최근 디지털 의상으로 제품을 만드는 것이 활성화됨에 따라서 삼차원 공간의 컴퓨터 그래픽을 이용하는 게 임엔진을 및 3D Tool로 샘플을 만들기 시작했다. 이러한 트렌드에 따라서 밴드 기업들은 디지털 의류 모델 을 화상 회의 프로그램을 이용하여 협업하기 시작했다. 하지만 화상 회의에서의 원격화면 공유 기능은 각 공유자의 바탕화면 혹은 각 사용자가 사용하고 있는 데스크탑에 보여지는 화면만을 공유하여 발표화면을 보여주는 기능에 그치고 있어 협업작업에서 필요한 사용자 간의 상호작용을 지원하기에는 부족한 점이 있 다. 본 연구에서는 디지털 의상 협업 작업 시 화상 회의를 사용함에 있어서 불편한 점들을 개선하고 회의를 효율적으로 진행하기 위한 Framework를 제작했다. 프레임워크 제작을 위해 Unity3D 게임엔진과 WebRTC 그 리고 Javascript를 사용하였으며, 중계서버 제작을 위하여 클라우드 AWS 서비스를 사용했다. 시연 결과 화상 회의 참여자들은 스크린에 인터랙션을 할 수 있었으며 따로 프로그램을 설치할 필요가 없었다. 그리고 최대 해상도를 1440p까지 높여 기존의 화상 회의에서의 화질을 더 개선할 수 있었다. 해당 시연 결과를 통하여 기존의 다른 화상 회의 앱과 기능들을 비교하여 제안한 Framework의 효용성을 검증했다.
Concurrent Engineering (CE) has presented new possibilities for successful product development by incorporating various product life-cycle functions from the earlier stage of design In the product design, geometric representation is vital not only in its
본 논문에서는 한국기계연구원에서 개발된 자동차 서스펜션을 대상으로 한 협업설계 지원 엔지니어링 프레임워크 개발에 관하여 기술한다. 개발된 엔지니어링 프레임워크는 각 분야별 전문가 지식에 기초한 엔지니어링 task agent를 포함한 다양한 복수 계층의 소프트웨어 에이전트로 구성된다. 본 프레임워크는 폭 넓은 국내 중소제조기업 적용 확산을 목적으로 JADE(Java Agent Development Framework)와 같은 공개 소스 프로그램 기반으로 개발하였으며, 프레임워크의 확장성을 유지하기 위하여 관련 H/W 및 응용 S/W의 독립성을 가능한 한 유지하도록 노력하였다. 개발된 프레임워크는 제품개발과 정에 있어 지역적으로 분산된 사용자 및 엔지니어링 자원 등을 효과적으로 활용할 수 있는 통합된 협업 설계환경을 제공한다. RR/FR lower arm 및 RR cross member와 같은 몇 개의 실제 자동차 서스펜션 모듈의 설계엔지니어링 문제에의 적용을 통하여 본 시스템의 적용성과 효율성을 확인하였다.
The curtain wall design process of Korea can be mainly divided into Basic DWG phase performed in architectural design phase and Shop DWG phase performed in the curtain wall design phase. The designing in such process (the process of going over to Shop from Basic) is being performed mainly by the outcome. So it is difficult to communicate between subjects because the decision making or flow of information gets accomplished as one-way. Especially, because the curtain wall designing accomplished in the architectural design process gets performed without reflecting the engineering technology, it causes many problems in the design phasesuch as change of design or delay of decision making. In order to make an improvement on such problem, it is estimated that the existing one-way designing can be improved into the one based on cooperation by enabling the exchange of decision making details between concerned parties in the curtain wall design phase in this study and ultimately proposes a curtain wall design management system which enables generation and alteration of information on curtain wall products, information gathering and sharing of information, etc by materializing a design system of simultaneous engineering concept.
Especially, MTO(Make-To-Order) companies take collaborative approaches with their partner companies to make lowprice products and/or technologically low intensive products. The collaborative approach to manufacturing requires collaboration with partner
An issue of globalized and competitive business environment is a transformation of manufacturing strategy for rapidly product development. To copy with these trends, building up a market from various product is becoming conspicuous the core strategy of manufacture. Therefore, it is increasing of necessity for the environment of collaborative product development. As a part of corresponding for these demands, we propose the method that allows easy and rapid integration of legacy resources within the company and between departments. The proposed framework can easily construct a distributed environment for collaborative design between departments in the companies. It was implemented using CO<SUP>TM</SUP> based on DOME (Distributed Object-based Modeling Environment) that is knowledge based engineering solution.
This study is about a design method for deriving task safety scenarios for the application of collaborative robots. A five-step process for deriving task safety scenarios for collaborative robots has been proposed, which focuses on the type of collaboration between human and collaborative robot. The three types of collaboration were classified according to the collaboration workspace and the worktime of human and collaborative robot. Based on these three types of collaboration, task safety scenarios include scenarios that predict risk from unintended use during work. Collaboration with collaborative robot is a human-centered process because human actions can create dangerous situations. Besides, we improved the understanding of this design methodology by presenting examples of the application of task safety scenarios according to the process for each type of collaboration.
Collaborative Robot (Cobot) that can collaborate with humans by fusion with many advanced technologies among industrial robots in the industrial field are attracting attention. In this study, the engineers of Small and Medium Enterprises can directly participate in the cobot design, and ultimately, the possibility of deriving the shape design of the differentiated cobot was studied. The method applied to derive the shape design of differentiated cobot is ‘Morphological Analysis’. First, the design elements of the form of cobots were derived as ‘Link’ and ‘Joint’. In addition, by analyzing the image form of the Link and Joint of the existing cobot, a new form element of the Link and Joint was proposed. In order to quantitatively identify the most discriminating cobot shape design, FGI (Focus Group Interview) was conducted to derive image types of 4 Link and 3 Joint. Then, the most important ‘Shape Combination’ was carried out in morphological analysis, and 12 new cobot shape designs were drawn. Through this, the applicability of the morphological analysis method in the derivation of differentiated cobot shape design was examined.