Multi-objective optimization in formation tasks of leather and fur materials

Authors

  • Ольга Викторовна Сангинова National Technical University of Ukraine “Kyiv Polytechnic Institute” Pobedy Ave., bld. 37 , Kiev, Ukraine, 03056, Ukraine
  • Анатолий Григорьевич Данилкович Kyiv National University of Technologies and Design Nemirovich-Danchenko Street, 2, Kiev, Ukraine, 01011, Ukraine
  • Слава Викторовна Брановицкая National Technical University of Ukraine “Kyiv Polytechnic Institute” Pobedy Ave., bld. 37 , Kiev, Ukraine, 03056, Ukraine

DOI:

https://doi.org/10.15587/2313-8416.2014.27262

Keywords:

compromise area, optimization task, physical and chemical processes, leather and fur materials

Abstract

The comparative analysis of the efficiency of different ways to obtain a compromise solution in the multi-objective constrained optimization tasks has been conducted. The analysis was performed for a number of innovative technologies of leather and fur materials forming.

Author Biographies

Ольга Викторовна Сангинова, National Technical University of Ukraine “Kyiv Polytechnic Institute” Pobedy Ave., bld. 37 , Kiev, Ukraine, 03056

PhD, associate professor

Department of Cybernetic chemical technological process

Анатолий Григорьевич Данилкович, Kyiv National University of Technologies and Design Nemirovich-Danchenko Street, 2, Kiev, Ukraine, 01011

Doctor of Sciences, professor

Department of Leather and fur processing technology

Слава Викторовна Брановицкая, National Technical University of Ukraine “Kyiv Polytechnic Institute” Pobedy Ave., bld. 37 , Kiev, Ukraine, 03056

Doctor of Sciences, associate professor

Department of Cybernetic chemical technological process

References

Taha, Hamdy A. (2007). Operations Research: An Introduction (8th Edition). Upper Saddle River, NJ: Pearson Prentice Hall, 819.

Steuer, R. E. (1986). Multiple Criteria Optimization: Theory, Computation and Application. New York: John Wiley, 546.

Ostrovsky, G. M., Berezhinsky, T. A. (1984). Optimization of chemical processes. Theory and practice. Chemistry, 240.

Bundy, B. (1988). Methods of optimization. Introductory course. Translated from English. Radio and Communications, 129.

Danilkovich, A. G., Branovitskaja, S. V., Bondarenko, S. G., Sanginova O. V. (2013). Application of Box Method for Multi-objective Optimization. Eastern-European Journal of enterprise technologies, 3/4 (63), 4–8.

Danylkovych, A. G., Lishchuk, V. I., Plavan, V. P., Kasian, E. E., Zhyhotskyy, O. H. (2011). Environmentally oriented technology of leather and fur materials to create competitive products [in Part 2]: monograph, Part I. Phoenix, 437, [3].

Danylkovych, A. G., Gryschenko, I. M., Lishchuk, V. I. [et al.] (2012). Innovative technology of leather and fur materials and products: monograph. Phoenix, 344.

Danilkovich, A. G. (2010). Basic scientific research in higher education. KNUTD, 296.

Lishchuk, V. I., Voitsekhovska, T. G., Danylkovych, A. G. (2007). Use of multi-objective optimization to find a compromise area ashing process. Light Industry, 1, 37-39.

Danylkovych, A. G, Brayilko, A., Omelchenko, N. (2010). Improving the quality of secondary coverage by optimizing the coating composition. Bulletin of KNU, 3, 129-134.

Published

2014-09-16

Issue

Section

Technical Sciences