Switching Between Discrete and Continuous Process Models to Predict Molecular Genetic Activity

dc.creator	Weld, Daniel Sabey
dc.date	2004-10-20T20:10:01Z
dc.date	2004-10-20T20:10:01Z
dc.date	1984-05-01
dc.date.accessioned	2013-10-09T02:47:44Z
dc.date.available	2013-10-09T02:47:44Z
dc.date.issued	2013-10-09
dc.identifier	AITR-793
dc.identifier	http://hdl.handle.net/1721.1/6945
dc.identifier.uri	http://koha.mediu.edu.my:8181/xmlui/handle/1721
dc.description	Two kinds of process models have been used in programs that reason about change: Discrete and continuous models. We describe the design and implementation of a qualitative simulator, PEPTIDE, which uses both kinds of process models to predict the behavior of molecular energetic systems. The program uses a discrete process model to simulate both situations involving abrupt changes in quantities and the actions of small numbers of molecules. It uses a continuous process model to predict gradual changes in quantities. A novel technique, called aggregation, allows the simulator to switch between theses models through the recognition and summary of cycles. The flexibility of PEPTIDE's aggregator allows the program to detect cycles within cycles and predict the behavior of complex situations.
dc.format	10332763 bytes
dc.format	3889105 bytes
dc.format	application/postscript
dc.format	application/pdf
dc.language	en_US
dc.relation	AITR-793
dc.title	Switching Between Discrete and Continuous Process Models to Predict Molecular Genetic Activity

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