Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The article presents an innovative use of inductive algorithm for generating the decision tree for an analysis of the rank validity parameters of construction and maintenance of the gear pump with undercut tooth. It is preventet an alternative way of generating sets of decisions and determining the hierarchy of decision variables to existing the methods of discrete optimization.
Rocznik
Tom
Strony
25--34
Opis fizyczny
Bibliogr. 28 poz., rys., tab., wykr.
Twórcy
autor
- Department of Knowledge Engineering Faculty of Production Engineering and Logistics, Opole University of Technology, ul. Ozimska Street, 45-370 Opole POLAND
autor
- Department of Knowledge Engineering Faculty of Production Engineering and Logistics, Opole University of Technology, ul. Ozimska Street, 45-370 Opole POLAND
Bibliografia
- [1] Abel F. (1971): Johannes Kepler and his importance to modern science. – Inter Nations Bonn – Bad Godesberg.
- [2] Stryczek J. and Stryczek S. (1994): Gear pumps - a brief history. – SINH. Control and Hydraulic Drive.
- [3] Stryczek S. (1996): Two hundred years of hydrostatic driver. – Control and Hydraulic Drive.
- [4] Kollek W. and Osiński P. (2009): Modelling and design of gear pumps. – Wroclaw University of Technology Press.
- [5] Kollek W. and Radziwanowska U. (2015): Energetic efficiency of gear micropumps. – Archives of Civil and Mechanical Engineering, vol.15, No.1, pp.109-115.
- [6] Kollek W., Osiński P., Stosiak M., Wilczyński A. and Cichoń P. (2014): Problems relating to high-pressure gear micropumps. – Archives of Civil and Mechanical Engineering, vol.14, No.1, pp.88-95.
- [7] Osiński P., Deptuła A. and Partyka M.A. (2013): Discrete optimization of a gear pump after tooth root undercutting by means of multi-valued logic trees. – Archives of Civil and Mechanical Engineering, vol.13, No.4, pp.422-431.
- [8] Osiński P. (2014): Modelling and design of gear pumps with modified tooth profile. – Saarbrücken, LAP Lambert Academic Publishing.
- [9] Osiński P. (2013): High and low pulse gear pumps external gear. – Wroclaw University of Technology Press.
- [10] Stryczek S. (1995): Hydrostatic Drive. – Warsaw: Scientific and Technical Publishing House.
- [11] Kudźma S. and Kudźma Z. (2015): Refined model of passive branch damper of pressure fluctuations. – Journal of Theoretical and Applied Mechanics, vol.53, No.3, pp.557-567.
- [12] Osiński P. and Kollek W. (2013): Assessment of energetistic measuring techniques and their application to diagnosis of acoustic condition of hydraulic machinery and equipment. – Archives of Civil and Mechanical Engineering, vol.13, No.3, pp.313-321.
- [13] Osiński P., Kollek W. and Wilczyński A. (2010): The use of a series of Renard in the design of hydraulic and pneumatic components. – Hydraulic and Pneumatic, No.6, pp.16-18.
- [14] Śliwiński P. (2014): Flow of liquid in flat gaps of the satellite motor working mechanism. – Polish Maritime Research, 2(82), vol.21, pp.50-57.
- [15] Deptuła A. (2015): Application of game graphs to describe the inverse problem in the designing of mechatronic vibrating systems, Graph-based modelling in engineering. – Springer, [In print].
- [16] Partyka M.A. (1983): Some remarks on the Quine – Mc Cluskey minimization algorithm of multiple-valued partial functions for design structures. – 7th Inter. Cong. Log. Method. Phil. Sc., Salzburg, Austria.
- [17] Partyka M.A. (1984): The Quine- Mc Cluskey minimization algorithm of individual multiple-valued partial functions for digital control systems. – 3rd Inter. Confer. Syst. Engin., Wright State University, Dayton, USA.
- [18] Quine W.V. (1952): The problem of simplifying truth-functions. – American Mathematical Monthly, vol.59, pp.521-531.
- [19] Deptuła A. and Partyka M.A. (2012): Separate logical analysis of design guidelines in the machine systems modelling. – International Journal of Applied Mechanics and Engineering, vol.17, No.3, pp.779-790, ISSN 1425-1655.
- [20] Deptuła A. (2014): Application of multi-valued weighting logical functions in the analysis of a degree of importance of construction parameters on the example of hydraulic valves. – International Journal of Applied Mechanics and Engineering, vol.19, No.3, pp.539-548.
- [21] Berghofer S. and Reiter M. (2009): Formalizing the Logic-Automaton Connection. – In: Proc. of the 22nd International Conference on Theorem Proving in Higher Order Logics, LNCS No 5674, pp.147–163.
- [22] Shiue Y.R. and Guh R.S. (2006): The optimization of attribute selection in decision tree-based production control systems. – The International Journal of Advanced Manufacturing Technology, vol.28, pp.737-746.
- [23] Shenoy P.P. (1998): Game Trees For Decision Analysis. – Theory and Decision, vol.44, No.2, April, pp.149-171.
- [24] Deptuła A. and Partyka M.A. (2013): Discrete optimization of a gear pump after tooth undercutting by means of complex multi-valued logic trees. – Innovations in Management and Production Engineering, Oficyna Wydawnicza Polskiego Towarzystwa Zarządzania Produkcją, Opole, ISBN: 978-83-930399-9-9, pp.175-186.
- [25] Deptuła A. (2014): Game-tree structures with the complex complexity level as a tool in knowledge engineering. – Systems in Management, vol.2, No.2, pp.100-112.
- [26] Deptuła A. and Partyka M.A. (2014): Decision optimization of machine sets with taking into consideration logical tree minimization of design guidlines. – International Journal of Applied Mechanics and Engineering, vol.19, No.3, University Press Zielona Góra, pp.549-561.
- [27] Deptuła A., Osiński P. and Radziwanowska U. (2016): Decision support system for identifying technical condition of combustion engine. – Archives of Acoustics, vol.41, No.3, pp.449-460 [in print].
- [28] Deptuła A., Kunderman D., Osiński P., Radziwanowska U. and Włostowski R. (2016): Acoustic diagnostics applications in the study of technical condition of combustion engine. – Archives of Acoustics, vol.41, No.2, pp.345-350.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-fe286a62-94f6-42af-aea7-a07853b0971c