, Russian Federation
, Russian Federation
Russian Federation
, Russian Federation
The article deals with the issues of modeling and management of life support systems of a residential building. The resulting model of the liquid level in the tank allows you to establish the relationship between the level and the flow rate of the liquid. The results of the selection and justification of the fluid level control structure are presented. An algorithm that implements the operation of a virtual object is given. The structure of the automatic control system (ACS) of the liquid level is technically implemented in an open type. The results confirming the achievability of the proposed structural changes are obtained. The results of experimental studies are presented. The choice and justification of the method of controlling the heating system and the liquid level in the tank are considered. Programs for managing subsystems of a residential building in Assembly language, C++, and ladder diagrams are presented. A model for controlling the liquid level in a Multisim environment is proposed.
program, life support, level, temperature, algorithm, model, ladder diagram, control unit
1. Briere, D. Smart homes for dummies / D. Briere, P. Hurley – Hoboken: Wiley Publishing, Inc. 2007. – 313 p.
2. Harke, V.N. «Umnyy dom. Ob'edinenie v set' bytovoy tehniki i sistem kommunikaciy v zhilischnom stroitel'stve» / V.N. Harke. – M. : Tehnosfera, 2006. – 292 s.
3. Elsenpiter, T.R. Umnyy dom. Stroim sami / T.R. Elsenpiter, Dzh. Velt. – M. : KUDIC-OBRAZ, 2005. – 384 s.
4. Teslya, E.A. «Umnyy dom» svoimi rukami. Stroim intellektual'nuyu cifrovuyu sistemu v svoey kvartire / E.A. Teslya. –SPb. : Piter, 2008. – 224s.
5. Gololobov, V.N. «Umnyy dom» svoimi rukami / V.N. Gololobov. – M. : NT Press, 2007. – 416 s.
6. Akimov, V.I. Design and development of cascade heating control for a «smart» residential housing / V.I. Akimov, S.I. Polyakov, A.V. Polukazakov // 2020 International Russian Automation Conference (RusAutoCon). – Sochi, 2020. – Pp. 42-48. – DOI: 10.1109/RusAutoCon49822.2020.9208225.
7. Wells, Q. Guide to digital home technology integration / W. Quentin. – Delmar : Cengage Learning, 2009. – 544p.
8. Knyaginin, V.N. Umnye sredy, umnye proizvodstva: Promyshlennyy i tehnologicheskiy forsayt Rossiyskoy Federacii na dolgosrochnuyu perspektivu / V.N. Knyaginin. – M.: CSR North-West, 2013.
9. Ernest, A.G. Community-based optimal scheduling of smart home appliances / A.G. Ernest. – M. : LAP Lambert Academic Publishing, 2013. – 414 c.
10. Chernikov, B.V. Informacionnye tehnologii upravleniya / B.V. Chernikov. – M. : Infra-M, 2008. – 352 s.
11. Petrovskiy, V.S. Nauchnye issledovaniya v avtomatizacii: ucheb. posobie / V.S. Petrovskiy, S.I. Polyakov, D.A. Gluhov. – Voronezh, 2011. – 240 s.
12. Polyakov, S.I. Avtomatika i avtomatizaciya proizvodstvennyh processov : ucheb. posobie / S.I. Polyakov. – Voronezh, 2007. – 373 s.
13. Teoriya avtomaticheskogo upravleniya : uchebnik / V.D. Volkov, A.I. Shashkin, A.V. Smol'yaninov, E.N. Desyatirikova. – Voronezh : Nauchnaya kniga, 2015. – 745 s.
14. Akimov, V.I. Selecting criteria for optimizing parameters of adc for digital signal processing / V.I. Akimov, A.V. Polukazakov, N.V. Sitnikov // 2019 International Russian Automation Conference (RusAutoCon). – Sochi, 2019. – DOI: 10.1109/RUSAUTOCON.2019.8867651(Scopus).
15. Akimov, V.I. Design of measuring channel systems and automation tools / V.I. Akimov, A.V. Polukazakov, V.P. Shelyakin // 2019 International Russian Automation Conference (RusAutoCon). – Sochi, 2019. – DOI: 10.1109/RUSAUTOCON.2019.8867777(Scopus).
16. Polyakov, S.I. Proektirovanie sistem upravleniya : ucheb. posobie / S.I. Polyakov, N.P. Zuykin. – Voronezh, 2001. – 133s.
17. Volkova, V.N. Simulation modeling of a technological breakthrough in the economy / V.N. Volkova, A.V. Loginova, E.N. Desyatirikova // IEEE Conference of Russian Young Researchers in Electrical and Electronic Engineering. – ElConRus, 2018. – Pp. 1293-1297. – DOI: 10.1109/EIConRus.2018.8317332.
18. Lysenko, E.V Proektirovanie avtomatizirovannyh sistem upravleniya tehnologicheskimi processami / E.V. Lysenko. – M. : Radio i svyaz', 2007. – 129 s.
19. Dokumenty – Pravitel'stvo Rossii. Postanovlenie Pravitel'stva RF ot 28.07.2017, № 1632. Ob utverzhdenii programmy «Cifrovaya ekonomika Rossiyskoy Federacii». – URL: http://www.government.ru/ docs/28653 (data obrascheniya: 14.01.2021).
20. Serov, V.M. Organizaciya i upravlenie v stroitel'stve / V.M. Serov, A.V. Nesterova, A.V. Serov. – M. : Akademiya, 2006. – 432 s.
21. Poleschuk, N. SAPR na baze AutoCad 2006 / N. Poleschuk, S. Zuev. – M.: Prosveschenie, 2006 – 415 s.
22. Chto takoe tehnologiya BIM? Ee primenenie v stroitel'stve. – URL: https://fb.ru/article/324833/chto-takoe-tehnologiya-bim-ee-primenenie-v-stroitelstve (data obrascheniya: 14.01.2021)
23. Kucevich N. SCADA – sistemy, ili muki vybora. – URL: http://www.mka.ru (data obrascheniya: 14.01.2021).
24. Tehnicheskie sredstva avtomatizacii. Programmnno-tehnicheskie kompleksy i kontrollery : ucheb. posobie / I.A. Elizarov, Yu.F. Martem'yanov, A.T. Shirtladze, S.V. Frolov. – M: «Izdatel'stvo Mashinostroenie-1», 2004. – 180 s.
25. Magda, Yu.S. Programmirovanie i otladka S/S++ prilozheniy dlya mikrokontrollerov ARM / Yu.S. Magda. – Moskva: DMK Press, 2017. – 168s.
26. Blum, Dzh. Izuchaem Arduino: instrumenty i metody tehnicheskogo volshebstva / Dzh. Blum. – BHV-Peterburg, 2018. – 336 s.
27. Racionalizaciya vybora algoritmov mezhmodul'nogo vzaimodeystviya komponent raspredelennyh programmnyh sredstv / V.F. Barabanov, S.Yu. Beleckaya, V.K. Zol'nikov, M.L. Lapshina, A.K. Pogodaev // Sistemy upravleniya i informacionnye tehnologii. – 2013. – №2 (52). – S. 46-50.