Статья 'Разработка программного обеспечения для системы энергоэффективных мехатронных устройств с интеллектуальной системной управления' - журнал 'Кибернетика и программирование' - NotaBene.ru
по
Journal Menu
> Issues > Rubrics > About journal > Authors > About the Journal > Requirements for publication > Council of Editors > Peer-review process > Policy of publication. Aims & Scope. > Article retraction > Ethics > Online First Pre-Publication > Copyright & Licensing Policy > Digital archiving policy > Open Access Policy > Open access publishing costs > Article Identification Policy > Plagiarism check policy
Journals in science databases
About the Journal

Публикация за 72 часа - теперь это реальность!
При необходимости издательство предоставляет авторам услугу сверхсрочной полноценной публикации. Уже через 72 часа статья появляется в числе опубликованных на сайте издательства с DOI и номерами страниц.
По первому требованию предоставляем все подтверждающие публикацию документы!
MAIN PAGE > Back to contents
Cybernetics and programming
Reference:

Software Design for Energy-Efficient Mechatronic Devices with Intelligent Control Systems

Ivanov Maksim Anatolyevich

PhD in Technical Science

head of the Department of Software Engineering at National Research Tomsk Polytechnic University

634034, Russia, Tomsk Region, Tomsk, str. Sovetskaya, 84/3, of. 323

ivanovma@tpu.ru
Savelyev Aleksei Olegovich

PhD in Technical Science

assistant at the Department of Software Engineering at National Research Tomsk Polytechnic University

634034, Russia, Tomsk Region, Tomsk, str. Sovetskaya, 84/3, of. 205

sava@tpu.ru
Saklakov Vasiliy Mihaylovich

post-graduate student of the Department of Software Engineering at National Research Tomsk Polytechnic University

634034, Russia, Tomsk Region, Tomsk, str. Sovetskaya, 84/3, of. 201

romanov_ky@mail.ru

DOI:

10.25136/2306-4196.2017.6.24574

Review date:

30-10-2017


Publish date:

01-12-2017


Abstract: Today alternative energy technologies are a well-established practice in the development of energy resources. The present article is devoted to a narrow aspect thereof, implementation of solar panels. Every year the number of solar panels put into commission increases by 25 - 35 %. The authors of the article offer their own solution in this sphere that allows to manage solar panels in real-time mode and provide for their automatic checkout and productivity analysis. Previous articles of the authors describe the development of the prototype hardware and the present article describes software methods and algorithms. The research method used by the authors to develop software is The Analytic Hierarchy Process (AHP or Saaty Method). The scientific novelty of the research is caused by the fact that the authors develop the software for implementing methods and algorithms of mechatronic devices complex divided into two modules, service software and software support of the control module. Implementation of this software has allowed to complete the alignment of automated collection and accumulation of information based on set working parameters, visualisation of these parameters of solar battery accumulators and transformers working as part of the solar electroenergy module even when data is lost or damaged or when emergency occurs. 


Keywords: Optimization of control systems, Intelligent control systems, Solar power engineering, Solar panels, electric drive, Mechatronics, Mechatronic devices complex, Database, Radio electronics, Software
This article written in Russian. You can find full text of article in Russian here .

References
1.
Balanchevadze V.I. Energetika segodnya i zavtra / V.I. Balanchevadze, A.I. Baranovskii. M.: Energoatomizdat, 2008. 344 s.
2.
Bagutdinov R.A. Rezul'taty issledovanii ispol'zovaniya mnogomernogo podkhoda pri modelirovanii protsessov v polevykh tranzistorakh [Elektronnyi resurs] // Sovremennye nauchnye issledovaniya i innovatsii. 2015 № 10. C. 1-3. – Rezhim dostupa: web.snauka.ru/issues/2015/10/57975
3.
Netraditsionnye istochniki energii. M.: Znanie, 2003. 120 s.
4.
Mirovaya energetika: prognoz razvitiya do 2020 g. / per. s angl. pod red. Yu.N. Starshikova. M.: Energiya, 2005. 256 s.
5.
Bagutdinov R.A., Zav'yalov D.A., Ivanov M.A., Sokolova V.V. Proektirovanie i razrabotka masshtabiruemoi sistemy energoeffektivnykh mekhatronnykh ustroistv // Kibernetika i programmirovanie. 2016. № 5. S. 24-32.
6.
Nalamvar H. S. Automated Intelligent Monitoring and the Controlling Software System for Solar Panels / H. S. Nalamvar, M. A. Ivanov, S. A. Baydali // Journal of Physics: Conference Series. — 2017. — Vol. 803: Information Technologies in Business and Industry (ITBI2016): International Conference, 21–26 September 2016, Tomsk, Russian Federation: [proceedings]. — [012107, 5 p.].
7.
Abrameshin A.E. Informatsionnaya tekhnologiya obespecheniya nadezhnosti slozhnykh elektronnykh sredstv voennogo i spetsial'nogo naznacheniya: nauchnoe izdanie / A.E. Abrameshin, V.V. Zh adnov, S.N. Polesskii; otv. red. V.V. Zh adnov. Ekaterinburg: Izd-vo OOO "Fort Dialog-Iset'". 2012. 565 s.
8.
Gasnikova A.A. Rol' traditsionnoi i al'ternativnoi energetiki v regionakh Severa // Ekonomicheskie i sotsial'nye peremeny: fakty, tendentsii, prognoz. 2013. № 5(29) S. 77-88.
9.
Martyukova E.S. O vnedrenii protsessa avtomatizatsii testirovaniya v razlichnykh metodologiyakh razrabotki programmnogo obespecheniya // Novye informatsionnye tekhnologii v avtomatizirovannykh sistemakh. 2015. № 18. S. 462-465.
10.
Martinov G.M., Martinova L.I., Grigor'ev A.S. Spetsifika razrabotki programmnogo obespecheniya dlya sistem upravleniya tekhnologicheskim oborudovaniem v real'nom vremeni // T-Comm. 2009. № S2. S. 121-124.
11.
Musatov V. K. Analiz tendentsii razvitiya rekomendatsii MSE-T po informatsionnoi bezopasnosti // T-Comm. 2013. № 7. S. 93-96
12.
Saati T.L. Prinyatie reshenii. Metod analiza ierarkhii. M.: Radio i svyaz', 1989. 316 s.
13.
Sliva M.V. Prototipirovanie graficheskogo interfeisa pol'zovatelya kak neot''emlemaya chast' protsessa razrabotki programmnogo obespecheniya // Vestnik NVGU. 2013. № 1. S. 74-76
14.
Denisenko V.A., Nagoev Z.V., Nagoeva O.V. Proektirovanie komp'yuternoi sistemy na osnove rekursivnoi kognitivnoi arkhitektury dlya zadachi sinteza intellektual'nogo povedeniya agenta // Programmnye sistemy i vychislitel'nye metody. 2013. № 3. C. 264-267. DOI: 10.7256/2305-6061.2013.3.9138.
15.
Trebukhin A.G. Intellektual'naya sistema proektirovaniya skhem avtomatizatsii // Programmnye sistemy i vychislitel'nye metody. 2012. № 1. C. 43-52.
16.
Golitsyna O.L. Osnovy proektirovaniya baz dannykh / O.L. Golitsyna. M.: Forum, 2012. 415 s.
17.
Bagutdinov R.A. Zadacha modelirovaniya opticheskogo potoka na osnove dinamiki dvizheniya chastits // Kibernetika i programmirovanie. 2016. № 5. S. 10-15. DOI: 10.7256/2306-4196.2016.5.18981.URL: http: //enotabene.ru/kp/article_18981.html
Link to this article

You can simply select and copy link from below text field.


Other our sites:
Official Website of NOTA BENE / Aurora Group s.r.o.
"History Illustrated" Website