LABORATORY 2.0 Towards an Integrated Research Environment for Engineering Mechanics
Cooperation Support Systems, respectively CSCW-Systems, increasingly offer standardized interfaces to allow their integration into university-wide IT infrastructures. However, several disciplines (e.g. engineering and medical science) require the use and seamless integration of additional applications to meet researchers requirements and support collaboration in a sustainable manner. This articles outlines the possibilities to integrate high-tech laboratories into existing IT infrastructures to strengthen the exchange of information among teaching, research, and industry. Since, laboratory components are usually characterized by proprietary interfaces, we replaced these manufacturer-specific interfaces and protocols by a service-oriented architecture for laboratories. Therefore, functionalities of laboratory components will be encapsulated as a service and made accessible by Linux Field-Bus Couplers. The modularization of the laboratory allows the connection to the world of e-learning documents. This article highlights the symbiosis between research in engineering and teaching at universities. The authors explain in the article that not only the research can take a significant influence on teaching, but also vice versa, the teaching is a part of the later researches in laboratories.
Engineering Integration Laboratory Mechanics Modularization SOA
Jonas Schulte Reinhard Keil Johann Rybka Ferdinand Ferber
Heinz-Nixdorf-Institute, University of Paderborn, Fuerstenallee 11, 33102 Paderborn, Germany Department of Engineering Mechanics, University of Paderborn, Warburger Str. 100, 33098 Paderborn, G
国际会议
13th International Conference on Enterprise Information System(第13届企业信息系统国际会议 ICEIS 2011)
北京
英文
994-999
2011-06-08(万方平台首次上网日期,不代表论文的发表时间)