• 건축역사연구
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• 제19권6호
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• pp.61-78
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• 2010

Old Russian Legation(1890) has been attracted public attention in terms of politics and foreign affairs than architectural style because of conditions of location and historical incident. Though it was heavily damaged during the Korean war, and only the tower has been restored, it is very important in architectural history in Korea, because it is the oldest western style brick building which is existing with the old bishop's house in Myeong-Dong. But it has been impossible to reveal exactly the original form as there has been few reliable materials(picture, drawing, document) and it's remains were nearly destroyed owing to development of the surroundings. Recently the decisive document(site outline map) was found, and new research on the architect Sabatine was studied. So I can get into close with the original form by the results. In this study, I tried to conjecture the original form of the old Russian legation(the size, style, plan and indoor space, arrangement of attached facilities) and I checked the location and structure of the room where King Gojong stayed when he took refuge, and the use of the passage in the basement.

• 건축역사연구
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• 제17권5호
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• pp.7-22
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• 2008

The purpose of this study is to examine the function of wall posts in pit-houses in the Bronze Age, in the Kyung-nam Province. Wall posts were found as post-holes, created after wooden posts had decayed. In this research, the role of wall posts is newly defined from the perspective of a construction engineering. While existing studies in archaeology regard wall posts as sub-posts that support the roof of a pit-house, this study views wall posts as piles installed to support the soil wall, not as sub-posts. Based on the existing reports on excavation in prehistoric settlement sites by archaeologists, the study examines the remnants of the wall posts and remains after a fire. The main findings of this study are threefold. First, the wall posts were installed not as posts but as piles, cut sharply and hammered along the building lines of a pit-house. Second, wall piles were used to support the walls during earthwork, such as excavating and banking for low ground, mostly because a large amount of soil is often lost during the process. Third, wall piles were used as post piles of retaining walls that enabled the installation of transverse wall panels, which were used to prevent the soil loss.

• Journal of Communications and Networks
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• 제17권2호
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• pp.100-109
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• 2015

Mobile phone carriers face challenges from three synergistic dimensions: Wireless, social, and mobile. Despite significant advances that have been made about social networks and human mobility, respectively, our knowledge about the interplay between two layers remains largely limited, partly due to the difficulty in obtaining large-scale datasets that could offer at the same time social and mobile information across a substantial population over an extended period of time. In this paper, we take advantage of a massive, longitudinal mobile phone dataset that consists of human mobility and social network information simultaneously, allowing us to explore the impact of human mobility patterns on the underlying social network. We find that human mobility plays an important role in shaping both local and global structural properties of social network. In contrast to the lack of scale in social networks and human movements, we discovered a characteristic distance in physical space between 10 and 20 km that impacts both local clustering and modular structure in social network. We also find a surprising distinction in trajectory overlap that segments social ties into two categories. Our results are of fundamental relevance to quantitative studies of human behavior, and could serve as the basis of anchoring potential theoretical models of human behavior and building and developing new applications using social and mobile technologies.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2013년도 제45회 하계 정기학술대회 초록집
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• pp.90.2-90.2
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• 2013

Vertically-aligned silicon nanostructure arrays (SNAs) have been drawing much attention due to their useful electrical properties, large surface area, and quantum confinement effect. SNAs are typically fabricated by chemical vapor deposition, reactive ion etching, or wet chemical etching. Recently, metal-assisted chemical etching process, which is relatively simple and cost-effective, in combination with nanosphere lithography was recently demonstrated for vertical SNA fabrication with controlled SNA diameters, lengths, and densities. However, this method exhibits limitations in terms of large-area preparation of unperiodic nanostructures and SNA geometry tuning independent of inter-structure separation. In this work, we introduced the layerby- layer deposition of polyelectrolytes for holding uniformly dispersed polystyrene beads as mask and demonstrated the fabrication of well-dispersed vertical SNAs with controlled geometric parameters on large substrates. Additionally, we present a new means of building in vitro neuronal networks using vertical nanowire arrays. Primary culture of rat hippocampal neurons were deposited on the bare and conducting polymer-coated SNAs and maintained for several weeks while their viability remains for several weeks. Combined with the recently-developed transfection method via nanowire internalization, the patterned vertical nanostructures will contribute to understanding how synaptic connectivity and site-specific perturbation will affect global neuronal network function in an extant in vitro neuronal circuit.

• Computers and Concrete
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• 제31권4호
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• pp.327-335
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• 2023

The most popular building material, concrete, is intrinsically linked to the advancement of humanity. Due to the ever-increasing complexity of cementitious systems, concrete formulation for desired qualities remains a difficult undertaking despite conceptual and methodological advancement in the field of concrete science. Recognising the significant pollution caused by the traditional cement industry, construction of civil engineering structures has been carried out successfully using Geopolymer Concrete (GPC), also known as High Performance Concrete (HPC). These are concretes formed by the reaction of inorganic materials with a high content of Silicon and Aluminium (Pozzolans) with alkalis to achieve cementitious properties. These supplementary cementitious materials include Ground Granulated Blast Furnace Slag (GGBFS), a waste material generated in the steel manufacturing industry; Fly Ash, which is a fine waste product produced by coal-fired power stations and Silica Fume, a by-product of producing silicon metal or ferrosilicon alloys. This result demonstrated that GPC/HPC can be utilised as a substitute for traditional Portland cement-based concrete, resulting in improvements in concrete properties in addition to environmental and economic benefits. This study explores utilising experimental data to train artificial neural networks, which are then used to determine the effect of supplementary cementitious material replacement, namely fly ash, Ground Granulated Blast Furnace Slag (GGBFS) and silica fume, on the compressive strength, tensile strength, and modulus of elasticity of concrete and to predict these values accordingly.

• 국제학술발표논문집
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• The 9th International Conference on Construction Engineering and Project Management
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• pp.426-432
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• 2022

HVAC systems play a critical role in reducing energy consumption in buildings. Integrating occupants' thermal comfort evaluation into HVAC control strategies is believed to reduce building energy consumption while minimizing their thermal discomfort. Advanced technologies, such as visual sensors and deep learning, enable the recognition of occupants' discomfort-related actions, thus making it possible to estimate their thermal discomfort. Unfortunately, it remains unclear how accurate a deep learning-based classifier is to recognize occupants' discomfort-related actions in a working environment. Therefore, this research evaluates the classification performance of occupants' discomfort-related actions while sitting at a computer desk. To achieve this objective, this study collected RGB video data on nine college students' cold discomfort-related actions and then trained a deep learning-based classifier using the collected data. The classification results are threefold. First, the trained classifier has an average accuracy of 93.9% for classifying six cold discomfort-related actions. Second, each discomfort-related action is recognized with more than 85% accuracy. Third, classification errors are mostly observed among similar discomfort-related actions. These results indicate that using human action data will enable facility managers to estimate occupants' thermal discomfort and, in turn, adjust the operational settings of HVAC systems to improve the energy efficiency of buildings in conjunction with their thermal comfort levels.

• 국제학술발표논문집
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• The 5th International Conference on Construction Engineering and Project Management
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• pp.14-20
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• 2013

Substantial research has been performed on the data standards and exchanges in the AEC/FM industry over the past several years. The growing popularity of BIM technology is based heavily upon a perception that the technology can facilitate the sharing and reuse of information during a project life-cycle. Although many researchers and practitioners are in agreement about the potential applicability and benefit of BIM in construction, it is still unclear why BIM is adopted, and what factors enhance implementation of BIM. Thus, BIM acceptance and use remains a central concern of BIM research and practice. Therefore, we propose the key factors affecting the acceptance of BIM in construction organizations using factor analysis. The key factors for BIM acceptance are identified through a literature review in TAM (Davis 1989) and related theories, and consolidated by interviews and pilot studies with professionals in construction industry. Based on the factors, a questionnaire was designed and sent out to construction organizations such as contractors, architects, and engineers in Korea. Total 148 completed questionnaires were retrieved. Using factor analysis, key factors were grouped into six dimensions. These findings will clarify what the highly prioritized factors are, and can also be used in an assessment tool for the performance of BIM utilization.

• Nuclear Engineering and Technology
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• 제56권8호
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• pp.3043-3066
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• 2024

In various small modular reactor (SMR) designs currently under development, the conventional concrete containment building has been replaced by a metal containment vessel (MCV). In these systems, the gap between the MCV and the reactor pressure vessel is filled with gas or vacuumed weakly, effectively suppressing conduction and convection heat transfer. However, thermal radiation remains the major mode of heat transfer during normal operation. The objective of this study was to investigate the heat-transfer mechanisms in integral pressurized water reactor (IPWR)-type SMRs under various gas-filled conditions using computational fluid dynamics. The use of thermal radiation shielding (TRS) with a much lower emissivity material than the MCV surface was also evaluated. The results showed that thermal radiation was always the dominant contributor to heat loss (48-97%), while the conjugated effects of the gas candidates on natural convection and thermal radiation varied depending on their thermal and radiative properties, including absorption coefficient. The TRS showed an excellent insulation performance, with a reduction in the total heat loss of 56-70% under the relatively low temperatures of the IPWR system, except for carbon dioxide (13%). Consequently, TRS can be utilized to enhance the thermal efficiency of SMR designs by suppressing the heat loss through the MCV.

• 한국전통조경학회지
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• 제33권1호
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• pp.1-11
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• 2015

신라왕경 경주는 그동안 고도의 경관골격으로서 성곽에 대한 가치에 관심이 부족했다. 경주를 포함한 많은 성곽들은 정비하여 야간 경관조명을 설치하거나 산성에 탐방로를 조성하는 것이 그간의 방법이었다. 이에 본 연구는 신라왕경 경주의 경관골격인 성곽에 대해 월성(月城)과 명활성(明活城)을 중심으로 역사적 경관적 가치를 살펴보고 조경학적 차원에서 기여할 수 있는 방안을 찾고자 하였다. 월성과 명활성은 신라시대 왕궁으로 기능하였던바 단순히 외형적 정비만을 통한 복원보다는 성곽 내부에 대한 자세한 조사와 연구가 필요하다. 월성의 경우 전면적인 발굴조사가 시행중에 있지만 산성지구를 대표하는 명활성은 세계유산이라는 명칭에 걸맞지 않은 관리로 인해 그 가치를 상실하고 있다. 이들 유적에 대해 면밀한 조사와 연구가 이루어진다면 왕궁으로 사용될 당시의 흔적을 통해 신라 왕궁의 조경사적 연구에 큰 기여를 하게 될 것으로 보인다. 경주지역 성곽유적에 대한 조경학적 차원의 연구방향으로는 첫째, 그동안 성곽의 형태와 축성방법 등에 치중한 연구에서 벗어나 성곽 내부공간까지 포함할 수 있는 연구가 필요하다. 월성과 명활성의 경우 신라시대 왕궁으로 기능했던바 원지, 누정, 수구시설, 괴석, 조산, 포장, 동선체계, 식재흔적 등에 대한 연구가 가능할 것이다. 이를 위해 비교 대상으로 동시대의 중국, 일본, 고구려의 사례와 비교를 통한 조사와 연구가 필요하다. 둘째, 정원고고학적 방법의 적용은 문헌기록이 빈약한 고대정원 연구에 있어서 객관적인 해석이 가능한 방법이다. 하지만 월성발굴조사에 있어 지금까지의 발굴처럼 고고학 중심의 발굴이 이루어진다면 얻을 수 있는 성과와 정보가 제한 될 것이다. 이러한 문제점에 대한 대안이 정원고고학의 토대를 통한 조경분야의 참여방안이다. 항공사진, 고고학적 조사, 역사적 건물 분석, 지표면 탐사, 발굴기법, 토양 및 화분분석 등을 통한 환경시료 채취, 유적 발견과 분석과 같은 정원고고학의 적용을 통해 월성을 포함한 신라왕경의 조사 및 연구에 활용한다면 조경학 차원의 많은 연구 성과를 이끌어 낼 수 있을 것이다. 이를 위해서는 조경학 전공자들의 고고학적 지식습득과 노력이 뒤따라야 할 것이다. 또한 정원고고학분야의 세계적 권위자를 초청하여 국제학술심포지엄을 통한 국내의 정원고고학에 대한 관심을 환기시킬 필요가 있다. 기타 월성과 경주지역 신라 성곽의 입지 연구, 성곽 내외 공간에 대한 수목 활용 및 처리방안 연구, 월성 해자의 조경학적 연구방향을 제안하였다.

• 헤리티지:역사와 과학
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• 제54권1호
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• pp.120-137
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• 2021

조선시대에는 5개의 궁궐이 있었다. 태조 4년(1395) 경복궁이 창건되고, 그 후 역사적 상황에 따라 창덕궁, 창경궁, 경운궁(덕수궁), 경덕궁(경희궁)이 추가로 중건되었다. 궁궐은 당대 최고의 건축을 대변한다고 할 수 있다. 또한 조선시대 궁궐은 수차례 중건과 소실을 반복하며 조선왕조 500여년 건축의 역사를 고스란히 담고 있다. 본고에서는 이러한 조선시대 5개 궁궐의 발굴 현황을 검토하여 건물의 기초인 건물지에 대해 연구하였다. 그 중에서도 특히 건물 기둥의 하중을 지탱하는 핵심 시설인 '적심(積心)'에 대한 분석을 통해 궁궐 건물지가 가지는 궁궐·시기별 특징을 파악하고자 하였다. 또한 적심의 편년을 통해 시기별 궁궐 건물 기초의 변화 양상을 확인하였다. 적심은 총 23개 형식이 확인되는데, 전반적으로 5개 궁궐 모두 I~V 형식의 일정한 적심 축조 방식을 가지고 있어 조선시대 궁궐 건물 기초 축조 방식에는 일정한 패턴이 있음을 확인할 수 있었다. 또한 14~17세기에는 일정하게 통일된 재료와 축조 방식(원형 잡석 적심(I-1))이 주를 이루다가 18세기 정조대를 기점으로 다소 다양해지는 양상을 새롭게 확인할 수 있었다. 이후 19세기 고종대에는 다양한 재료와 축조 방식으로 22가지 형식의 건물지 적심이 축조되는 것을 알 수 있었다. 그동안 궁궐 건물지 연구는 발굴조사가 많이 이루어진 경복궁 건물지가 주가 되어, 임진왜란 후 중건이 중단된 17~18세기 건물지의 편년을 확인할 수 없었다. 하지만 이번 연구를 통해 다른 궁궐의 건물지들을 함께 비교 검토함으로써 14세기 말~20세기 초 조선시대 전반에 걸친 궁궐 건물 기초 축조 방식의 시대적 흐름을 파악할 수 있었다.