• Journal of Korean Society of Steel Construction
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• v.16 no.2 s.69
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• pp.235-245
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• 2004

The advantages of composite construction are now well understood in terms of structural economy, good performance in service, and ease of construction. However, these conventional composite construction systems have some problems in application to steel framed buildings due to their large depth. So, in this study we executed an experimental test with the "Slim Floor"system which could reduce the overall depth of composite beam. Slim Floor system is a method of steel frame multi-story building construction in which the structural depth of each floor is minimized by incorporating the steel floor beams within the depth of the concrete floor slab. Presented herein is an experimental study that focuses on the flexural behaviour of the partially connected slim floor system with asymmetric steel beams encased in composite concrete slabs. Eight full-scale specimens were constructed and tested in this study with different steel beam height, slab width, with or without shear connection and concrete topping thickness. Observations from experiments indicated that the degree of shear connection without additional shear connection was $0.53{\sim}0.95$ times that of the full shear connection due to inherent mechnical and chemical bond stress.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.19 no.10
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• pp.578-589
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• 2018

Building Integrated Photovoltaic (BIPV) system is a typical integrated system that simultaneously performs both building function and solar power generation function. To maximize its potential advantage, however, the solar photovoltaic power generation function must be integrated from the early conceptual design stage, and maximum power generation must be designed. To cope with such requirements, preliminary research on BIPV design process based on architectural design model and computer simulation results for improving solar power generation performance have been published. However, the requirements of the BIPV system have not been clearly identified and systematically reflected in the subsequent design. Moreover, no model has verified the power generation design. To solve these problems, we systematically model the requirements of BIPV system and study power generation design based on the system requirements model. Through the study, we consistently use the standard system modeling language, SysML. Specifically, stakeholder requirements were first identified from stakeholders and related BIPV standards. Then, based on the domain model, the design requirements of the BIPV system were derived at the system level, and the functional and physical architectures of the target system were created based on the system requirements. Finally, the power generation performance of the BIPV system was evaluated through a simulated SysML model (Parametric diagram). If the SysML system model developed herein can be reinforced by reflecting the conditions resulting from building design, it will open an opportunity to study and optimize the power generation in the BIPV system in an integrated fashion.

• Journal of Aerospace System Engineering
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• v.16 no.1
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• pp.86-96
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• 2022

The development trend of jet fighter's avionics system architecture is the digitization of subsystem component functions, increased RF sensor sharing, fiber optic channel networks, and modularized integrated structures. The avionics system architecture of the fifth generation jet fighters (F-22, F-35) has evolved into an integrated modular avionics system based on computing function integration and RF integrated sensor systems. The integrated modular avionics system of jet fighters should provide improved combat power, fault tolerance, and ease of jet fighter control. To this aim, this paper presents the direction and requirements of the next-generation jet fighter's avionics system architecture through analysis of the fifth generation jet fighter's avionics system architecture. The core challenge of the integrated modularized avionic system architecture requirements for next-generation fighters is to build a platform that integrates major components and sensors into aircraft. In other words, the architecture of the next-generation fighters is standardization of systems, sensor integration of each subsystem through open interfaces, integration of functional elements, network integration, and integration of pilots and fighters to improve their ability to respond and control.

• Journal of the Korea Concrete Institute
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• v.17 no.1 s.85
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• pp.85-94
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• 2005

Post-tensioned Precast concrete System(PPS) consists of U-shaped precast wide beams and concrete column. The continuity of beam-column joint is provided with floor concrete cast on the PC shell beam and post-tensioning. The purpose of this paper is to evaluate the response of PPS interior beam-column joint subjected to cyclic lateral loading. To this end, an experimental investigation was performed with three half-scale specimens of interior connection. The design parameters are the amount of beam reinforcement placed inside the joint core. The test results showed that cracks were distributed well without my significant degradation of strength and ductility. Also, it was found that the prestressing may affect to alter the torsional crack angle. And the specimens sufficiently resist up to limiting drift ratio of 0.035 in accordance with the provisional by ACl of acceptance criteria for concrete special moment frames.

• Journal of the Korea Academia-Industrial cooperation Society
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• v.18 no.12
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• pp.57-64
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• 2017

Today, due to the environmental regulations regarding air pollution in the EU, the use of EPS (Styrofoam) as the cushioning material in the packaging industry is decreasing. In effect, air cushioning based cushioning materials are rapidly expanding into the market and replacing EPS, due to their excellent buffering ability and environmental friendliness. This is a new selective filling type air filling material manufacturing technology that affords improvements in the amount of raw materials required, its processing and its aesthetic appearance compared to the conventional air filling cushioning materials. In this study, a multi-stage air cell filling valve molding technology is developed based on selective filling technology, which allows packages to be selectively filled in various forms by applying valve forming structure technology. This multi-stage air cell filling valve molding technology is a technique in which a plurality of injection ports are formed by laminating three layers of films, viz. a first injection film, a valve film, and a second injection film having valve ends. In the conventional technology, a separate external air injection path for injecting air into a plurality of connected air bags is needed. However, in the proposed system, an external air injection path is formed inside the air bag, Due to the lack of need for an injection furnace, the raw material and process are reduced and air is injected and then discharged, while the air bag is reduced in length to 63 ~ 66% of its normal value. The outer surface of the outer air injection path is integrated inside by maintaining the original length of the cross section, while the unnecessary folded air is injected into the interior of the air bag, This smart air filling type cushioning material manufacturing technology constitutes a big improvement over the existing technologies.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.39 no.1
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• pp.195-201
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• 2019

Long caisson breakwaters can improve the structural safety of a caisson due to the wave dispersion effect which reduces the average wave force acting on one caisson. However, in order to make long caissons, there are many manufacturing and construction limitations. Recently, interlocking caisson systems, which are to form a long caisson by interlocking individual caissons with adjacent caissons, have been much attention. In the present study, a interlocking caisson system with shear-keys was proposed and the wave dispersion effect according to the shear-key was evaluated analytically. As a result, (1) Because of the asymmetric shape of the interlocking caisson, the structure behavior and the wave dispersion effect of one are also asymmetric. (2) The wave dispersion effect is more influenced by the distribution and characteristics of wave acting on each caisson rather than the shape of the shear-key such as shear angle, height, shear length ratio. (3) The interlocking caisson breakwater is almost the same behavior and wave dispersion effect as a fully integrated breakwater.

• KSCE Journal of Civil and Environmental Engineering Research
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• v.28 no.3C
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• pp.149-158
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• 2008

This study is concerned with the characteristics of the behavior of drilled shafts with steel casing, a material that is used for large bridge foundations in Korea, and especially for weak submerged ground conditions. The effect of steel casing on bearing capacity of drilled shafts was also verified in this study. Three large drilled shafts with 1.8, 2.4, 3.0m diameter respectively were selected, and 3-D finite element analysis has been undertaken on the following three models: 1) drilled shafts without steel casing, 2) drilled shafts with steel casing, 3) steel-concrete composite drilled shafts. Interface element between concrete core and steel casing was taken into account, and ground conditions and load combinations were applied which had been considered in the fields. Detailed characteristics of the stress and displacement distributions were evaluated to understand the characteristics of the behavior of the drilled shafts. Based on the study performed, the steel casing used as load-carrying materials in the drilled shafts can reduce the horizontal and vertical displacement of drilled shafts by 32~37% and 15~19% respectively compared with drilled shafts without steel casing.

• Journal of the Korean Wood Science and Technology
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• v.36 no.6
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• pp.77-87
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• 2008

Wooden model erosion control dam was made with pitch pine, of which the strength properties was evaluated. Wooden model erosion control dam was made with diameter 90 mm of pitch pine round posts treated with CUAZ-2 (Copper Azole), changing joint in three different types. In each type, erosion control dam was made in nine floor (cross-bar of five floors and vertical-bar of four floors), of which the hight was 790 mm. And then strength properties were investigated through horizontal loading test and impact strength test, and the deformation of structure through image processing (AICON 3D DPA-PRO system). In horizontal loading test of wooden model erosion control dam using round post of diameter 90 mm, whether there was stone or not did not affect strength much when using self drill screw, but strength was decreased by 23%. In monolithic type of erosion control dam using screw bar, strength was increased by 1.5 times and deformation was decreased when filling with stone. When reinforcing with screw bar that ring is connected to self drill screw, strength was increased by 4.8 times. In impact strength test of wooden model erosion control dam made with round post of diameter 90 mm, the erosion control dam connected with self drilling screw not filling with stone was totally destroyed by the 1st impact, and the erosion control dam using screw bar was ruptured at cross-bar at which 779 kgf of impact was loaded in the 1st impact. In the 2nd impact, the base parts were ruptured, and reaction force was decreased to 545 kgf. In the 3rd impact, whole base parts were destroyed, and reaction force was decreased to 263 kgf.

• Journal of the Korean Institute of Landscape Architecture
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• v.37 no.4
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• pp.72-85
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• 2009

This study attempts to examine the principles of landscape composition for a 'Suhwon(書院)' and the meaning and value of its traditional landscape architecture, in order to apply the results to the design of modern landscape architecture. A 'Suhwon' is a vital space containing the form and meaning of human activity. This study analyzes the characteristics of landscape composition in the construction of the Namgea Suhwon, located in Hamyang, by examining the form and meaning of its area and composition. The Namgea Suhwon was constructed with a suitable configuration and harmony in a good location, neither field nor mountain, and which encompasses transcendence and a return after passage through a period of birth and abundance. Its appearance means 'life existence and hidden death(生居死幽)'. Its spatial system is a reflection of the idea of Samshinoje(三神五帝: The three abilities of Providence and its five subjects) connected with Ilsangje -Samshin -Ohje. It was built based on the idea of Biryebudong(非禮不動) meaning that one should follow only good decorum and avoid discourtesy, complying with "the frame of decorum" developed by the family rites of Chu Hsi. The environmental design of the Namgea Suhwon was interrupted by the material confrontation between mountains and water and a binary code system, such as front to rear, length to breadth, and movement to stillness. The design did not adhere to stiff axes, but pursued the harmonic principles of asymmetric balance in the building and the yard, which are very naturalistic. The name 'Namgea Suhwon' is closely related with the view of placement(置) and harmony(和), which are unified with the function and meaning formed by connecting Sung Confucianism with the Pungsu-Sasinsa structure in the layout of the grounds. When examining the D/H ratio of the building and yard, it can be seen that the spaces of Ganghak, Yusang and Jehyang were built appropriately, according to the natural characteristics of each space, such as a sense of openness, enclosure, tension, relief, enhancement, and hierarchical order. The spaces also reflect human scale concepts that take advantage of auditory features. The transition process after the construction of 'Namgea Suhwon' reveals the intentions of the builder to create an ecological landscape composition based on Placement and Harmony. Placement embodies' a purposeful space in which nature and the building are connected naturally, 'incomplete open space pursuing completion', and 'potential beauty in which tension and relaxation are repeated'. Harmony embodies 'order and continuity having a sense of unity with the natural environment' and the 'sharing of daily life and memory'. 'Namgea Suhwon' contains many ideas for landscape planning, land use and the design of a campus environment.

• Koreanishche Zeitschrift fur Deutsche Sprachwissenschaft
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• v.7
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• pp.1-24
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• 2003

우리는 지금까지 독일어와 한국어 두 언어간의 오류분석을 논의해 왔다. 특히 언어유형학적인 측면에서 몇 가지 오류유형과 분석을 시도했다. 그 결과는 대체로 다음과 같이 요약될 수 있다. 독일어와 한국어가 서로 근본적으로 상반되는 언어현상과 더불어 약간의 공통성을 나타내며 일정한 유형을 나타낸다. 이는 두로 인간의 언어습득장치에 기인된 언어습득의 결정주의(Determinismus)에서 비롯될 것이다. 언어특성/문제의 체계성/규칙성 또는 일관성은 이를 반영한다. 거대한 언어자료 중에 극히 미미한 일부, 즉 언어최소량를 정복함으로써 그 효용성을 극대화할 수 있는 것은 매우 중요한 의미를 지닌다. 이를 연구 이용하는 경우에는 엄청난 효과와 가능성을 기대할 수 있을 것이다. (1) 독일어와 한국어의 학습 및 오류분석에서 가장 핵심적인 것은 언어유형학적으로 드러난 언어특성, 즉 전치성(독일어/영어)과 후치성(한국어)이다. 이를 토대로 형성된 대립적인 면과 공통적인 문제를 체계화하는 것이 역시 오류분석 문제의 관건이다. 또한 독일어가 아직 후치성 언어(한국어(TXV))에서 출발해서 전치성 언어(영어(SVX))로 발전/변화해 가는 과정, 즉 중간단계인 TVX에 머물고 있다는 사실이 중요한 의미를 지닌다. 즉 그들의 대극성과 유사성을 연결하는 실마리로 볼 수 있기 때문이다. (2) 일치(Kongruenz)/상관(Korrelation) 및 반복(Wiederholung) 현상, 그리고 격변화와 인칭변화 현상은 어순문제와 더불어 형태론적 문제를 통해 문법적인 확인수단으로 작용한다. 이들은 대부분 체계적/구조적으로 나타나기 때문에 학습자는 흔히 같은 유형에서 반복적으로 오류를 범하기 마련이다. 이를 극복하기 위해서 언어 유형학적 오류분석을 이해하고 또한 이를 통해 오류를 줄이거나 예방하는 학습이 필요하다. (3) 명사가 한정사구 안에서 성/수/격에 따라 변화하는 것과 동사가 동사구에서 주어의 인칭/수에 따라 인칭변화 하는 것은 우리 한국인에게는 아주 이색적인 현상이다. 이는 양면적인 수식구조에 대한 확인수단 및 원자가에 의한 강력한 형식위주 언어인 독일어와 전위적인 단일 수식구조와 부정형 동사를 특성으로 형성된 핵/최소문 언어간의 필연적인 적응관계 및 결과라고 볼 수 있다. 이 두 가지 유형 역시 언어특성에 따라 도식화/공식화 할 수 있다. (4) 괄호현상, 즉 으뜸머리(Hauptkopf)가 버금머리(Nebenkopf)와 분리하는 것은 우리 한국인에게는 아주 이색적인 언어현상이다. 한국어에는 머리의 이동이 없기 때문이다. 긴 구문에서 버금머리를 잊어버리거나 실수하는 것은 모든 괄호구문에서 예견되는 결과이다. 그러나 이는 정치성과 후치성 언어간의 전이 과정으로 이해될 수 있다. 으뜸머리가 원래의 자리를 박차고 소속 구/문의 앞자리로 도약한 것처럼 느껴지기 때문이다. (5) 전치 및 후치 수식이 유동적으로 작용하는 독일어는 전치 수식만으로 고정된 한국어보다 복잡하지만 균형적인 언어구조이다. 이러한 수식구조에서 한국인은 흔히 형태 및 어순에서, 그리고 번역에서 오류를 범하고 만다. (6) 그러나 가장 중요한 것은 아는 것을 제대로 이용하는 문제이다. 모국어/L2를 자유로이 말하고 쓸 때까지, 즉 언어습득에는 일체이 문법이나 도표/도식을 이용할 필요가 없다는 사실이다. 이는 17세기 서구의 이성주의 철학자들의 한결같은 경고이다. 오늘날 초고속 과학문명에서 더욱 빛을 발하는 것은 당연한 결과이다. 한 언어 속에 들어있는 문법체계를 익혀 가는 것이 곧 언어습득 과정이지만, 이를 달성하는 가능성 내지 첩경은 실제적인 언어자료와 체험이지 결코 문법이나 추상적인 개념적 접근이 아님을 웅변하고 있기 때문이다. 핵심적인 문제는 모국어교육에서도 최대 장점인 대화를 통한 언어연습/대화 기회를 최대한 보장하는 데 있다. 또한 언어간섭 현상을 조장하는 분위기를 막아야 할 것이다. 이러한 의미에서 교수법 개발이 외국어/L2 성공의 관건일 것이다. (7) 언어학습에서 오류를 극복하는 데는 일차적인 실제 상황에 부합하는 대화적인 연습, 그리고 효과적인 언어자료 접촉, 즉 독서와 모방이 중요하다. 이차적이고 직접적인 것은 통사(Syntax) 및 형태론(Morphologie)를 익힐 수 있는 말/문을 끊임없이 익히는 일이다. 이것이 또한 언어최소량을 충족시켜 언어습득에 이르는 첩경이다. 자연 생태적인 모국어 학습 또는 조정 및 제도적인 언어학습에서도 실제상황에 어긋나는 문법적인 체계에 얽매이는 도식 및 도표 위주의 텟스트는 일시적인 기대일 뿐이다. 인간의 언어습득장치를 이해하지 못한 결과이기 때문이다. 문법적인 개념위주 접근은 상당한 설명이 필요해서 절박한 자료와 체험까지 앗아가기 마련이다. 더구나 이를 위해 수준을 무시하고 모국어로 일관하여 벙어리와 문맹을 자초하는 것은 참으로 어리석은 일이다. 지식 정보화 시대 및 세계화 시대에는 무엇보다도 교육 및 언어정책이 국가 발전의 원동력이다. 특히 영어를 비롯한 외국어 학습능력과 학습방법은 매우 중요하다. 학습자에게 말하고 쓰는 기본 능력을 보장하는 것이 급선무이다. 이를 위한 작업의 하나가 바로 언어간의 오류분석일 것이다. 언어의 습득과 활용이 체계적이듯이 오류분석 역시 상당히 체계적이다. 그래서 인간의 언어습득과 언어습득장치를 두고 결정론(Determinismus)이 지배적이다. 이러한 의미에서 언어습득의 3대 요소, 즉 언어습득장치를 구비한 인간으로 태어나고, 해당 언어를 통한 일관된 언어체험/학습으로 언어최소량을 충족해야 한 언어를 정복할 수 있다는 것은 결정적인 사실이다. 학생고객에게 다가서는 책임교육으로 교육개방에 대비하는 일 역시 시대적인 상황이요 또한 결정적인 단계임엔 틀림이 없을 것이다.