Andrzej Skowronek
Czasopismo Techniczne, Volume 9 Year 2017 (114), 2017, s. 237-246
https://doi.org/10.4467/2353737XCT.17.164.7176Artykuł przedstawia metodę używaną w procesie generowania elastycznych planów eksperymentu w specjalnym programie komputerowym z zastosowaniem liczb pseudolosowych, których użycie może mieć znaczący wpływ na jakość planów. W celu zwiększenia prawdopodobieństwa wygenerowania planu optymalnego dla ustalonych parametr w generowania planu, zastosowano specjalną metodę, w której generowanych jest wiele planów i wybierany najlepszy na podstawie parametrów tzw. analizy ekwipartycyjnej. Uzyskane wyniki potwierdzają znaczący pozytywny wpływ metody na jakość elastycznych planów eksperymentu.
Andrzej Skowronek
Czasopismo Techniczne, Mechanika Zeszyt 2-M (7) 2015, 2015, s. 263-270
This paper presents an analysis of comparing the effects of the application of the smart and traditional designs of experiment. The smart designs of experiment generated according to two various methods were compared to the central composite designs for two and three inputs. To check how the use of selected designs will affect the results of the experiment a computer simulation was performed, where a real research object was replaced by two special testing functions whose values were compared to the values predicted by the neural networks trained with the use of data sets based on compared smart and traditional designs of the experiment.
Andrzej Skowronek
Czasopismo Techniczne, Mechanika Zeszyt 1-M (5) 2013 , 2013, s. 357-364
https://doi.org/10.4467/2353737XCT.14.045.1971This paper presents results of computer simulation made to evaluate how the quality of the smart designs of experiment depends on the methods of generating. The quality of smart designs was evaluated by comparing the known values of special testing functions simulating the real research object and approximated values predicted by neural networks trained with the sets based on smart designs of experiment. The results suggest the possibility of significant reducing the number of experiments runs using studied smart designs.
Andrzej Skowronek
Czasopismo Techniczne, Mechanika Zeszyt 2-M (7) 2015, 2015, s. 253-261
This paper presents the results of a computer simulation, performed to check how the number of smart designs of experiment units affects the quality of information to be obtained in experimental research conducted on the basis of the analyzed designs. In the simulation, a real research object was replaced by a special testing function whose values were compared to the values predicted by the neural networks trained with the use of data sets based on smart designs of experiments containing various numbers of units.