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Access to Film and Video Works: Surrogates for Moving Image Documents

Description: This doctoral dissertation discusses access to film and video works. Physical and intellectual access to moving image documents is insufficient, often insignificant, at the level of the individual user. Existing access tools suffer from a lack of recognition of the differences between linguistic text communication and image communication. Browsing and relevance judgements are made difficult by the physical realities of film and video documents - one cannot flip through them - and by the habits of serial and passive viewing.
Date: 1984
Creator: O'Connor, Brian Clark
Partner: UNT College of Information

Abstract Emotions 10

Description: The born digital photograph consists of a textured red color in the bottom two-thirds of the image and the upper portion is mostly purple with many spots of various colors.
Date: unknown
Creator: Shiue, Kuang Ting
Partner: UNT College of Visual Arts + Design

Abstract Emotions 14

Description: The born digital photograph orange textured color in the lower area while the uppermost is mostly a white textured area with many colors creating the texture. Between the orange and white areas is a blue section. The surface of the work is highly textured and swirls with movement.
Date: unknown
Creator: Shiue, Kuang Ting
Partner: UNT College of Visual Arts + Design

Between Spaces 05

Description: The digital photograph depicts, in the lower portion of the frame, an unmade bed with striped sheets and a white blanket. In the background, on the headboard, hangs a black and white image of architecture. The wooden frame from the bed continues up onto the wall and holds the black and white image. Along the right hand edge of the work is a set of shelves.
Date: unknown
Creator: Shiue, Kuang Ting
Partner: UNT College of Visual Arts + Design

Between Spaces 07

Description: Image of the digital photograph which depicts the pyramids of Egypt on the wall behind a sofa and coffee table. A clock is on the wall amid the Egyptian landscape and a lamp sits in front of the landscape. Various household items sit on the table in front of the sofa.
Date: unknown
Creator: Shiue, Kuang Ting
Partner: UNT College of Visual Arts + Design

Houses on Oak Street

Description: Image of the digital photograph that depicts, in black and white, houses and trees. It appears that many houses are superimposed.
Date: unknown
Creator: Shiue, Kuang Ting
Partner: UNT College of Visual Arts + Design

Little Chapel

Description: The black and white digital image depicts the interior of a church with brick arches and large globe lamps with the stained glass window in the background.
Date: unknown
Creator: Shiue, Kuang Ting
Partner: UNT College of Visual Arts + Design

Untitled

Description: This digital photograph depicts standing figures in black and white superimposed with secondary figures in bright colors. The composition in horizontal.
Date: 2010
Creator: Shiue, Kuang Ting
Partner: UNT College of Visual Arts + Design

Untitled

Description: The digital photograph with its pale blue background depicts on the left side of the frame white overlapping planes that create the sense of movement. Some yellow color enters the frame of the work in the lower right hand corner.
Date: 2011
Creator: Shiue, Kuang Ting
Partner: UNT College of Visual Arts + Design

Untitled

Description: This black and white digital photograph depicts an umbrella shape circling large from the lower right to smaller in the lower left. The background is dark.
Date: 2012
Creator: Shiue, Kuang Ting
Partner: UNT College of Visual Arts + Design

Comic Map of Europe

Description: Caricature figures are arranged to create the shapes of each European country.
Access: This item is restricted to UNT Community Members. Login required if off-campus.
Date: 1870~
Creator: Rose, Frederick
Partner: UNT College of Visual Arts + Design

Analysis of Shock-Void Experiment

Description: The authors compare CALE simulations with recent experimental results of a laser-induced shock traversing a spherical under-dense region (''void''). In this report the experimental results are described, as well as several numerical attempts at explaining the observed radiographs. The conclusion is that the numerical simulations at this time cannot satisfactorily explain the experiment. The simulations also indicate that the introduction of air gaps between the under-dense sphere and the surrounding foam can greatly change the behavior of the shocked sphere. Thus fabrication details may play an important role in the detailed evolution of this experiment. Regardless of the simulations, analysis of the observed time sequence indicates that reproducibility of this experiment may be a factor. To settle this issue, further experiments of this kind will be required.
Date: May 2, 2003
Creator: Woods, D T; Robey, H & Stry, P
Partner: UNT Libraries Government Documents Department

Fracture imaging with converted elastic waves

Description: This paper examines the seismic signatures of discrete, finite-length fractures, and outlines an approach for elastic, prestack reverse-time imaging of discrete fractures. The results of this study highlight the importance of incorporating fracture-generated P-S converted waves into the imaging method, and presents an alternate imaging condition that can be used in elastic reverse-time imaging when a direct wave is recorded (e.g., for crosswell and VSP acquisition geometries).
Date: May 29, 2001
Creator: Nihei, K.T.; Nakagawa, S. & Myer, L.R.
Partner: UNT Libraries Government Documents Department

Electrostatic Effects in III-V Semiconductor Based Metal-optical Nanostructures

Description: The modification of the band edge or emission energy of semiconductor quantum well light emitters due to image charge induced phenomenon is an emerging field of study. This effect observed in quantum well light emitters is critical for all metal-optics based light emitters including plasmonics, or nanometallic electrode based light emitters. This dissertation presents, for the first time, a systematic study of the image charge effect on semiconductor–metal systems. the necessity of introducing the image charge interactions is demonstrated by experiments and mathematical methods for semiconductor-metal image charge interactions are introduced and developed.
Date: May 2012
Creator: Gryczynski, Karol Grzegorz
Partner: UNT Libraries

High-resolution optical imaging on thermoplastic film

Description: Experimental details of a novel method for recording optical images is presented. In this method, a photoconductive layer arranges electric charges according to the optical image projected onto it. The differential electric fields thus produced, squeeze a thermoplastic layer into ridges that constitute the final image. The interference of two laser beams (0.83 mu m) that formed an optical image of l000 cycles/mm was clearly and accurately recorded. The spatial frequency response differs from the conventional photographic method and is well suited for holograms. The image can be erased and the medium reused many times. The thermoplastic layer alone can be written on'' by charges applied by touching with a thin wire. (auth)
Date: November 16, 1973
Creator: Chambers, E. S.; Hsieh, H. J.; Lee, E. L. & Boogaard, J. J.
Partner: UNT Libraries Government Documents Department

Cloud classification using whole-sky imager data

Description: Clouds are one of the most important moderators of the earth radiation budget and one of the least understood. The effect that clouds have on the reflection and absorption of solar and terrestrial radiation is strongly influenced by their shape, size, and composition. Physically accurate parameterization of clouds is necessary for any general circulation model (GCM) to yield meaningful results. The work presented here is part of a larger project that is aimed at producing realistic three-dimensional (3D) volume renderings of cloud scenes, thereby providing the important shape information for parameterizing GCMs. The specific goal of the current study is to develop an algorithm that automatically classifies (by cloud type) the clouds observed in the scene. This information will assist the volume rendering program in determining the shape of the cloud. Much work has been done on cloud classification using multispectral satellite images. Most of these references use some kind of texture measure to distinguish the different cloud types and some also use topological features (such as cloud/sky connectivity or total number of clouds). A wide variety of classification methods has been used, including neural networks, various types of clustering, and thresholding. The work presented here utilizes binary decision trees to distinguish the different cloud types based on cloud feature vectors.
Date: February 1, 1995
Creator: Buch, K.A. Jr. & Sun, Chen-Hui
Partner: UNT Libraries Government Documents Department

Scaling behavior in interference lithography

Description: Interference lithography is an emerging, technology that provides a means for achieving high resolution over large exposure areas (approximately 1 m{sup 2}) with virtually unlimited depth of field. One- and two-dimensional arrays of deep submicron structures can be created using near i-line wavelengths and standard resist processing. In this paper, we report on recent advances in the development of this technology, focusing, in particular, on how exposure latitude and resist profile scale with interference period We present structure width vs dose curves for periods ranging from 200 nm to 1 um, demonstrating that deep submicron structures can be generated with exposure latitudes exceeding 30%. Our experimental results are compared to simulations based on PROLITIV2.
Date: February 27, 1998
Creator: Agayan, R.R.; Banyai, W.C. & Fernandez, A.
Partner: UNT Libraries Government Documents Department