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41	Modelling and data analysis for fundus reflectometry and dark adaptation Bensaid, Nicolas January 2015 (has links) Retinal diseases such as age-related macular degeneration (AMD) are the major cause of blindness in the developed world. Early diagnosis of these diseases is difficult as symptoms appear only at advanced stages. Nevertheless, several studies suggest that impairment of dark adaptation (the ability of the retina to adapt to low lighting) is a cue to AMD. Dark adaptation is the result of the regeneration of light sensitive pigments after having reacted to light (bleaching). This PhD aims at developing a tool for objective measurements of the quantity of photopigment and the kinetics of dark adaptation. This work comprises a thorough review of the absorbing and reflecting properties of the different ocular structures, giving rise to a new model of retinal (or fundus) reflectance. This model provides a detailed description of the different pathways of light through the photoreceptor layer and was able to explain measurements and findings of the literature, in particular the effect of the photoreceptor matrix interstices. An extensive study of the influence of the different model parameters on the total fundus reflectance led to the proposal of a new objective and comparable measure of quantity of photopigment (QoP). This measure is obtained by fitting a constrained version of the new model to a double density difference (DDD) measurement (i.e. the logarithmic difference between reflectances of a retinal area in bleached and dark adapted states). This approach was validated by correctly fitting several DDD measurements from the literature. Future experimental studies are needed to confirm the relevance of the new QoP measure and specify its application in clinical diagnosis. Several fundus reflectometry instruments have been able to measure the DDD in human eyes however because of practical and technological limitations none of these instruments were suitable for clinical use. Here, these limitations are discussed and two new imaging fundus reflectometers are presented. Developed respectively by 4D Optics Ltd. and the Vision Research group at the University of Manchester, these two systems, based on modified fundus cameras, are ongoing development work towards clinically suitable imaging fundus reflectometry. Example data obtained with these two instruments exhibits aberrant points and low signal to noise ratio (SNR). The main issues encountered were camera noise and stability, uneven retinal illumination, and subject’s eye movements and changes of alignment. It is believed that these issues can be overcome with current technologies. One important impediment to the use of the dark adaptation experiment in clinical practice is the time it takes for photopigments to completely regenerate (up to 40 min in normal eyes). A theoretical data analysis strategy using the new model of fundus reflectance and the Marhoo, Lamb and Pugh model of photopigment regeneration kinetics is proposed to rapidly diagnose an abnormal regeneration, hence reducing considerably the duration of the experiment. This idea has not been tested on experimental data but may become relevant once better quality measurements of DDD are obtained. 617.7
42	Effect of clay type and clay content on moisture content and bulk soil electrical conductivity as measured using time domain reflectometry Liaghat, Abdolmajid January 1993 (has links) No description available. Time-domain reflectometry. Soil moisture. Clay. Soils -- Electric properties.
43	Use of time domain reflectometry to monitor water content and electrical conductivity of saline soil Entus, Jonathan January 2000 (has links) No description available. Soils, Salts in -- Measurement. Soil moisture -- Measurement. Time-domain reflectometry.
44	The use of time domain reflectometry (TDR) to determine and monitor non-aqueous phase liquids (NAPLS) in soils Quafisheh, Nabil M. January 1997 (has links) No description available. Engineering, Civil Time Domain Reflectometry Non-Aqueous Phase Liquids
45	A comparative study of inclinometers and time domain reflectometry for slope movement analysis Sargent, Lisa M. January 2004 (has links) No description available. Engineering, Civil Inclinometers Time Domain Reflectometry Slope Movement Analysis
46	Development of a Biomembrane Sensor Based on Reflectometry Stephan, Milena 10 June 2013 (has links) Membranproteine spielen eine wichtige Rolle in vielen biochemischen Prozessen der Zelle, wie zum Beispiel der Signaltransduktion, der Zelladhesion oder auch der Erkennung von Krankheitserregern. Viele dieser Proteine sind von Bedeutung für die Entwicklung neuer innovativer Medikamente. Somit hat auch die Entwicklung von Sensoren, die die Untersuchung von Membranproteinen in ihrer natürlichen Umgebung erlauben an Bedeutung gewonnen [1]. Thema dieser Doktorarbeit war die Entwicklung von Analysekonzepten die es ermöglichen unterschiedliche Aspekte von Membraninteraktionen zu untersuchen und zu quantifizieren. Als Analysemethode wurde dafür reflektometrische Interferenz Spektroskopie (RIfS) eine markierungsfreie, optische Methode verwendet. RIfS erlaubt es die Höhe dünner transparenter Filme zu bestimmen, indem das Weißlicht-Reflexionspektrum eines solchen Films aufgezeichnet wird. Durch die Überlagerung der in dem Film mehrfach reflektierten Teilstrahlen entsteht ein Interferenzmuster im Reflexionsspektrum, welches Aufschluß gibt über die Schichtdicke und den Brechungsindex des transparenten Films. Es wurde bereits gezeigt, dass RIfS eine geeignete Methode zur Untersuchung von Protein-ProteinWechselwirkungen ist [2]. Aus diesem Grund wurde RIfS als Detektionsverfahren für die Entwicklung eines Membransensors gewählt. Im Laufe dieser Arbeit entstanden zwei Aufbauten für reflektometrische Messungen. Ein Standard RIfS Aufbau und ein Instrument das die Methode mit Fluoreszenz-Mikroskopie kombiniert. Um dieWechselwirkung von Proteinen selbst und Proteinen mit Membranbestandteilen wie Lipiden zu untersuchen, wurde ein Konzept basierend auf festkörperunterstützten Membranen entwickelt. Dieses Experiment erlaubt es die Wechselwirkungen auf artifiziellen Membranen, sowie auf rekonstituierten Zellmembranen zu untersuchen. Zudem wurde ein Analysekonzept mit Nano-BLMs entwickelt, dass es erlaubt den simultanen Transport von Molekülen in ein membranverschlossenes Kompartiment hinein als auch heraus zu beobachten. Neben diesen membranbasierten Experimenten wurde auch ein Konzept entwickelt, welches es erlaubt die molekulare Erkennungsreaktion von sehr kleiner Analyten direkt zu messen. Dieses Messkonzept erlaubt es die Bindung von Molekülen mit sehr kleinem Molekulargewicht an einen auf dem Sensor immobilisierten Partner direkt zu quantifizieren. 540 Chemie (PPN62138352X)
47	Monitoring Slope Stability Problems Utilizing Electrical and Optical TDR Momand, Farid A. January 2010 (has links) No description available. Civil Engineering Time Domain Reflectometry (TDR) Electrical TDR Optical Time Domain Reflectometry (OTDR) Fiber Optic TDR Monitoring Highway Embankments
48	Ultrasonic-time-domain-reflectometry as a real time non-destructive visualisation technique of concentration polarisation and fouling on reverse osmosis membranes Koen, Louis Johannes 12 1900 (has links) Thesis (MIng)--University of Stellenbosch, 2000. / ENGLISH ABSTRACT: Fouling is readily acknowledged as one of the most critical problems limiting the wider application of membranes in liquid separation processes. A better understanding of fouling layer formation and its monitoring is needed in order to improve on existing cleaning techniques. Plant operation can be optimised if fouling can be monitored by noninvasion means either on the plant itself or on an attached monitoring device. The overall scope of this research was to develop a non-destructive, real-time, in situ visualisation technique or device for concentration polarisation and fouling layer monitoring. Ultrasonic-time-domain-reflectometry (UTDR) was employed as a visualisation technique to provide real-time characterisation of the fouling layer. A 24 cm-long rectangular flat sheet aluminium cell was designed and used as separation device for a desalination system. The experimental results obtained using this module confirmed that there are an excellent correspondence between the flux decline behaviour and the UTDR response from the membrane. The ultrasonic technique could effectively detect fouling layer initiation and growth on the membrane in real-time. In addition to the measurement of fouling, the ultrasonic technique was also successfully employed for monitoring membrane cleaning. Since no real-time permeation data is available during cleaning operations in industrial applications, a UTDR monitoring device may prove to be a very valuable technique in optimising cleaning strategies. The technique was further tested on an 8-inch diameter spiral wrap industrial module and good results were obtained. Stagnant zones, as well as flux flow behaviour inside the module could be determined. However, more research IS needed to fully understand the complex phenomena inside a spiral wrap module. Overall, the UTDR technique and its use in monitoring devices have a major impact in the membrane industry due to its extremely powerful capabilities. / AFRIKAANSE OPSOMMING: Membraan-bevuiling of -verstopping is die grootste struikelblok wat die algemene aanwending van membrane vir verskillende watersuiweringsprosesse negatief beinvloed. 'n Beter begrip van membraan-bevuiling, asook beter metingsmetodes daarvan is nodig om op bestaande skoonmaaktegnieke te verbeter. Die hoofdoel van hierdie studie was die ontwikkeling van 'n nie-destruktiewe-in-lyn visuele tegniek vir die meting van konsentrasie polarisasie en membraan-bevuiling. Deur gebruik te maak van ultrasoniese klank golwe, is 'n tegniek ontwikkel wat 'n direkte visuele aanduiding kon gee van die toestand van membraan-bevuiling binnein die module. 'n Reghoekige aluminium-module, 24 cm lank, is ontwerp en gebou waarbinne die membraan geplaas is vir die skeidingsproses. Resultate dui daarop dat daar 'n uitstekende verband bestaan tussen die afname in permeaatvloei en die ultrasoniese eggo vanaf die membraan. Die ultrasoniese tegniek kon die vorming van en toename in membraan-bevuiling doeltreffend karakteriseer. In teenstelling hiermee, is die tegniek ook suksesvol aangewend om die skoonmaak-proses van membrane te ondersoek. Met min of geen data beskikbaar vir die skoonmaak-proses van membrane in die industriële sektor, het die tegniek enorme potensiaal in die optimisering van bestaande skoonmaak-tegnieke. Die tegniek is verder aangewend op 'n industriële 8-duim deursnee spiraal-module en goeie resultate is verkry. Stagnante sones asook vloed-vloei-patrone binne-in die module kon suksesvol bepaal word. Baie navorsing is egter nog nodig om die ingewikkelde data wat gegenereer word tydens die ondersoek van 'n spiraal-module ten volle te verstaan. Die enorme potensiaal en moontlikhede van die ultrasoniese tegniek kan die begin wees van 'n revolusie in die membraan-industrie. Liquid separation processes Fouling layer formation Plant operation Dissertations -- Chemical engineering
49	Calibration of water content reflectometer in Rocky Mountain arsenal soil Tang, Yucao 2009 August 1900 (has links) This paper describes how water content reflectometers (WCRs) were analyzed to develop a calibration equation. Time domain reflectometry (TDR) technique is the most prevalent method in in-situ moisture monitoring; and WCR is a type of low frequency TDR sensors, which is sensitive to soil type. Developing soil-specific calibration and investigating different environmental effects on WCR calibration is important. This study focused on investigation of the soil dry density and temperature effects on WCR calibration in RMA soil. Two series of tests to develop soil-specific calibration with dry density and temperature offset were conducted. Results from testing program showed that WCR response was positive related to volumetric water content, dry density, and temperature. Equations were developed to illustrate the response-density-temperature-moisture relation. Application to a field site was also presented to illustrate the difference in volumetric water contents obtained by using manufacturer method and the calibration procedure drawn in this paper. / text WCR water content reflectometer TDR time domain reflectometry volumetric water content dielectric constant soil dry density
50	A High Frequency Transformer Winding Model for FRA Applications Tavakoli, Hanif January 2009 (has links) <p>Frequency response analysis (FRA) is a method which is used to detect mechanical faults in transformers. The FRA response of a transformer is determined by its geometry and material properties, and it can be considered as the transformer’s fingerprint. If there are any mechanical changes in the transformer, for example if the windings are moved or distorted, its fingerprint will also be changed so, theoretically, mechanical changes in the transformer can be detected with FRA.</p><p>The purpose of this thesis is to partly create a simple model for the ferromagnetic material in the transformer core, and partly to investigate the high frequency part of the FRA response of the transformer winding. To be able to realize these goals, two different models are developed separately from each other. The first one is a time- and frequency domain complex permeability model for the ferromagnetic core material, and the second one is a time- and frequency domain winding model based on lumped circuits, in which the discretization is made finer and finer in three steps. Capacitances and inductances in the circuit are calculated with use of analytical expressions derived from approximated geometrical parameters.</p><p>The developed core material model and winding model are then implemented in MATLAB separately, using state space analysis for the winding model, to simulate the time- and frequency response.</p><p>The simulations are then compared to measurements to verify the correctness of the models. Measurements were performed on a magnetic material and on a winding, and were compared with obtained results from the models. It was found that the model developed for the core material predicts the behavior of the magnetic field for frequencies higher than 100 Hz, and that the model for the winding predicts the FRA response of the winding for frequencies up to 20 MHz.</p> complex permeability frequency response analysis time domain reflectometry high frequency modeling transformer diagnosis Electrical engineering Elektroteknik

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