Intelligent Real-Time Monitoring and Control
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Citation: Barbara Hayes-Roth and Richard Washington and Rattikorn Hewett and Micheal Hewett and Adam Seiver. (1989) Intelligent Real-Time Monitoring and Control. In KSL-89-05, January,1989.
| Publication techreport ( Edit ) | |
| type | Technical Report |
| bibtype | techreport |
| Bibtex basics | |
| author | Barbara Hayes-Roth and Richard Washington and Rattikorn Hewett and Micheal Hewett and Adam Seiver |
| title | Intelligent Real-Time Monitoring and Control |
| number | KSL-89-05 |
| institution | Knowledge Systems, AI Laboratory |
| year | 1989 |
| month | January |
| Bibtex more | |
| Access Paper | |
| abstract | Intelligent monitoring and control involves observing and guiding the behavior of a physical system toward some objective, with real-time constraints on the utility of particular actions. Generic functional requirements for this task include: integration of perception, reasoning, and action; integration of multiple reasoning activities; reasoning about complex, time-varying systems; coordination of multiple response modes; dynamic allocation of limited computational resources. We illustrate these requirements in the domain of patient monitoring in a surgical intensive care unit (SICU). We propose a generic architecture, designed and implemented in layers: top-level system organization; reasoning skills and knowledge representation; first-principles knowledge of physical systems; domain knowledge. We illustrate the architecture in the "Guardian" system for SICU monitoring and describe Guardian's performance on an illustrative scenario. Finally, we discuss the generality and limitations of the proposed architecture. |
| KSL Technical Report ID: KSL-89-05 |
Facts about Intelligent Real-Time Monitoring and ControlRDF feed
| Abstract | Intelligent monitoring and control involve … Intelligent monitoring and control involves observing and guiding the behavior of a physical system toward some objective, with real-time constraints on the utility of particular actions. Generic functional requirements for this task include: integration of perception, reasoning, and action; integration of multiple reasoning activities; reasoning about complex, time-varying systems; coordination of multiple response modes; dynamic allocation of limited computational resources. We illustrate these requirements in the domain of patient monitoring in a surgical intensive care unit (SICU). We propose a generic architecture, designed and implemented in layers: top-level system organization; reasoning skills and knowledge representation; first-principles knowledge of physical systems; domain knowledge. We illustrate the architecture in the "Guardian" system for SICU monitoring and describe Guardian's performance on an illustrative scenario. Finally, we discuss the generality and limitations of the proposed architecture. limitations of the proposed architecture. |
| Author | Barbara Hayes-Roth and Richard Washington and Rattikorn Hewett and Micheal Hewett and Adam Seiver + |
| Bibtype | techreport + |
| Has author | Barbara Hayes-Roth and Richard Washington and Rattikorn Hewett and Micheal Hewett and Adam Seiver + |
| Has identifier | KSL-89-05 + |
| Has publishing details | January,1989 + |
| Has title | Intelligent Real-Time Monitoring and Control + |
| Has where published | KSL-89-05 + |
| Has year | 1989 + |
| Institution | Knowledge Systems, AI Laboratory + |
| Ksl tr id | KSL-89-05 + |
| Month | January + |
| Number | KSL-89-05 + |
| Process note | NO + |
| Title | Intelligent Real-Time Monitoring and Control + |
| Year | 1989 + |
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