СТРУКТУРНЫЙ СИНТЕЗ ИННОВАЦИОННЫХ АГРОТЕХНОЛОГИЧЕСКИХ ПРОЦЕССОВ С ПРИМЕНЕНИЕМ ГЕНЕТИЧЕСКИХ АЛГОРИТМОВ
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Научный журнал Моделирование, оптимизация и информационные технологииThe scientific journal Modeling, Optimization and Information Technology
Online media
issn 2310-6018

STRUCTURAL SYNTHESIS OF INNOVATIVE AGROTECHNOLOGICAL PROCESSES WITH THE APPLICATION OF GENETIC ALGORITHMS

Petrosov D.A.,  Gnatenko V.A.,  Petrosova N.V.,  Zelenina A.N. 

UDC 519.876.2
DOI: 10.26102/2310-6018/2019.25.2.022

  • Abstract
  • List of references
  • About authors

In the majority of existing models and methods of intellectual structural synthesis of simulation models of technological processes, the subject area of agricultural production is not paid attention. This paper discusses the possibility of using genetic algorithms as the main tool for model synthesis based on a given behavior, which is a given set of input vectors processed into a set of reference vectors. As a tool for adapting the evolutionary procedure (genetic algorithm), the use of nested Petri nets is proposed, on the basis of which a model has been developed that allows one to perform an intelligent synthesis procedure. The description of the element base of the components of the technological process is also carried out on the basis of the chosen mathematical tools, which allows it to be limited to one mathematical apparatus for solving the problem of intelligent structural synthesis of simulation models of technological processes. As a means for a preliminary description of the structure of the synthesized model, it is proposed to use modern methodologies for describing business processes, such as IDEF3. The paper discusses the technological process of fertilizer application, proposes the element base of simulation models of the technological chain components created using the PIPE v 4 software tool. Examples of the work of the proposed models and methods are given.

1. Lomazov, V.A. Uchet chuvstvitel'nosti rezul'tatov mnogokriterial'nogo ocenivaniya ot izmenenij ekspertnyh suzhdenij pri vybore regional'nyh innovacionno-investicionnyh proektov v oblasti zdravoohraneniya [Tekst] / V.A. Lomazov, E.V. Nesterova, D.A. Petrosov // Fundamental'nye issledovaniya. 2015. № 3. S. 192-196.

2. Petrosov, D.A. Intellektual'nye sistemy podderzhki prinyatiya reshenij v zadachah sinteza tekhnologicheskih processov pri vyrashchivanii sel'skohozyajstvennyh kul'tur [Tekst] /Petrosov D.A.// Sbornik nauchnyh statej po itogam raboty mezhdunarodnogo kruglogo stola. 2018. S. 173-175.

3. Podlazova, A. V. Geneticheskie algoritmy na primerah resheniya zadach raskroya [Elektronnyj resurs]/ A. V. Podlazova // Problemy upravleniya. 2008. №2. URL: https://cyberleninka.ru/article/n/geneticheskie-algoritmy-naprimerah-resheniya-zadach-raskroya (data obrashcheniya: 11.06.2019)

4. Kanyukov, S.I. Geneticheskij algoritm proektirovaniya osnovnyh perekhodov v SAPR tekhnologicheskih processov kovki valov [Elektronnyj resurs]/ S.I. Kanyukov, A.V. Konovalov // Programmnye produkty i sistemy. 2015. №3 (111) URL: https://cyberleninka.ru/article/n/geneticheskiy-algoritmproektirovaniya-osnovnyh-perehodov-v-sapr-tehnologicheskih-protsessovkovki-valov (data obrashcheniya: 11.06.2019).

5. Naumenko V. V. Primenenie geneticheskogo algoritma dlya resheniya zadachi raspredeleniya resursov v processe vypolneniya administrativnyh reglamentov [Tekst]/ V. V. Naumenko // Molodoj uchenyj. 2014. №4. S. 218-224.

6. Ptushkin, A.I. Algoritm strukturnoj optimizacii tekhnologicheskogo processa pri deficite vremeni na ego vypolnenie [Tekst]/ A.I. Ptushkin, D.V. Reshetnikov, A.S. Kokarev, A.V. Trudov // Fundamental'nye issledovaniya. – 2015. – № 11-5. – S. 918-922.

7. Ivutin, A. N. Teoriya setej Petri i ee rasshireniya [Elektronnyj resurs]/ A. N Ivutin., E. I. Daragan // Izvestiya TulGU. Tekhnicheskie nauki. 2012. №10. URL: https://cyberleninka.ru/article/n/teoriya-setey-petri-i-ee-rasshireniya (data obrashcheniya: 13.06.2019).

8. Mal'kov, M. V. Seti Petri i modelirovanie [Elektronnyj resurs]/ M. V. Mal'kov, S. N. Malygina // Trudy Kol'skogo nauchnogo centra RAN. 2010. №3. URL: https://cyberleninka.ru/article/n/seti-petri-i-modelirovanie (data obrashcheniya: 11.06.2019).

9. Petrosov, D.A. Primenenie parallel'nyh vychislenij v intellektual'nyh sistemah upravleniya /Petrosov D.A.// Informacionno-analiticheskie sistemy i tekhnologii Materialy V mezhdunarodnoj konferencii. 2018. S. 24-29.

Petrosov David Aregovich
Candidate of Technical Sciences, Associate Professor
Email: scorpionss2002@mail.ru

Federal State Budgetary Educational Institution of Higher Education Belgorod State Agrarian University named after V.Y. Gorina

Belgorod, Russian Federation

Gnatenko Vladimir Alexandrovich
Candidate of Technical Sciences
Email: bigsom@mail.ru

Federal State Budgetary Educational Institution of Higher Education Belgorod State Agrarian University named after V.Y. Gorina

Belgorod, Russian Federation

Petrosova Natalya Vladimirovna

Email: petrosova.nat@mail.ru

Federal State Budgetary Educational Institution of Higher Education Belgorod State Agrarian University named after V.Y. Gorina

Belgorod, Russian Federation

Zelenina Anna Nikolaevna
Candidate of Technical Sciences, Associate Professor
Email: snakeans@gmail.com

Voronezh Institute of High Technologies

Voronezh, Russian Federation

Keywords: technological processes, simulation modeling, theory of petri nets, genetic algorithms

For citation: Petrosov D.A., Gnatenko V.A., Petrosova N.V., Zelenina A.N. STRUCTURAL SYNTHESIS OF INNOVATIVE AGROTECHNOLOGICAL PROCESSES WITH THE APPLICATION OF GENETIC ALGORITHMS. Modeling, Optimization and Information Technology. 2019;7(2). URL: https://moit.vivt.ru/wp-content/uploads/2019/05/PetrosovSoavtori_2_19_1.pdf DOI: 10.26102/2310-6018/2019.25.2.022 (In Russ).

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Published 30.06.2019