Commonsense reasoning about causality: deriving behavior from structure
Artificial Intelligence - Special volume on qualitative reasoning about physical systems
Artificial Intelligence - Special volume on qualitative reasoning about physical systems
Diagnostic reasoning based on structure and behavior
Artificial Intelligence - Special volume on qualitative reasoning about physical systems
Qualitative reasoning about physical systems
Qualitative reasoning about physical systems
Artificial Intelligence
Qualitative physics: past, present, and future
Exploring artificial intelligence
Model-based reasoning: troubleshooting
Exploring artificial intelligence
Intelligence in scientific computing
Communications of the ACM
Design problem solving: a task analysis
AI Magazine
A knowledge based approach to VLSI CAD the redesign system
DAC '84 Proceedings of the 21st Design Automation Conference
From “folklore” to “living design memory”
CHI '93 Proceedings of the INTERACT '93 and CHI '93 Conference on Human Factors in Computing Systems
Diamon: A Model-Based Troubleshooter Based on Qualitative Reasoning
IEEE Expert: Intelligent Systems and Their Applications
Extending Component Connection Modeling for Analyzing Complex Physical Systems
IEEE Expert: Intelligent Systems and Their Applications
Causal reasoning using geometric analysis
Artificial Intelligence for Engineering Design, Analysis and Manufacturing
A representation for comparing simulations and computing the purpose of geometric features
Artificial Intelligence for Engineering Design, Analysis and Manufacturing
Functional reasoning theories: Problems and perspectives
Artificial Intelligence for Engineering Design, Analysis and Manufacturing
Living design memory: framework, implementation, lessons learned
Human-Computer Interaction
CFRL: A language for specifying the causal functionality of engineered devices
AAAI'93 Proceedings of the eleventh national conference on Artificial intelligence
Hi-index | 0.00 |
A language called Ted for representing teleological descriptions and a design method in which these descriptions can be captured and subsequently used for design reuse are described. The language is independent of any particular structure or behavior description language, but it builds on generalizations of such languages. Ted expresses the purpose of a component or activity in terms of behaviors prevented, guaranteed, or introduced by the component or activity. Given representation and acquisition schemes, system builders call use descriptions of purpose in explanation, diagnostic, and design systems. They can also use these descriptions to reuse designs and to diagnose the designed artifact in the future.