Modelling collaborative knowledge to support engineering design project manager
Computers in Industry
DISCOBOLE: a service architecture for interconnecting workflow processes
Computers in Industry - Special issue: Collaborative environments for concurrent engineering
WSCPC: an architecture using semantic web services for collaborative product commerce
Computers in Industry - Special issue: Collaborative environments for concurrent engineering
Process-centric engineering web services in a distributed and collaborative environment
Computers and Industrial Engineering - Special issue: Logistics and supply chain management
Dynamic workflow model fragmentation for distributed execution
Computers in Industry
Dynamic workflow change in PDM systems
Computers in Industry
Collaborative product innovation: integrating elements of CPI via PLM framework
Computer-Aided Design
STEP-based quality diagnosis of shape data of product models for collaborative e-engineering
Computers in Industry - Special issue: Advanced computer support of engineering and service processes of virtual enterprises
Schema and solutions for decentralised multi-project scheduling problem
International Journal of Computer Applications in Technology
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Increasing economic competition, globalisation and well-informed demand is constantly challenging companies. Past research efforts paid to supplier-involved Collaborative Product Development (CPD) mainly related on collaboration method, platform, tools and standards. Unlike the past, the performance of an enterprise now depends much on the performance of its partners in the value chain. To address such challenges, this study proposes a framework of supplier-involved CPD and a new method to analyse the collaborative scenario and interaction relationships. A new supplier-involved CPD framework in product lifecycle management is presented in details in this paper, which consists of three layers: Supplier Collaborative Business model, Supplier Collaborative Process model and Supplier Collaborative Operation model. The collaborative scenario and interaction is analysed using five processes, which are product planning, conceptual design, detailed design, design review and project management. A case study is demonstrated to show the efficiency and effectiveness of the framework developed in this paper.