or larger differences between the Commission's proposal and traditional ISDS and whether the Commission could have taken a different approach to some issues. After the first chapter dedicated to the criticism of investment arbitration and the results of the public consultation, the thesis analyses the Commission's proposal. Most attention is given to its procedural aspects,...
20

Advanced Fluorescence Correlation Techniques to Study Membrane Dynamics

Ries, Jonas 14 August 2008 (has links)
Fluorescence Correlation Spectroscopy (FCS) is a powerful tool to measure important physical quantities such as concentrations, diffusion coefficients, diffusion modes or binding parameters, both in solution and in membranes. However, it can suffer from severe artifacts, especially in non-ideal systems. Here we develop several novel implementations of FCS which overcome these limitations and facilitate accurate and quantitative determination of dynamic parameters in membranes. Two-focus FCS with camera-detection allows for accurate and calibration-free determination of diffusion coefficients. Confocal FCS using a laser scanning microscope provides an unprecedented positioning accuracy which enabled us to study, for the first time with FCS, dynamics in bacterial membranes. Scanning FCS with a scan path perpendicular to the membrane plane allows to correct for instabilities permitting long measurement times necessary to study slow diffusion. It can easily be extended to measure calibration-free diffusion coefficients with two-focus scanning FCS and to quantify binding with dual color scanning FCS. Spectral crosstalk can be avoided effectively by using alternating excitation. Using this method we were able to perform measurements in systems previously not accessible with FCS, such as yeast cell membranes or membranes of living zebrafish embryos. Line-scan FCS with a scan path in the membrane plane uses the parallel acquisition along the line to increase the statistical accuracy and decrease the measurement times. Knowledge of the scan speed serves as an internal calibration, enabling accurate diffusion and concentration measurements within seconds, hardly affected by photobleaching. Both realizations of scanning FCS can be easily implemented with commercial laser scanning microscopes. Often, a fluorescence background around the membrane cannot be avoided. The high surface selectivity needed in this case can be achieved efficiently by using a novel objective for FCS, the supercritical angle objective, which produces a very flat and laterally confined detection volume. Another technique with similar surface selectivity is FCS with total internal reflection excitation (TIRFCS). Due to the lack of a correct model, the accurate analysis of TIR-FCS data was previously not possible. In this work we develop such a model, enabling quantitative measurements of membrane dynamics with TIR-FCS. The novel FCS techniques developed here will have a high impact on the use of FCS to address key questions in biological systems, previously inaccessible by other methods. / Fluoreszenz-Korrelations-Spektroskopie (FCS) ist eine mächtige Methode, um wichtige physikalische Parameter wie Konzentrationen, Diffusionskoeffizienten, Diffusionsarten oder Bindungsparameter in Lösung und in Modell- oder Zellmembranen zu bestimmen. In nichtidealen Systemen ist FCS fehleranfällig. In dieser Arbeit entwickeln wir mehrere neuartige Realisierungen von FCS, welche diese Fehlerquellen umgehen und die genaue und quantitative Messung dynamischer Parameter in Membranen ermöglichen. Zwei-Fokus FCS mit Kamera-Detektion erlaubt eine genaue und kalibrationsfreie Messung von Diffusionskoeffizienten. Konfokale FCS mit einem Laserscanningmikroskop besitzt eine bislang unerreichte Positionsgenauigkeit, welche uns erstmals dynamische Messungen in Bakterienmembranen mit FCS ermöglichte. Scanning FCS mit einem Scanweg senkrecht zur Membran ermöglicht eine Korrektur von Instabilitäten und damit lange Messzeiten, die zur Bestimmung langsamer Diffusionskoeffizienten notwendig sind. Eine Erweiterung zur kalibrationsfreien Messung von Diffusionskoeffizienten mit Zwei-Fokus Scanning FCS und von Bindungsparametern mit Zwei-Farben Scanning FCS ist einfach. Mit diesen Methoden konnten wir in Systemen messen, die bislang FCS nicht zugänglich waren, so in Hefezellmembranen oder in Membranen lebender Zebrafischembryonen. Line-scan FCS besitzt einen Scanweg parallel zur Membran. Die parallele Messung entlang der ganzen Linie führt zu einer deutlichen Verbesserung der Statistik und damit zu kurzen Messzeiten. Die Kenntnis der Scangeschwindigkeit dient einer internen Kalibration und erlaubt eine akkurate Bestimmung von Diffusionskoeffizienten und Konzentrationen innerhalb weniger Sekunden, kaum beeinflusst vom Bleichen von Fluorophoren. Beide Arten von Scanning FCS können mit einem kommerziellen Laserscanningmikroskop realisiert werden. Häufig kann bei FCS Messungen ein fluoreszierender Hintergrund nicht vermieden werden. Hier ist eine hohe Oberflächenselektivitiät nötig, welche effizient mit einem neuartigen Objektiv erreicht werden kann. Dieses Supercritical Angle-Objektiv erzeugt ein sehr flaches und lateral begrenztes Detektionsvolumen. Eine weitere Methode mit einer ähnlich guten Oberflächenselektivität ist FCS mit Anregung über totale interne Reflektion (TIR-FCS). Bislang war eine quantitative Analyse der TIR-FCS Daten kaum möglich, da keine ausreichend genaue theoretische Beschreibung existierte. In dieser Arbeit entwickeln wir ein akkurates Modell, welches quantitative Messungen mit TIR-FCS erlaubt. Die hier entwickelten neuartgien FCS-Techniken ermöglichen die Untersuchung biologischer Fragestellungen, welche bislang keiner anderen Methode zugänglich sind.

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