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Web과 모바일 기술을 이용한 자동차 프레스 금형의 불량 관리
이강걸(Kang Kul Lee),노상도(Sang Do Noh),양철모(Chul Mo Yang),이창호(Chang Ho Lee),이인석(In Seok Lee),송명환(Myung Whan Song) 한국자동차공학회 2004 한국자동차공학회 춘 추계 학술대회 논문집 Vol.- No.-
There has been many research activities in the area of fault managements of distributed manufacturing environments. This paper proposes and implements a web-based fault management system with some mobile technologies, such as wireless LAN, SMS and etc. Web-based project document management system, web-based fault management system and web-based tryout management system are developed and adopted to an automotive die shop of a Korean Automobile company, and as-is, to-be business process and supporting applications for fault managements are discussed in this paper.
이강걸(Kang Kul Lee),노상도(Sang Do Noh) 한국자동차공학회 2005 한국자동차공학회 춘 추계 학술대회 논문집 Vol.2005 No.11_3
To achieve new product development and quality, cost saving, information technologies for manufacturing company in product, process, manufacturing system are needed. Engineers and process planners should make decisions in the manner of collaborative engineering ill order to reduce the manufacturing preparation time and cost during developing new products. This paper proposes and develops material addressing optimization system using digital virtual factory. This is not only to carry out material addressing in factory layout but also focus to optimize number of workers, operation scope of worker in material address optimization. Also, it enables engineers to evaluate and verify their decision fast and to save time, cost for material address planning.
박영진(Yong-jin Park),황인걸(In Gurl Hwang),정경훈(Kyung Hoon Chuang),이강걸(Kang Kul Lee),허준(Jun Heo),노상도(Sang Do Noh) 한국자동차공학회 2003 한국자동차공학회 춘 추계 학술대회 논문집 Vol.- No.-
To ensure competitiveness in the modern automotive market, material arrangements and information managements should be performed concurrently with new car developments. In automotive general assembly shops, thus, new business workflows and supporting environments are inevitable to reduce the manufacturing preparation time in developing a new car in the manner of concurrent and collaborative engineering. Since complete material arrangements for a whole general assembly system is a huge and complex job, several planners should execute their planning jobs and share information. Therefore, each planner should provide others with his/her results with continuous on-line communication and cooperation. In this research, a web-based system for concurrent and collaborative material arrangements for automotive general assembly via 3D mock-up is developed. By using this system, savings in time and cost of material arrangements are possible, and the reliability of the planning result is improved.<br/>