민가건축은 건축에 있어 일정한 건축적 규범이 존재하여 하나의 모듈이 확인되는 관영건축이나 종교건축과 다르게 그 지 역의 자연환경과 건축주의 인문환경을 반영하여 다양한 형태가 확인된다. 이러한 민가건축 중에 구례 운조루고택은 초기의 배치가 그려진 것으로 추정되는 ‘전라구례오미동가도’와 창건주인 유이 주 사망 이후 재산을 나누는 분재기인 ‘장자구처기’ 뿐만 아닌 다양한 기록을 통해 그 변천이 명확하게 확인되어 그 역사적 가치를 가진다. 하지만 현재 구례 운조루에 관한 건축적 연구의 대부분은 풍수지리적 관점에서 분석이나, 전체적인 건물의 배치형태에 관한 연구가 대부분이다. 따라서 본 연구에서는 대표적인 민가건축인 구례 운조루 고택의 안채를 살펴보고 안채에서 확인되 는 건축기술사적 특징에 대하여 살펴보고자 한다.

Recently, an unprecedented emerging infectious disease has rapidly spread, causing a global shortage of wards. Although various temporary beds have appeared, the supply of wards specializing in infectious diseases is required. Negative pressure isolation wards should maintain their function even after an earthquake. However, the current seismic design standards do not guarantee the negative pressure isolation wards’ operational (OP) performance level. For this reason, some are not included in the design target even though they are non-structural elements that require seismic design. Also, the details of non-structural elements are usually determined during the construction phase. It is often necessary to complete the stability review and reinforcement design for non-structural elements within a short period. Against this background, enhanced performance objectives were set to guarantee the OP non-structural performance level, and a computerized tool was developed to quickly perform the seismic design of non-structural elements in the negative pressure isolation wards. This study created a spreadsheet-based computer tool that reflects the components, installation spacing, and design procedures of non-structural elements. Seismic performance review and design of the example non-structural elements were conducted using the computerized tool. The strength of some components was not sufficient, and it was reinforced. As a result, the time and effort required for strength evaluation, displacement evaluation, and reinforcement design were reduced through computerized tools.

Interest in the rammed construction method using eco-friendly materials is increasing in modern architecture. However, the work of construction is not convenient and will require a lot of manpower and time. This study proposes an automation compactor consisting of a compactor frame, crank arm, servo motor, wire, and a compactor hammer. The compactor hammer is fixed on the wire to achieve up-down movement by servo motor. And the state of up-down movement of the proposed compactor in 4 steps was had a dynamic analyzed. Through the actual compression experiment, the reliability of the proposed compactor is verified and is expected to be used in rammed earth construction.

This study aimed to elucidate the architectural characteristics of the cathedral architecture of the Archdiocese of Gwangju, which was completed in the period of liberation and turbulence, and the conclusions are as follows. Gwangju Archdiocese Cathedral, completed during the period of liberation and turbulence, was built with some assistance from the U.S. military or with the efforts of the faithful, and there are a number of factors such as space directing by Aps, the development of a simplified bell tower, the appearance of a stone cathedral, the application of a quenset structure, and an increase in size. show special features The indented apse appears only after liberation, and is a characteristic that appears prominently in stone churches. The simplified form in which the bell was hung by raising the outer wall appeared in the early church shows a change in the composition with a porch in front. The stone church and the quanset-structured church only appeared after liberation and were built only in the 1950s. The size of the cathedral reflects the increase in the number of believers after the Korean War, and the average area is about 1.5 times higher than before liberation. When considering the spacing of the bays as a module, the size plan followed the implicit norm of early cathedral architecture of 36.5m, but gradually decreased to 2.7m and 2.4m.

본 논문의 목적은 건축물을 드론으로 계측하여 드론의 비행 및 촬영 변수에 따른 계측 정확도를 분석하는 것이다. 드론의 비 행 및 촬영 변수는 비행고도 3가지(50m, 60m, 70m), 중복도 4가지(60%/60%, 60%/80%, 80%/60%, 80%/80%), 카메라 각도 2가지(45°, 90°), 속도 2가지(2m/s, 최고속도)이며, 총 48번을 계측하였다. 드론으로 계측하여 얻은 3D 데이터와 실제 건축물의 길이를 비교하였으 며, 드론의 비행 속도가 느릴수록 정확도가 높게 나타났다.