Identification of the Tennessee Eastman Chemical Process Reactor Using Genetic Programming

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@Article{Faris2013b,

• author = "Hossam Faris and Alaa Sheta",
• title = "Identification of the Tennessee Eastman Chemical Process Reactor Using Genetic Programming",
• journal = "International Journal of Advanced Science and Technology",
• year = "2013",
• volume = "50",
• pages = "121--140",
• month = jan,
• keywords = "genetic algorithms, genetic programming, Tennessee Eastman chemical process, Artificial Neural Networks (ANN), fuzzy Logic (FL) and Neuro-Gas and Neuro-PSO",
• ISSN = "2005-4238",
• broken = "http://www.sersc.org/journals/IJAST/vol50.php",
• URL = "http://www.sersc.org/journals/IJAST/vol50/11.pdf",
• size = "18 pages",
• abstract = "The Tennessee Eastman chemical process is a well-defined simulation of a chemical process that has been commonly used in process control research. As chemical process plants are getting more complex, the pressure on chemical engineers to develop accurate models for monitoring and control purposes is increased. In this paper, we explore the idea of using Genetic Programming (GP) technique to model the Tennessee Eastman (TE) Chemical Process Reactor. The process is decomposed to four subsystems. They are reactor level, reactor pressure, reactor cooling water temperature, and reactor temperature subsystems. GP found to have many advantages over other techniques in developing an automated process for industrial system modelling. A comparison between the applications of GP in modeling the TE chemical reactors subsystems with respect to other soft computing techniques such as Artificial Neural Networks (ANN), fuzzy Logic (FL) and Neuro-Gas and Neuro-PSO is provided.",

}

Genetic Programming entries for Hossam Faris Alaa Sheta

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