<abstract xmlns="http://www.w3.org/1999/xhtml"><p>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.</p></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.

Experiment Plan as a Discreet System Equilibrium State

National Technical University of Ukraine (Kiev Polytechnic Institute),

Applied Computer Systems

This work is licensed under the Creative Commons Attribution 4.0 Public License.

{"article-title":"Experiment Plan as a Discreet System Equilibrium State"}

The method of obtaining the plan of experiments in multidimensional space is considered in the paper. The method is based on assumptions of uniform...

Experiment Plan as a Discreet System Equilibrium State

Published Online: Jan 23, 2017

Page range: 49 - 52

DOI: https://doi.org/10.1515/acss-2016-0015

Keywords
Charged particle interaction, experiment plan, Latin hypercube

© 2016 Riga Technical University

This work is licensed under the Creative Commons Attribution 4.0 Public License.

Experiment Plan as a Discreet System Equilibrium State

Published Online: Jan 23, 2017

Page range: 49 - 52

DOI: https://doi.org/10.1515/acss-2016-0015

KeywordsCharged particle interaction, experiment plan, Latin hypercube

© 2016 Riga Technical University

This work is licensed under the Creative Commons Attribution 4.0 Public License.

Keywords
Charged particle interaction, experiment plan, Latin hypercube