This study is to analyze the geometrical composition system for the plan of S. Pietro by Michelangelo. In the result of study, the plan is based on the geometrical elements of circle square cross, and shaped to symbolize the Universe which consists of the Heaven the Earth the Man. The plan is constituted of the conception of composition into hierarchy and repetition intersecting 45 degree the same sized square with inscribed square in a circle. Such the geometrical composition system can be found out a large number of example to the geometrical composition of architecture and city planning from Vitruvius to Bramante and Da Vinci. This plan is disposed in balance as the regularly proportional system of 1:1, 1:2, 1:3, which is formed the principal space. And the interior space is constituted of the organic space system, expanding to the direction of horizontal, vertical(ascension), development for primary space and secondary space with center in the geometric composition system of altar.

A few archeological excavation of Buddhist temple sites of Koguryo were reported with information of site arrangement. The interpretation of such information is very important not only for the explanation of Korea early Buddhist architecture but also for the development of East Asian cases in general since no archeological evidences of the same period were found in other countries such as China. Though the investigation of the four temple sites this paper attempt to identify their date of construction and the process of change. The study depended much on comparative studies of the change of site elements such as pagoda, image hall., corridor, and other buildings. The study could conclude that the site of SangO-Ri must be the earliest case which was followed by ChungRung-Sa, which was built in around 427AD. The site of ToSung-Ri was the case which was the work of the rate 5th century. Such process of the development of Buddhist architecture in Koguryo unveils the fact that the process of change was a continuous flow toward a consistent goal of change that had much to do with the contemporary religious situation.

Near the Capital Seoul in 19th century, a special architectural form was created by the Buddhist monks who were related with Royal families. Their temples, so called 'won-dang', were constructed as supplicating places for their patrons' happiness and heavenly bliss. Among buildings of a Won-dang temple, 'Great Hall', which was accepted as a new building type, was the most important, the earliest constructed, and the biggest one. This boiling type contained the complex functions of small chaples, living rooms of monks, kitchen and dining, and pilotied pavillions. This Great Hall was located at the front of Won-dang temples, the main worship halls were at the behind. The type of Won-dang was needed for the high female who were its powerful patrons, and was oliginated from the small Buddhist temples in rural areas. And the type was able to be domiciled itself at the Capital areas because of the existing architectural fondness of the regional architects and the patrons in high class.

This study is concerned with developing a heuristic algorithm for solving a class of ninlinear integer programs(NLIP). Exact algrithm for solving a NLIP either may not exist, or may take an unrealistically large amount of computing time. This study develops a new heuristic, the Excursion Algorithm(EA), for solving a class of NLIP's. It turns out that excursions over a bounded feasible and/or infeasible region is effective in alleviation the risks of being trapped at a lical optimum. The developed EA is applied to the redundancy optimization problems for improving the system safety, and is compared with other existing heuristic methods. We also include simulated annealing(SA) method in the comparision experiment due to ist populatrity for solving complex combinatorial problems. Computational results indicate that the proposed EA performs consistently better than the other in terms of solution quality, with moderate increase in computing time. Therefore, the proposed EA is believed to be an attractive alternative to other heuristic methods.

Object of this study is to suggest the plan for natural vegetation restoration and management by ecological approach. The concept of biotope planting technique was introduced in order to restore the natural vegetation in the northern part of Mt. Nam in Seoul, and Quercus mongolica forests was surveyed so as to obtain the basic data. This study focused on the vegetational context between northern part of Mt. Nam and develop-reserved site. The results are following ; 1. It is suitable to plant 25~30 trees in 100m2 with trees of DBH 10cm and below at intervals of about 2m in canopy layer. In the case of subtree layer of DBH 2cm, about 30 trees were planted at an Intervals of 1.5~2m around in 100m2. 2. In the last step of nature vegetation restoration, it is desiable that canopy density is 5/100m2 and subtree one is 10~20/100m2. 3. Management plans was proposed to use the native species of Mt. Nam around and to investigate the ecological situation once a year such as species introduce, dead-tree, soil, fauna etc.

다구찌의 실험계획기법을 이용하여 탄소섬유/페놀수지의 결화싸이클을 연구하였다. 본 연구에서는 1인자 2수준과 7인자 3수준으로 구성된 L18(21 × 37) 직교배열표를 사용하였고, 특성치로 굴곡강도와 기공률을 선정하여 실험하였다. 실험계획법의 압축성형 인자로는 8개의 성형인자(승온속도, 가압온도, 성형압력, 경화온도, 경화온도에서의 유지시간, 냉각속도 및 탈기포)가 고려되었으며, 이들 성형인자가 탄소섬유/페놀수지 복합재료의 물성에 미치는 영향을 고찰하였다. 분산분석법으로 실험결과를 분석한 결과, 탄소섬유/패놀수지 복합재료의 굴곡강도에 가장 큰 영향을 미치는 성형인자는 성형압력이고, 기공률에 가장 큰 영향을 미치는 성형인자는 경화온도임이 밝혀졌다.