Now showing 1 - 3 of 3
  • Publication
    Technical architecture for configurable working environments for SMEs
    ( 2009)
    Langenberg, D.
    ;
    Dryndos, J.
    Collaborations between SME are different than the traditional OEM-supplier chains. Here are other requirements in the focus of interest: Low costs are often more important than powerful and complex software products as well as flexibility to integrate with any kind of application is more necessary than already available integration solution for big enterprise application, which are only sporadic used in SMEs. Therefore the CoVES (Collaborative Virtual Engineering for SMEs) project followed a new approach for flexible integration of web applications in collaboration environments. The approach differs from the currently promoted service oriented architectures. This paper focuses on two technical aspects of the CoVES architecture: Mashup concept, which is a technology for a seamless integrati on of web applications, and Single Sign On for an easy access on the distributed data sources.
  • Publication
    Collaborative virtual engineering for SMEs: Technical architecture
    ( 2008)
    Dryndos, J.
    ;
    Kazi, A.S.
    ;
    Langenberg, D.
    ;
    Löh, H.
    ;
    Stark, R.
    Collaboration and mobility are two actual trends in new product development today. Due to the globalization of the economies and the outsourcing of specific tasks, companies have to work together as Virtual Organisations. However, the work environments of the collaborating people are very complex. In every company different processes and IT systems are used. Additionally, people are seldom at their company site, especially in small and medium sized companies (SME) the key personnel are often on the road. There they have no access to their digital files and information resources of their companies. This paper describes the architecture concept of a mobile collaborative environment addressing these problems.
  • Publication
    Aspekte des Virtual Engineering im Schiffbau
    ( 2004)
    Lukas, U. von
    ;
    Hayka, H.
    ;
    Schulte, G.
    Der Beitrag stellt wesentliche Ergebnisse aus dem BMBF-Projekt InViS -- Integrierter Virtueller Schiffbau vor. Hierzu zählen das als XML-Schema codierte Datenmodell, die offene Integrationsplattform sowie verschiedene darauf aufbauende Komponenten für Telekooperation, VR-Präsentation, Simulation und Anbindung von CAD-Systemen. Die Projektergebnisse werden im Kontext des Virtuellen Maschinenraums in zwei Anwendungsszenarien evaluiert und verdeutlichen das Potential des integrativen Ansatzes zur Unterstützung durchgängiger Prozessketten.