Université Blida 1

A New Approach For Generating Designs Of Computer Experiments From Area-Interaction Point Processes

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dc.contributor.author Boudali, Aimen
dc.contributor.author Lafri, Amrane Abderrahmane
dc.contributor.author El Mossaoui, H. ( Promoteur)
dc.contributor.author Ait Ameur, A. (Co-Promoteur)
dc.date.accessioned 2023-11-12T11:33:52Z
dc.date.available 2023-11-12T11:33:52Z
dc.date.issued 2023
dc.identifier.uri https://di.univ-blida.dz/jspui/handle/123456789/26368
dc.description ill., Bibliogr. Cote:ma-510-162 fr_FR
dc.description.abstract Many engineers and technicians rely on experimental designs to improve their products or production processes based on experience. However, traditional strategies for conducting experiments often prove to be expensive, inefficient, and yield limited exploitable results. To address these challenges, the planning of experiments has become essential. Experimental designs offer a structured approach to conducting tests in scientific research and industrial studies. They find applications in various disciplines and industries when investigating the relationship between a quantity of interest (y) and controllable variables (x ). The objective is to establish mathematical models that relate these quantities of interest to the variables. This thesis introduces new digital experimental designs based on the theory of stochastic processes, specifically area interaction point processes, also known as object processes. These designs leverage both the distribution of points within the experimental region and specific characteristics associated with those points. The designs are obtained using a Monte Carlo Markov chain method (MCMC), and a thorough investigation of the Markov chain’s convergence has been conducted. Furthermore, a comparative analysis between our approach and other existing computer designs has been performed. Keywords: Experimental Designs, Numerical Experimental Designs, Point Processes, Area-Interaction Point Processes, Voronoi Tessellation, Markov Chain Monte Carlo (MCMC), Metropolis-Hastings Algorithm. fr_FR
dc.language.iso en fr_FR
dc.publisher Université Blida 1 fr_FR
dc.subject Experimental Designs fr_FR
dc.subject Voronoi Tessellation fr_FR
dc.subject Markov Chain Monte Carlo (MCMC) fr_FR
dc.subject Metropolis-Hastings Algorithm fr_FR
dc.subject Numerical Experimental Designs fr_FR
dc.subject Point Processes fr_FR
dc.subject Area-Interaction Point Processes fr_FR
dc.title A New Approach For Generating Designs Of Computer Experiments From Area-Interaction Point Processes fr_FR
dc.type Thesis fr_FR


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