Multiagent negotiation under time constraints
Artificial Intelligence
Coloured Petri nets (2nd ed.): basic concepts, analysis methods and practical use: volume 1
Coloured Petri nets (2nd ed.): basic concepts, analysis methods and practical use: volume 1
The sciences of the artificial (3rd ed.)
The sciences of the artificial (3rd ed.)
Identifying controlling features of engineering design iteration
Management Science
A model-based framework to overlap product development activities
Management Science - Special issue on frontier research in manufacturing and logistics
Petri Nets and Grafcet: Tools for Modelling Discrete Event Systems
Petri Nets and Grafcet: Tools for Modelling Discrete Event Systems
Project Management: A Systems Approach to Planning, Scheduling, and Controlling
Project Management: A Systems Approach to Planning, Scheduling, and Controlling
A PRINCIPLE-AGENT MODEL FOR DISTRIBUTED, COLLABORATIVE DESIGN NEGOTIATION
Journal of Integrated Design & Process Science
An intelligent method for selecting optimal materials and its application
Advanced Engineering Informatics
A social interaction analysis methodology for improving E-collaboration over the Internet
Electronic Commerce Research and Applications
A functional-commercial analysis strategy for product conceptualization
Expert Systems with Applications: An International Journal
A quality-time-cost-oriented strategy for product conceptualization
Advanced Engineering Informatics
Product lifecycle management (PLM) to support product development processes
Proceedings of the 4th International ICST Conference on Simulation Tools and Techniques
Business process design: Process comparison and integration
Information Systems Frontiers
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Collaborative engineering design involves various stakeholders with different perspectives. The design process is relatively complex and difficult to handle. Various conflicts always happen among the design tasks and affect the design team performance. Therefore, to represent the collaborative design process and capture the evolution of design perspectives in a structured way, it is critical to manage the design conflicts and improve the collaborative design productivity. This article provides a generic collaborative design process model based on a sociotechnical design framework. This model has a topological format and adopts process analysis techniques from Petri Nets. By addressing both the technical and social aspects of collaborative design activities, it provides a mechanism to identify the interdependencies among design tasks and perspectives of different stakeholders. Based on this design process model, a methodology of detecting and handling the design conflicts is developed to support collaborative design coordination.