6,575 research outputs found
A STUDY ON DEVELOPMENT AND CURRENT APPLICATION OF MOTION GRAPHIC IN TAIWAN’S POPULAR MUSIC
With the advances in technology, the way of communications has become more diverse. Motion graphic combines graphic design, animation design, and film languages. Motion graphic is a new industry with intense performance styles and can be used in different media and platforms, such as commercials, music videos, film and television titles, web pages, and various display screen sizes, etc. Because motion graphic is a non-narrative time-based media, mostly it combines with music. The Taiwan 25th Golden Melody Awards introduced motion graphic design for the first time in 2014. This changed the monotony of past awards ceremony and reignited audience’s attention and discussion, as well as sparked a wave of motion graphic within the country. Through in-depth interviews with some industry experts, this study has defined the concept of motion graphic, analyzed its applications and development in popular music, and explored its future trends. The results of the study show that motion graphic is a cross-domain integration. With the appearance of interactive technology products, motion graphic strengthens the connection between the media and the audience, bringing different interactive experiences to the audience. The development of the Internet has also led to the spread of motion graphic due to high image quality, which has changed the speed of message dissemination and the way people listen to music. Because motion graphic has the advantage of actively transmitting messages, it has three main applications in popular music, which are music videos, concert video design, and the visual presentation of award ceremony. It is an inevitable trend that future music will be presented in the form of motion graphic
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Measurement of fluid properties in organic-rich shales
The primary objective of this study is to develop and improve water-based drilling fluids and fracturing fluids for organic rich shale reservoirs by using nanoparticles and to gain fundamental insight into water and oil flow in shales. This dissertation presents results for several shale formations in the US, namely the Barnett shale, the Eagle Ford shale, the Utica shale, and the Bakken shale. The research discussed here presents new methods for studying the interaction between various fluids and organic-rich shale and the development of proper methods to measure apparent and relative permeability of shale.
First of all, we show how the petrophysical properties of shales are changed when they are poorly preserved. Experiments were performed to measure important petrophysical properties such as porosity, density, weight change, hardness, wave velocity and permeability before and after shale samples dried-out. The large differences in shale properties between preserved and un-preserved samples as reported herein, clearly indicate that shales should be preserved at the well site and tested with a standard procedure ensuring minimum alteration of fluids from the shale. Failure to follow a standard procedure leads to measurements that do not reflect the “true” or in-situ properties of the shale. Instead, the measurements can be a factor of 2 or 3 different from the “true” value. The shale handling, preservation and measurement techniques and procedures presented here can be used as a standard protocol for studying organic rich shales.
Next, we discuss how fracturing fluid can change the petrophysical properties of shale. Among the various petrophysical properties, the fluid permeability is chosen to determine the effect of the fracturing fluid on the shale. Experimental procedures are presented to suggest how to measure the shale permeability. To measure the fluid permeability, the Pressure Penetration Technique (PPT) was developed and used. The reference permeability with sea water brine was measured and then fracturing fluid was injected into the shale. The brine permeability was re-measured to see the effect of exposure to the fracturing fluid, and experimental data show the permeability change due to fracturing fluid plugging the shale.
Next, we focus on the development of a Water Based Mud (WBM) system for organic-rich shale. Drilling through a shale formation can result in borehole instability problems, and this is known to add substantial costs to the operation. This is because conventional drilling fluids tend to interact with clay minerals in shales, and the mechanical properties of rock are changed by clay swelling. To reduce the interaction between water-based muds and shales, we need to reduce water invasion into the shale. The addition of nanoparticle additives to water-based drilling fluids can significantly reduce the invasion. We report results for shale permeability and pressure penetration though shales using different fluids: brine, base mud and nanoparticle based muds. To better define the effect of nanoparticles, we used different concentrations of nanoparticles in the mud. From the large reduction in permeability and the pressure response results, we clearly show that nanoparticles act as good shale inhibitors to ensure wellbore stability during drilling.
Experimental studies used to measure the relative permeability of shale. Such measurements have never been done before. Due to the extremely low permeability of shale, it is very difficult to measure the relative permeability of shale directly. We propose a method of relative permeability measurement using NMR (Nuclear Magnetic Resonance) spectroscopy to measure fluid saturations and a RPC (relative permeability measurements under a confining pressure) set-up to conduct the displacement. RPC set-up is a newly developed forced injection set-up using the unsteady-state method. The in-situ fluid saturation was successfully measured with NMR, and the set-up was also useful for measuring the relative permeability of shale. It yielded continuous results from the Bakken shale tests.Petroleum and Geosystems Engineerin
Analysis of mixed elliptic and parabolic boundary layers with corners
We study the asymptotic behavior at small diffusivity of the solutions, u??, to a convection-diffusion equation in a rectangular domain. The diffusive equation is supplemented with a Dirichlet boundary condition, which is smooth along the edges and continuous at the corners. To resolve the discrepancy, on ???, between u?? and the corresponding limit solution, u0, we propose asymptotic expansions of u?? at any arbitrary, but fixed, order. In order to manage some singular effects near the four corners of , the so-called elliptic and ordinary corner correctors are added in the asymptotic expansions as well as the parabolic and classical boundary layer functions. Then, performing the energy estimates on the difference of u?? and the proposed expansions, the validity of our asymptotic expansions is established in suitable Sobolev spaces.open
Singular layer Physics Informed Neural Network method for Plane Parallel Flows
We construct in this article the semi-analytic Physics Informed Neural
Networks (PINNs), called {\em singular layer PINNs} (or {\em sl-PINNs}), that
are suitable to predict the stiff solutions of plane-parallel flows at a small
viscosity. Recalling the boundary layer analysis, we first find the corrector
for the problem which describes the singular behavior of the viscous flow
inside boundary layers. Then, using the components of the corrector and its
curl, we build our new {\em sl-PINN} predictions for the velocity and the
vorticity by either embedding the explicit expression of the corrector (or its
curl) in the structure of PINNs or by training the implicit parts of the
corrector (or its curl) together with the PINN predictions. Numerical
experiments confirm that our new {\em sl-PINNs} produce stable and accurate
predicted solutions for the plane-parallel flows at a small viscosity
The Effects of Celebrity-Brand Congruence and Publicity on Consumer Attitudes, Buying Intention, and Loyalty
Celebrities have been used for decades as a marketing tool to endorse brands or products. However, once a direct link has been formed from a celebrity to a brand, the negative information about the celebrity may reflect back on to the endorsed brand. Applying the balance theory, the purpose of this study was to investigate the effects of celebrity-brand congruence and publicity on consumers\u27 attitudes toward the celebrity and brand as well as their buying intention and loyalty. A survey with 2(congruence vs. incongruence)×2(positive vs. negative publicity) experimental design was conducted and a total of 105 usable data from generation Y female consumers were collected. The study revealed that consumers tend to like and be loyal to the brand/product when there is a celebrity-brand congruence and positive publicity. Interestingly, the congruence was found to be more important influencer to motivate consumers to purchase a brand than publicity
Fixed-point theorems in fuzzy real line
AbstractSome sufficient conditions for the existence of fixed points of increasing operators in fuzzy real line RL are given. We also establish some coupled quasi-fixed-point theorems of mixed monotone operators in fuzzy real line RL
Staphylococcal enterotoxin sensitization in a community-based population : a potential role in adult-onset asthma
Background: Recent studies suggest that Staphylococcus aureus enterotoxin sensitization is a risk factor for asthma. However, there is a paucity of epidemiologic evidence on adult-onset asthma in community-based populations.
Objective: We sought to evaluate the epidemiology and the clinical significance of staphylococcal enterotoxin sensitization in community-based adult populations.
Methods: The present analyses were performed using the baseline data set of Korean adult population surveys, consisting of 1080 adults (mean age=60.2years) recruited from an urban and a rural community. Questionnaires, methacholine challenge tests, and allergen skin tests were performed for defining clinical phenotypes. Sera were analysed for total IgE and enterotoxin-specific IgE using ImmunoCAP.
Results: Staphylococcal enterotoxin sensitization (0.35kU/L) had a prevalence of 27.0%. Risk factors were identified as male sex, current smoking, advanced age (61years), and inhalant allergen sensitization. Current asthma was mostly adult onset (18years old) and showed independent associations with high enterotoxin-specific IgE levels in multivariate logistic regression tests. In multivariate linear regressions, staphylococcal enterotoxin-specific IgE level was identified as the major determinant factor for total IgE level.
Conclusions and Clinical Relevance: Staphylococcal enterotoxin sensitization was independently associated with adult-onset asthma in adult community populations. Strong correlations between the enterotoxin-specific IgE and total IgE levels support the clinical significance. The present findings warrant further studies for the precise roles of staphylococcal enterotoxin sensitization in the asthma pathogenesis
Karyotype and nucleic acid content in Zantedeschia aethiopica Spr. and Zantedeschia elliottiana Engl.
Analysis of karyotype, nucleic deoxyribonucleic acid (DNA) content and sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) were performed in Zantedeschia aethiopica and Zantedeschia elliottiana. Mitotic metaphase in both species showed 2n=32. The chromosomes of both species were quite similar with medium length ranging from 1.55 ± 0.04 to 3.85 ± 0.12 μM in Z. aethiopica and 2.15 ± 0.04 to 3.90 ± 0.12 μM in Z. elliottiana. However, some differences were found in morphology and centromeric position among the chromosomes. Identification of individual chromosomes was carried out using chromosomes length, and centromeric positions. The karyotype of Z. aethiopica was determined to be 2n = 32 = 14 m + 18 sm and of Z. elliottiana to be 2n = 32 = 10 m + 22 sm. The 2C nuclear DNA content was found to be 3.72 ± 0.10 picograms (equivalent to 3638.16 mega base pairs) for Z. aethiopica and 1144.26 ± 0.05 picograms (equivalent to 1144.26 mega base pairs) for Z. elliottiana. Leaf protein analysis showed 11 and 9 bands for Z. aethiopica and Z. elliottiana, respectively, among which some were species specific. These results may provide useful information regarding Zantedeschia for the study of taxonomic relationships, genetics and breeding.Keywords: Zantedeschia, karyotype, mitotic metaphase, chromosomes, flow cytometr
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