• Korean Architects
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• s.531
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• pp.92-97
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• 2013

• The monthly packaging world
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• s.273
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• pp.101-109
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• 2016

굿디자인(GOOD DESINE)이란 산업통상자원부가 주최하고 한국디자인진흥원의 주관 아래, 산업디자인진흥법에 의거하여 상품의 외관, 기능, 재료, 경제성 등을 종합적으로 심사하여 디자인의 우수성이 인정된 상품에 GOOD DESINE 마크를 부여하는 제도로 1985년부터 매년 시행해 오고 있다. GD마크 선정제란 우수한 디자인 상품개발을 장려하여 국가 경쟁력을 확보하고 국민 삶의 질 향상에 기여하는 것을 목표로 하고 있으며, 나아가 유니버설디자인, 서비스디자인, 전통시장, 산업단지 디자인을 고도화(우수디자인 선정, 장려 등)함으로써 사회적 문제해결과 지속가능한 창조경제를 실현하는데 그 의의가 있다. 선정 대상 품목으로는 제품디자인, 환경디자인, 소재표면처리디자인, 패션디자인, 포장디자인, 커뮤니케이션디자인, 건축디자인 패션디자인으로 대통령상 1점을 비롯해 국무총리상, 대상, 최우수상 등을 시상하고 있다. 굿디자인 상품은 향후 조달청이 시행하는 우수제품선정 및 물품구매 적격심사 시 우대되며, 중소기업청이 시행하는 수출유망중소기업지정 및 수출기업화 사업평가시 우대받을 수 있다. 마크사용에 있어 호주 디자인상(AIDA)과의 상호인증으로 마크 부착이 가능하다. 본 고에서는 2015년 우수디자인(GD)으로 선정된 제품 가운데 생활 포장 및 산업포장 부문 수상작들과 일부 선정된 제품들을 살펴본다.

• Journal of the Korea Institute of Building Construction
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• v.23 no.6
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• pp.773-784
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• 2023

Since 2007, the government has been actively working to enhance the quality of public buildings, as evidenced by initiatives like the "National Basic Architecture Plan" and, since 2014, the "Building Service Industry Promotion Act." Despite these efforts, educational facilities continue to experience more frequent defects compared to large-scale apartment constructions. This study aims to analyze the primary causes of crack formation in educational facilities, employing the 2×2 MATRIX and IPA techniques to develop efficient crack prediction models. The research includes a review of relevant literature and an analysis of data from the Office of Education spanning 2019 to 2021 to pinpoint significant defects. Subsequently, 15 factors related to crack defects were identified through surveys and expert consultations. The 2×2 Matrix analysis of these factors highlighted the challenges in work processes and the effectiveness of preventative measures for crack formation, focusing on key areas for improvement. The findings from this study are anticipated to significantly contribute to the prevention and management of structural cracks in educational facilities, ensuring their long-term integrity.

• Journal of KIBIM
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• v.6 no.3
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• pp.49-56
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• 2016

As project opportunities for the Architecture, Engineering and Construction (AEC) industry have grown more complex and larger, the utilization of Building Information Modeling (BIM) technologies for three-dimensional (3D) design and simulation practices has been increasing significantly; the typical applications of the BIM technologies include clash detection and design alternative based on 3D planning, which have been expanded over to the technology of construction management in the AEC industry for virtual design and construction. As for now, commercial BIM software has been operated under a single-user environment, which is why initial costs for its introduction are very high. Cloud computing, one of the most promising next-generation Internet technologies, enables simple Internet devices to use services and resources provided with BIM software. Recently in Korea, studies to link between BIM and cloud computing technologies have been directed toward saving costs to build BIM-related infrastructure, and providing various BIM services for small- and medium-sized enterprises (SMEs). This study addressed development of the usage metering functions of BIM software under cloud computing architecture in order to archive and use BIM data and create an optimal revenue structure so that the BIM services may grow spontaneously, considering a demand for cloud resources. For the reason, we surveyed relevant cases, and then analyzed needs and requirements from AEC industry. Based on the relevant cases, customizing for cloud BIM and design for the development was performed. We also surveyed any related-law to support cloud computing-based BIM service. Finally, we proposed herein how to optimally design and develop the usage metering functions of cloud BIM software.