• Journal of the Korean Society of Costume
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• v.53 no.4
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• pp.49-69
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• 2003

The purpose of the study is to develop the competitive swimming suit design with Korean traditional images. which excels in dimension of functionality, aesthetics, and symbolism. To accomplish this study, first. a theoretical examination about Korean image was added, on the basis of the practical research about professional swimmers' preferences as well as the theoretical research about the history of swimming suits and the qualifications of competitive swimming suits in the prior study. Next, practical designing was performed to achieve the creative designs according to Lamb & Kallal's design process. and the superiority of the newly designed swimming suits was evaluated by using Grant's alpha-beta model. The results of this study can be summarized as follows : First. in the problem apprehension stage. the need for swimming suit designs with Korean traditional images for professional swimmers was acknowledged, and three major criteria. which are functionality, aesthetics. and symbolism has been verified. Second. in the preliminary brainstorming stage, considerable amounts of data for the design concept considering the criteria above have been gathered. The athletic one-piece for women and the brief for men in style and nylon/lycra in fabric were used in the aspect of functionality. And the S Korean traditional colors in color and Tae-guk motive and others in pattern were selected to apply Korean traditional images in the aspects of aesthetics and symbolism. Finally, the 13 series of creative designs with 4 themes( l17pieces in total) have been suggested. Third, in the design improvement stage. after the preference to each design was surveyed, reformation of the designs was arranged on the basis of the results. Fourth, in the prototyping stage. the 17 actual prototypes, including 13 pieces for women and 4 pieces for men were produced. Fifth. in the evaluation stage. the evaluation procedure using Grant's alpha-beta model was performed. As a result, the newly designed swimming suits were rated above other existing ones in all three aspects of functionality, aesthetics, and symbolism.

• International Journal of Costume and Fashion
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• v.6 no.2
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• pp.11-27
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• 2006

The purpose of this study is to develop highly valued fashion cultural items using Korean face and human images to enhance global competition. The methods of this study include: historical study on the face/human images which appear on the dress; design by stage according to Lamb & Kallal's apparel design process; development of products using digital textile printing technology; and case study by objective evaluation through Grant's alpha-beta model. The procedure and the results of this study are as follows: First, in the problem identification stage, the need to develop fashion cultural products of Korean face/human images which are symbolic, aesthetic, and functional was recognized in order to enhance global competition. Second, in the preliminary idea stage, the fashion cultural products and the components that meet the above 3 standards for design were determined and first design was drawn up. The source of the design was extrapolated from face/human images, which appeared on the murals of the ancient Korea, the portraits and custom paintings from the Chosun Dynasty. From these images, a total of 7 design series of T-shirts with an "ULGUL" logo, scarves, and artwalls were developed using "obangsaek" which are five Korean traditional colors including red, blue, black. white, and yellow on cottons and silks. Third, in the design refinement stage, based on the preference survey, more varying design methods were used to develop 25 new designs. Fourth, in prototype development stage, based on the preference survey conducted on fashion professionals and general public from the previous stage, which showed preference for T-shirts and scarves, 3 designs on T-shirts and 2 designs on scarves were printed and produced using the DTP (Digital Textile Printing). Fifth, in the evaluation stage, Grant's alpha-beta model was used to perform comparative evaluation on the symbolic, aesthetic, and functional criteria of the new designs over the existing ones. The new designs received excellent results in all three criteria and a special recognition was given to symbolism of the new designs.

• Geophysics and Geophysical Exploration
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• v.15 no.3
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• pp.121-128
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• 2012

Absorbing boundary conditions are used to mitigate undesired reflections that can arise at the model's truncation boundaries. We apply a complex frequency shifted perfectly matched layer (CFS-PML) to elastic wave modeling in the frequency domain. Modeling results show that the performance of our implementation is superior to other absorbing boundaries. We consider the coefficients of CFS-PML to be optimal when the kinetic energy becomes to the minimum, and propose the modified CFS-PML that has the CFS-PML coefficient ${\alpha}_{max}$ defined as a function of frequency. Results with CFS-PML and modified CFS-PML are significantly improved compared with those of the classical PML technique suffering from large spurious reflections at grazing incidence.

• Journal of the Korean Society for Nondestructive Testing
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• v.29 no.5
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• pp.466-472
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• 2009

An acoustic leak monitoring system(ALMS) using acoustic emission(AE) technique was applied for leakage detection of nuclear power plant's pipeline which is operated in high temperature and pressure condition. Since this system only monitors the existence of leak using the root mean square(RMS) value of raw signal from AE sensor, the difficulty occurs when the characteristics of leak size and shape need to be evaluated. In this study, dual monitoring system using AE sensor and accelerometer was introduced in order to solve this problem. In addition, artificial neural network(ANN) with Levenberg.Marquardt(LM) training algorithm was also applied due to rapid training rate and gave the reliable classification performance. The input parameters of this ANN were extracted from varying signal received from experimental conditions such as the fluid pressure inside pipe, the shape and size of the leak area. Additional experiments were also carried out and with different objective which is to study the generation and characteristic of lamb and surface wave according to the pipe thickness.

• Geophysics and Geophysical Exploration
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• v.6 no.2
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• pp.77-86
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• 2003

We designed a new time-domain, finite-difference, elastic wave modeling technique, based on a displacement formulation. which yields nearly correct solutions to Lamb's problem. Unlike the conventional, displacement-based, finite-difference method using a node-based grid set (where both displacements and material properties such as density and Lame constants are assigned to nodal points), in our new finite-difference method, we use a cell-based grid set (where displacements are still defined at nodal points but material properties within cells). In the case of using the cell-based grid set, stress-free conditions at the free surface are naturally described by the changes in the material properties without any additional free-surface boundary condition. Through numerical tests, we confirmed that the new second-order finite differences formulated in the cell-based grid let generate numerical solutions compatible with analytic solutions unlike the old second-order finite-differences formulated in the node-based grid set.