Experiment Plan as a Discreet System Equilibrium State

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Abstract

The method of obtaining the plan of experiments in multidimensional space is considered in the paper. The method is based on assumptions of uniform distribution of charged particles in infinite space. To obtain the plan of experiments, the infinite multidimensional space is replaced with a hypercube whose surface models influence infinite space. The software is developed, and practical results in two-dimensional space are acquired. There are no basic problems to carry out calculations in multidimensional space.

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  • [1] N. A. Butler “Optimal and Orthogonal Latin Hypercube Designs for Computer Experiements” Biometrika vol. 88 issue 3 pp. 847–857 2001. https://doi.org/10.1093/biomet/88.3.847

  • [2] J. Auzins and A. Janusevskis Experiment of planning and analysis Riga: RTU Press 2007. ISBN 97-9984-32-157-8 (in Latvian).

  • [3] R. J. Iman and M. J. Shortencarier (1984). A FORTRAN77 Program and User’s Guide for Generation of Latin Hypercube and Random Samples for Use with Computer Models. NUREG/CR-3624 SAND83-2365. [Online]. Available: http://www.osti.gov/scitech/servlets/purl/7091452/

  • [4] P. Audze and V. Eglājs “New approach to the design of multifactor experiments” Problems of Dynamics and Strengths 35 ed. Riga: Zinatne Publishing House 1977 pp. 104–107.

  • [5] N. Kante and J. Lavendels “Obtaining The Plan Of Experiments On The Basis Of Modeling Of Interaction Of Charged Particles” in International Conference on “Theory and practice of simulation modeling and creation of simulators: the accumulation and processing of information information models information tools” Penza Russia 2015 pp. 24–28. (in Russian). https://doi.org/10.18411/2016-031-001

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