QRIOM: A QPT-based simulator for composing and reasoning qualitative models for learning organic reactions
The work discusses the application of an Artificial Intelligence technique called Qualitative Reasoning (QR) and a process-based ontology in constructing qualitative models for organic reaction simulation. We present a framework architecture that uses the QPT ontology as the knowledge representation...
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2023
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my.uniten.dspace-309392023-12-29T15:56:14Z QRIOM: A QPT-based simulator for composing and reasoning qualitative models for learning organic reactions Alicia Tang Y.C. Zain S.Mohd. Rahman N.A. Abdullah R. 36806985400 55396485200 22136090800 56256776800 Artificial intelligence Information technology Information theory Knowledge based systems Knowledge representation Ontology Artificial intelligence techniques Automated model constructions Chemical theories Framework architectures Molecular patterns Organic reactions Qualitative models Qualitative reasonings Reasoning engines Reasoning processes Automata theory The work discusses the application of an Artificial Intelligence technique called Qualitative Reasoning (QR) and a process-based ontology in constructing qualitative models for organic reaction simulation. We present a framework architecture that uses the QPT ontology as the knowledge representation scheme to model the behaviors of a number of organic reactions. The main focus of this paper placed on the design of two main components (model constructor and reasoning engine) for a tool abbreviated as QRIOM for predicting and explaining organic reactions. The discussion starts by presenting the workflow of the reasoning process and the automated model construction logic. We then move on to demonstrate how the constructed models can be used to re produce the behavior of organic reactions. Finally, behavioral explanation manifestation is discussed. The simulator is implemented in bi lingual; Prolog is at the backend supplying data and chemical theories while Java handles all front-end GUI and molecular pattern updating. � 2008 IEEE. Final 2023-12-29T07:56:13Z 2023-12-29T07:56:13Z 2008 Conference paper 10.1109/ITSIM.2008.4631972 2-s2.0-57349124530 https://www.scopus.com/inward/record.uri?eid=2-s2.0-57349124530&doi=10.1109%2fITSIM.2008.4631972&partnerID=40&md5=40b21c82db76449303ebcea17727b6ff https://irepository.uniten.edu.my/handle/123456789/30939 4 4631972 Scopus |
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Artificial intelligence Information technology Information theory Knowledge based systems Knowledge representation Ontology Artificial intelligence techniques Automated model constructions Chemical theories Framework architectures Molecular patterns Organic reactions Qualitative models Qualitative reasonings Reasoning engines Reasoning processes Automata theory |
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Artificial intelligence Information technology Information theory Knowledge based systems Knowledge representation Ontology Artificial intelligence techniques Automated model constructions Chemical theories Framework architectures Molecular patterns Organic reactions Qualitative models Qualitative reasonings Reasoning engines Reasoning processes Automata theory Alicia Tang Y.C. Zain S.Mohd. Rahman N.A. Abdullah R. QRIOM: A QPT-based simulator for composing and reasoning qualitative models for learning organic reactions |
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The work discusses the application of an Artificial Intelligence technique called Qualitative Reasoning (QR) and a process-based ontology in constructing qualitative models for organic reaction simulation. We present a framework architecture that uses the QPT ontology as the knowledge representation scheme to model the behaviors of a number of organic reactions. The main focus of this paper placed on the design of two main components (model constructor and reasoning engine) for a tool abbreviated as QRIOM for predicting and explaining organic reactions. The discussion starts by presenting the workflow of the reasoning process and the automated model construction logic. We then move on to demonstrate how the constructed models can be used to re produce the behavior of organic reactions. Finally, behavioral explanation manifestation is discussed. The simulator is implemented in bi lingual; Prolog is at the backend supplying data and chemical theories while Java handles all front-end GUI and molecular pattern updating. � 2008 IEEE. |
| author2 |
36806985400 |
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36806985400 Alicia Tang Y.C. Zain S.Mohd. Rahman N.A. Abdullah R. |
| format |
Conference paper |
| author |
Alicia Tang Y.C. Zain S.Mohd. Rahman N.A. Abdullah R. |
| author_sort |
Alicia Tang Y.C. |
| title |
QRIOM: A QPT-based simulator for composing and reasoning qualitative models for learning organic reactions |
| title_short |
QRIOM: A QPT-based simulator for composing and reasoning qualitative models for learning organic reactions |
| title_full |
QRIOM: A QPT-based simulator for composing and reasoning qualitative models for learning organic reactions |
| title_fullStr |
QRIOM: A QPT-based simulator for composing and reasoning qualitative models for learning organic reactions |
| title_full_unstemmed |
QRIOM: A QPT-based simulator for composing and reasoning qualitative models for learning organic reactions |
| title_sort |
qriom: a qpt-based simulator for composing and reasoning qualitative models for learning organic reactions |
| publishDate |
2023 |
| _version_ |
1806423968248233984 |
| score |
13.188404 |