Boundary Field Problems and Computer Simulation

In this article a method of obtaining an experiment plan in a fragment of multidimensional space is analyzed. The method is based on the assumption that in a limited computing area with the given experimental point density acting on each other, these points will be evenly distributed. In order to obtain the space-filling design, the boundaries of the outer space of the multidimensional space are replaced by a band imitating the exterior space effect. Software is developed and practical results in obtaining experiment plan in twodimensional space are acquired. Two-dimensional space allows developing a methodology and algorithm for obtaining experiment plan while providing a simple visualization of the solution. The acquired results in two-dimensional space provide an opportunity to create methods for obtaining experiment plan in a hypercube of a multidimensional space.

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

J. Auzins and A. Janusevskis, Eksperimentu plānošana un analīze. Rīga: RTU, 2007.

B. Baigrie, Electricity and Magnetism: A Historical Perspective. Greenwood Press, pp. 7–8, 2006.

N. A. Butler, “Optimal and orthogonal Latin hypercube designs for computer experiments,” Biometrika, vol. 88, no. 3, pp. 847–857, Oct. 2001. https://doi.org/10.1093/biomet/88.3.847

R. J. Iman and M. J. Shortencarier, 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, Sandia National Laboratories, Albuquerque, NM, 1984.

N. Kante, M. Kryshchuk, and J. Lavendels, “Experiment Plan as a Discreet System Equilibrium State,” Applied Computer Systems, vol. 20, Dec. 2016. https://doi.org/10.1515/acss-2016-0015

N. Kante, J. Lavendels. “Equilibrium state simulation of charged particles based experiment plan obtaining method in discrete systems” Contemporary Information Technologies, Penza State University, Russia, 2016.