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Corneal graft outcome, endothelial monolayer survival following corneal grafting : a prospective and retrospective studyElzawia, Omar Rajab January 1999 (has links)
No description available.
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Neutron reflection used to investigate polymers and surfactants at the solid-liquid interfaceRhodes, Trevor Ian January 2003 (has links)
No description available.
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DEVELOPMENT OF A SPECTROMETER FOR THE ELECTROREFLECTANCE SPECTROSCOPY OF METALSRancourt, James Daniel, 1941- January 1974 (has links)
No description available.
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Specular reflectance of anodized 6061-T6 aluminum alloyStrauss, Jon January 1900 (has links)
Master of Science / Department of Chemical Engineering / John Schlup / This study investigated the specular reflectance properties of 6061-T6 aluminum alloy anodized in accordance with military specification MIL-A-8625 as a function of both etch process time and anodization process potential. Both process parameters affect the specular reflectance characteristics when measured using a 660 nm, collimated diode laser source. The etch process time, when varied between 0.5 to 20 minutes, resulted in a decrease in specular reflectivity with increasing time. The anodization process potential was varied between 10 and 21 volts, with a 15 volt condition producing samples with the greatest specular reflectivity. Between the two parameters, the etch time had the greater effect. Additionally, the dependence of the incident beam angle on specular reflectivity was shown not to have a significant effect when compared to the etch process time and process potential.
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Evaluation of a Deep Plan Office Space Daylit with an Optical Light Pipe and a Specular Light ShelfUpadhyaya, Kapil 15 May 2009 (has links)
This research developed the Optical Light Pipe (OLP) as a feasible solution to
solve the problem of insufficient daylighting in deep plan office spaces for predominantly
sunny climates. It further combined the OLP with a Specular Light Shelf
(SLS) to achieve uniform daylighting.
This research was performed with an experimental setup of two 1:4 scale models
of deep plan office spaces, modified from an earlier research on optical light pipe at
College Station, TX. Blinds and shading devices were installed on the south façade to
provide daylight to the front zone of a 20 feet by 30 feet office module. The back zone
was daylit by the OLP hidden in the plenum. The existing OLP design was optimized
through computer aided ray-tracing. The SLS design was based on an earlier prototype
designed at Lawrence Berkeley National Labs (LBNL).
Results were based on observations made on clear and cloudy sky days between
February 3rd and March 17th. The OLP achieved more than 300 lux of average
workplane illuminance for 7.4 hours, when global horizontal illuminance was greater
than 40,000 lux. It also achieved 200 lux of illuminance higher than an earlier prototype (Martins-Mogo, 2005) on workplane between 1000hrs and 1630hrs. It exhibited a glare
free daylight distribution with luminance ratios well within prescribed limits on most of
the vertical surfaces, with a relatively uniform illuminance distribution on back
taskplane. OLP was better than windows with blinds and shading at providing diffuse
daylight in backzone on a cloudy day, when global horizontal illuminance was greater
than 20,000 lux.
The OLP used in combination with SLS achieved more than 500 lux of average
workplane illuminance for 6 hours, when global horizontal illuminance was greater than
40,000 lux. SLS also produced more uniform illuminance levels on the workplane at all
times and on the leftwall at most times. However, it produced non-uniform luminance
distribution on walls and ceiling and luminance ratios higher than allowable limits on the
sidewall for some morning hours, and hence needed further refinement in design.
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Modeling Specular and Diffuse Reflection Sound Fields in Enclosures with an Energy-Intensity Boundary Element MethodMichalis, Krista January 2011 (has links)
<p>Steady-state sound fields in enclosures, with specular and diffuse reflection boundaries, are modeled with a first-principle energy-intensity boundary element method using uncorrelated broadband directional sources. The specular reflection field is represented by a limited set of spherical harmonics that are orthogonal on the half-space. The amplitudes of these harmonics are determined by a Lagrange multiplier method to satisfy the energy conservation integral constraint. The computational problem is solved using an iterative relaxation method starting from the 3-D diffuse reflection solution. At each iteration, directivity harmonics are estimated by post-processing and the influence matrix is refined accordingly. For internal sources, simple first reflection images improve accuracy with virtually no penalty on computation time. Monotonic convergence occurs in relatively few relaxation steps. Extrapolating to an infinite number of boundary elements and iterations gives very accurate results. The method is very computationally efficient. Results are compared to exact benchmark solutions obtained from a frequency-by-frequency modal analysis, and a broadband image method, demonstrating high accuracy. The method of absorption scaling is verified for complicated 3-D cases, and showing that the spatial variation in rooms is largely determined by source position and the relative distribution of absorption, but not the overall absorption level.</p> / Dissertation
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Reconstructing specular objects with image based rendering using color cachingChhabra, Vikram. January 2001 (has links)
Thesis (M.S.)--Worcester Polytechnic Institute. / Keywords: scene reconstruction vision, image based rendering, graphics, color consistency, specular objects. Includes bibliographical references (p. 56-57).
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MACHINE VISION RECOGNITION OF THREE-DIMENSIONAL SPECULAR SURFACE FOR GAS TUNGSTEN ARC WELD POOLSong, Hongsheng 01 January 2007 (has links)
Observing the weld pool surface and measuring its geometrical parameters is a key to developing the next-generation intelligent welding machines that can mimic a skilled human welder who observes the weld pool to adjust welding parameters. It also provides us an effective way to improve and validate welding process modeling. Although different techniques have been applied in the past few years, the dynamic specular weld pool surface and the strong weld arc complicate these approaches and make the observation /measurement difficult. In this dissertation, a novel machine vision system to measure three-dimensional gas tungsten arc weld pool surface is proposed, which takes advantage of the specular reflection. In the designed system, a structured laser pattern is projected onto the weld pool surface and its reflection from the specular weld pool surface is imaged on an imaging plane and recorded by a high-speed camera with a narrow band-pass filter. The deformation of the molten weld pool surface distorts the reflected pattern. To derive the deformed surface of the weld pool, an image processing algorithm is firstly developed to detect the reflection points in the reflected laser pattern. The reflection points are then matched with their respective incident rays according to the findings of correspondence simulations. As a result, a set of matched incident ray and reflection point is obtained and an iterative surface reconstruction scheme is proposed to derive the three-dimensional pool surface from this set of data based on the reflection law. The reconstructed results proved the effectiveness of the system. Using the proposed surface measurement (machine vision) system, the fluctuation of weld pool surface parameters has been studied. In addition, analysis has been done to study the measurement error and identify error sources in order to improve the measurement system for better accuracy. The achievements in this dissertation provide a useful guidance for the further studies in on-line pool measurement and welding quality control.
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QUANTIFICATION OF SURFACE DEFECTS USING PRIMARY HIGHLIGHT IN DIFFUSE ANGLE GRAY SCALE IMAGESGanapathiraman, Subburengan 01 January 2005 (has links)
The thesis presented is an effort to gather all possible information of one particular type of common paint defect the seed defect, from gray scale images of highly specular painted surface. The proposed approach in the thesis utilizes a white light source to illuminate the surface and utilizes a camera to capture its gray scale image at different diffused angles. While attempting to explain the physics of highlight formation in terms of location on the surface of a seed defect, the thesis also extends to utilize this information from gray scale images to accurately predict the parameters of seed defects including the height, size and position in real time. Since the primary highlight in a gray scale image is more defined, contrary to the past researches on diffuse angle images that use both primary / seed highlight and mirror highlight to estimate height of the seed, this thesis formulates a theory of highlight translation and estimates the height of seed based on primary / seed highlight. The other common type of surface defect - crater defect, is also addressed in the thesis.
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REFLECTED IMAGE PROCESSING FOR SPECULAR WELD POOL SURFACE MEASUREMENTJanga, Aparna 01 January 2007 (has links)
The surface of the weld pool contains information that can be exploited to emulate a skilled human welder to better understand and control the welding process. Of the existing techniques, the method that uses the pool's specular nature to an advantage and which is relatively more cost effective, and suitable for welding environment is the one that utilizes reflected images to reconstruct 3D weld pool surface by using structured light and image processing techniques. In this thesis, an improvement has been made to the existing method by changing welding direction to obtain a denser reflected dot-matrix pattern allowing more accurate surface measurement. Then, the reflected images, obtained by capturing the reflection of a structured laser dot-matrix pattern from the pool surface through a high-speed camera with a narrow band-pass filter, are processed by a newly proposed algorithm to find the position of each reflected dot relative to its actual projection dot. This is a complicated process owing to the increased density of dots and noise induced due to the harsh environment. The obtained correspondence map may later be used by a surface reconstruction algorithm to derive the three-dimensional pool surface based on the reflection law.
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