From Tetherless World Wiki
Citation: Brian Howley and Mark R. Cutkosky and Gautam Biswas. (1999) Composing and Sharing Dynmaic Models in an Agent-Based Concurrent Engineering Environment. In Knowledge Systems, AI Laboratory, June,1999.
| Publication inproceedings ( Edit )
|
| type | InProceedings
|
| bibtype | inproceedings
|
| Bibtex basics
|
| author | Brian Howley and Mark R. Cutkosky and Gautam Biswas
|
| title | Composing and Sharing Dynmaic Models in an Agent-Based Concurrent Engineering Environment
|
| booktitle | Knowledge Systems, AI Laboratory
|
| year | 1999
|
| month | June
|
| Bibtex more
|
| note | Proc. 1999 American Control Conference, pp. 3147-3153, San Diego, CA, June 2-4, 1999.
|
| Access Paper
|
| abstract | Sharing design information in a distributed engineering team is a challenging problem. Ideally, the information exchange should be flexible enough to accommodate different levels of abstraction required for different engineering design and analysis tasks. We propose a solution in which specialists, and the programs they use, are modeled as agents who share a common communication language and ontology. The ontology includes both a symbolic representation of the equations describing system behavior and the conditions (such as parameter ranges) over which the model is valid. We use a hybrid modeling paradigm to generate consistent models at multiple levels of abstraction and demonstrate the approach with design analysis tasks for a stepper motor actuated positioning system.
|
| KSL Technical Report ID: KSL-99-09
|
Facts about Composing and Sharing Dynmaic Models in an Agent-Based Concurrent Engineering EnvironmentRDF feed
| Abstract | Sharing design information in a distribute … Sharing design information in a distributed engineering team is a challenging problem. Ideally, the information exchange should be flexible enough to accommodate different levels of abstraction required for different engineering design and analysis tasks. We propose a solution in which specialists, and the programs they use, are modeled as agents who share a common communication language and ontology. The ontology includes both a symbolic representation of the equations describing system behavior and the conditions (such as parameter ranges) over which the model is valid. We use a hybrid modeling paradigm to generate consistent models at multiple levels of abstraction and demonstrate the approach with design analysis tasks for a stepper motor actuated positioning system. stepper motor actuated positioning system. |
| Author | Brian Howley and Mark R. Cutkosky and Gautam Biswas + |
| Bibtype | inproceedings + |
| Booktitle | Knowledge Systems, AI Laboratory + |
| Has author | Brian Howley and Mark R. Cutkosky and Gautam Biswas + |
| Has identifier | KSL-99-09 + |
| Has publishing details | June,1999 + |
| Has title | Composing and Sharing Dynmaic Models in an Agent-Based Concurrent Engineering Environment + |
| Has where published | Knowledge Systems, AI Laboratory + |
| Has year | 1999 + |
| Ksl tr id | KSL-99-09 + |
| Month | June + |
| Note | Proc. 1999 American Control Conference, pp. 3147-3153, San Diego, CA, June 2-4, 1999. |
| Process note | NO + |
| Title | Composing and Sharing Dynmaic Models in an Agent-Based Concurrent Engineering Environment + |
| Year | 1999 + |
