Artificial Intelligence
Design problem solving: knowledge structures and control strategies
Design problem solving: knowledge structures and control strategies
Design problem solving: a task analysis
AI Magazine
Constraint reasoning based on interval arithmetic: the tolerance propagation approach
Artificial Intelligence - Special volume on constraint-based reasoning
Introduction to knowledge systems
Introduction to knowledge systems
Software product-line engineering: a family-based software development process
Software product-line engineering: a family-based software development process
A Classification and Comparison Framework for Software Architecture Description Languages
IEEE Transactions on Software Engineering
An overview of the ONIONS project: applying ontologies to the integration of medical terminologies
Data & Knowledge Engineering - Special issue on formal ontology and conceptual modeling
Feature-Oriented Project Line Engineering
IEEE Software
Configuring Large Systems Using Generative Constraint Satisfaction
IEEE Intelligent Systems
Sales Configuration in Business Processes
IEEE Intelligent Systems
Evolution of Schema and Individuals of Configurable Products
ER '99 Proceedings of the Workshops on Evolution and Change in Data Management, Reverse Engineering in Information Systems, and the World Wide Web and Conceptual Modeling
The description logic handbook: theory, implementation, and applications
The description logic handbook: theory, implementation, and applications
Generative constraint-based configuration of large technical systems
Artificial Intelligence for Engineering Design, Analysis and Manufacturing
Towards a general ontology of configuration
Artificial Intelligence for Engineering Design, Analysis and Manufacturing
A classification and constraint-based framework for configuration
Artificial Intelligence for Engineering Design, Analysis and Manufacturing
A Real-Time Scene Understanding System for Airport Apron Monitoring
ICVS '06 Proceedings of the Fourth IEEE International Conference on Computer Vision Systems
Evaluation and Knowledge Representation Formalisms to Improve Video Understanding
ICVS '06 Proceedings of the Fourth IEEE International Conference on Computer Vision Systems
Model Driven Architecture and Ontology Development
Model Driven Architecture and Ontology Development
Configuration in Industrial Product Families: The ConIPF Methodology
Configuration in Industrial Product Families: The ConIPF Methodology
An overview of knowledge‐based configuration
AI Communications
Video understanding for complex activity recognition
Machine Vision and Applications
On the Design and Development of Program Families
IEEE Transactions on Software Engineering
Development of a product configuration system with an ontology-based approach
Computer-Aided Design
High-Level Expectations for Low-Level Image Processing
KI '08 Proceedings of the 31st annual German conference on Advances in Artificial Intelligence
Towards a generic model of configuraton tasks
IJCAI'89 Proceedings of the 11th international joint conference on Artificial intelligence - Volume 2
A structure based configuration tool: drive solution designer - DSD
IAAI'02 Proceedings of the 14th conference on Innovative applications of artificial intelligence - Volume 1
Parsing SBVR-Based Controlled Languages
MODELS '09 Proceedings of the 12th International Conference on Model Driven Engineering Languages and Systems
Assessing the maintainability of XCON-in-RIME: coping with the problems of a VERY large rule-base
AAAI'87 Proceedings of the sixth National conference on Artificial intelligence - Volume 2
Dynamic constraint satisfaction problems
AAAI'90 Proceedings of the eighth National conference on Artificial intelligence - Volume 1
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Configuration technologies are typically applied in domains with physical products. In this article, we determine characteristics of configuration technologies that are used to compose non-pure physical products. Starting from two case studies software-intensive systems and scene interpretation where we successfully applied configuration, we determine some characteristics of knowledge representation languages and configuration systems that enable to solve configuration tasks in domains beyond pure physical products. As such, the article provides thinking outside the box of physical product configuration.