REVERSE ENGINEERING AND AUTOMATIC SYNTHESIS OF METABOLIC PATHWAYS FROM OBSERVED DATA USING GENETIC PROGRAMMING Symposium ON COMPUTATIONAL DISCOVERY OF COMMUNICATABLE KNOWLEGDE SUNDAY MARCh 25, 2001 - Michaelis–Menten kinetics - Document - PDFSEARCH.IO - Document Search Engine

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	REVERSE ENGINEERING AND AUTOMATIC SYNTHESIS OF METABOLIC PATHWAYS FROM OBSERVED DATA USING GENETIC PROGRAMMING Symposium ON COMPUTATIONAL DISCOVERY OF COMMUNICATABLE KNOWLEGDE SUNDAY MARCh 25, 2001 Add to Reading List Document Date: 2001-03-30 10:12:34 Open Document File Size: 2,49 MB Share Result on Facebook City Chicago / Los Altos / / Company Martin A. Keane Econometrics Inc. / Guido Lanza Genetic Programming Inc. / Jessen Yu Genetic Programming Inc. / William Mydlowec Genetic Programming Inc. / / / Facility Electrical Engineering Stanford University / / IndustryTerm chemical reactions / individual network / final product / chemical reaction function / everyday tools / conventional genetic algorithm / psuedo-second-order rate law / individual chemical reaction network / adaptive systems / above tools / approximate solution / end product / neural networks / rate law / chemical reaction / chemical networks / individual reaction network / / Organization Stanford University / Department of Medicine Department / / Person Stanford John / External / John R. Koza Stanford Biomedical Informatics / / Position E-CELL cell simulation model / Controllers Evolved controller / / ProvinceOrState Illinois / California / / SportsLeague Stanford University / / Technology conventional genetic algorithm / artificial intelligence / machine learning / simulation / recombination / / SocialTag Chemical kinetics Metabolism Enzyme Chemical reaction Lipid Michaelis–Menten kinetics Metabolic pathway Glycerol Enzyme kinetics Chemistry