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Chemical Technology, Control and Management

Abstract

In this research, we developed appropriate algorithms for the formation of the optimal structural composition of production - technological modules (PTM) based on the automation of the processes of determining and ensuring the functional-parametric compatibility (FPC) of their components. These algorithms are based on the developed mathematical models on the basis of the use of analytical methods for implementing the interconnection between the main components of the PTM.

First Page

61

Last Page

65

DOI

https://doi.org/10.51346/tstu-02.21.3-77-0021

References

  1. S.B.Nabiev, Formalization and construction of automation models of functional and parametric combination of components of production and technological systems of mechanical engeneering, Magisterskaya dissertaciya, Tashkent State Technical University named after Islam Karimov, 2020, 76 p.
  2. S.B.Nabiev, “Matematicheskaya model' avtomatizacii processov opredeleniya i obespecheniya funkcional'no-parametricheskoy sovmestimosti komponentov proizvodstvenno tehnologicheskih moduley (PTM) s vyazkouprugimi zven'yami v dinamicheskom upravlenii” [Mathematical model of automation of processes for determining and ensuring functional and parametric compatibility of components of production and technological modules (PTM) with interrelated links in dynamic control], «Informatika: problemy', metody', tehnologii» (IPMT). (in Russian).
  3. S.B.Nabiev, “Voprosy' avtomatizacii opredeleniya i obespecheniya funkcional'no-parametricheskoy sovmestimosti komponentov proizvodstvenno-tehnologicheskih system” [Issues of automation of determining and ensuring functional nonparametric compatibility of components of production and technological systems], Nauchny'y jurnal «Doklady' Akademii nauk Respubliki Uzbekistan». no. 1/2021, pp. 85-88, 2021. (in Russian).
  4. S.A.Zenkevich, A.S.YUsch'enko, Osnovy' upravleniya manipulyacionny'mi robotami [Fundamentals of manipulative robot control]. Moskva: Izd-vo MGTU im. N.E`.Baumana, 2004, 480 p. (in Russian).
  5. A.M.Pisch'uhin, Avtomatizaciya tehnologicheskih processov na osnove gibkih proizvodstvenny'h system [Automation of technological processes based on flexible production systems]. Orenburg: GOU OGU, 2004, 111 p. (in Russian).
  6. R.Beach, A.Muhlemann, D.Price, A.Paterson, J.Sharp, “A review of manufacturing flexibility”, European Journal of Operational Research, no.122(1), pp. 41-57, 2000.
  7. A.Khaleel, “Modeling and Optimization in a new Machining Production Line by using Manufacturing System Simulation”, In Proceedings of the International Conference on Industrial Engineering and Operations Management, Detroit, MI, USA, 23–25 September, 2016.
  8. A.Sahu, S.K.Pradhan, “Quantitative analysis and optimization of production line based on multiple evaluation criteria using discrete event simulation: A review”, In Proceedings of the International Conference on Automatic Control and Dynamic Optimization Techniques (ICACDOT), Pune, India, 9–10 September, pp. 612–617, 2016.

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