Internet of Thing(IoT), which is recently talked about with the development of information and communication technology, provides big data to all nodes such as companies and homes, means of transportation etc. by connecting all things with all people through the integrated global network and connecting all actual aspects of economic and social life with Internet of Thing through sensor and software. Defining Internet of Thing, it plays the role of a connector of providing various information required for the decision-making of companies in the cloud computing environment for the Insight usage by collecting and storing Raw Data of the production site through the sensor network and extracting big data in which data is accumulated and Insight through this. In addition, as the industry showing the largest linkage with other root industries among root industries, the mold industry is the core technology for controlling the quality and performance of the final product and realizing the commercialization of new industry such as new growth power industry etc. Recently, awareness on the mold industry is changing from the structure of being labor-intensive, relying on the experience of production workers and repeating modification without the concept of cost to technology-intensive, digitization, high intellectualization due to technology combination according to IT convergence. This study, therefore, is to provide a golden opportunity to increase the direct and indirect expected effects in poor management activities of small businesses by actually implementing and managing the entire process of mold life cycle to information system from mold planning to mass production and preservation by building SME(small and medium-sized enterprises)-type mold life cycle management information system in the cloud computing environment and applying it to the production site.

현재 토사재해 방재시설은 법적으로「사방사업법」,「국토의 계획 및 이용에 관한 법률」에 의한 사방시설이 있으나 대부분 산지 대책 중심이고, 실제로 피해를 받는 도심지에는「시설물의 안전관리에 관한 특별법」에 의한 일부 2종시설물이 있으나 다양한 대책이 미흡하고 관리기관이 명확하지 않아 현실적으로 그마저도 제대로 관리가 되지 않고 있는 실정이다. 이에 본 연구에서는 도심지 토사재해 방재시설에 대한 효율적 관리 및 장기간 사용을 도모하기 위해 도심지 토사재해 방재시설에 대한 생애주기별 업무프로세스를 정의하고 시설물 현황, 관리 이력, 문제점 등을 정량적, 통계적으로 파악하고 관리할 수 있는 항목을 설정하였다. 우선 토사재해 방재시설 현황분석을 통해 본 연구의 토사재해를 정의하였으며, 과거 피해지역의 토지이용 특성 분석을 통해 구분한 토사재해 공간적 범위를 적용하여 본 연구의 도심지 토사재해 방재시설을 정의 및 분류하였다. 또한 일반적인 생애주기단계를 토사재해 방재시설 측면에 적용하여 생애주기별 업무를 분석하고 도심지 토사재해 방재시설을 통합적으로 관리할 수 있는 생애주기별 관리항목 설정 및 관리방향, 업무프로세스를 도출하였다.

In this study, a bridge maintenance system is developed to generate performance based maintenance strategy by considering the life cycle cost(LCC). And it is proposed that the concept of generally annual maintenance are practically and easily used to perform LCC analysis. Some of generally annual maintenance data are suggested through existing data analysis due to the proposed concept and LCC analysis of by a real bridge structures is preformed by comparison with a current approach. This paper presents the development of bridge maintenance strategy and can be utilized as an efficient tool to provide the best economical bridge maintenance scenario corresponding to the various constraints and requirements of bridge agency.