Load control battery strategy based on backpropagation and simulated annealing training performance

Pambudi, Wahyu S.; Firmansyah, Riza Agung; Dawenan, Christabella M.; Muharom, Syahri; Rachman, Andy; Alfianto, Enggar; Sa'diyah, Aminatus; Tompunu, Alan Novi

doi:10.15199/48.2024.09.31

Artykuł - szczegóły

Tytuł artykułu

Load control battery strategy based on backpropagation and simulated annealing training performance

Autorzy

Pambudi Wahyu S. , Firmansyah Riza Agung , Dawenan Christabella M. , Muharom Syahri , Rachman Andy , Alfianto Enggar , Sa'diyah Aminatus , Tompunu Alan Novi

Treść / Zawartość

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Identyfikatory

DOI

10.15199/48.2024.09.31

Warianty tytułu

Strategia kontroli obciążenia baterii oparta na propagacji wstecznej i symulowanym wyżarzaniu

Języki publikacji

Abstrakty

Nowadays, the light control system only uses scheduling so if the season changes the system becomes less effectivity. This study aims to compare the backpropagation (BP) and simulated annealing (SA) algorithm training performances for the ANN system. The selection of the ANN method for estimating the intensity of solar radiation is because it can estimate the daily or hourly average solar radiation with high accuracy. In order to find out the best performance, this research compares BP and SA algorithms based on their Mean Square Error (MSE) and Absolute Error (AE) values. Based on the results, this study shows that MSE and AE values for SA are better than BP. The MSE value of SA is 0.047338156 lower than BP, while the AE value of SA is 19.26% lower than BP. The results of this study prove that for training on a supervised control system using ANN, simulated annealing could be prioritized in the active power load control strategy.

Obecnie system sterowania oświetleniem opiera się wyłącznie na harmonogramie, zatem w przypadku zmiany pory roku skuteczność systemu staje się mniejsza. Celem tego badania jest porównanie wydajności uczenia algorytmu propagacji wstecznej (BP) i symulowanego wyżarzania (SA) dla systemu SSN. Wybór metody SSN do szacowania natężenia promieniowania słonecznego wynika z faktu, że pozwala ona z dużą dokładnością oszacować średnie dobowe lub godzinne promieniowanie słoneczne. Aby określić najlepszą wydajność, w badaniu tym porównano algorytmy BP i SA w oparciu o wartość błędu średniokwadratowego (MSE) i błędu bezwzględnego (AE). Na podstawie wyników badanie to pokazuje, że wartości MSE i AE dla SA są lepsze niż BP. Wartość MSE SA jest o 0,047338156 niższa niż BP, natomiast wartość AE SA jest o 19,26% niższa niż BP. Wyniki tego badania dowodzą, że w przypadku szkolenia w nadzorowanym systemie sterowania wykorzystującym SSN, symulowane wyżarzanie może mieć priorytet w strategii sterowania obciążeniem mocą czynną.

Słowa kluczowe

light control ANN backpropagation simulated annealing

sterowanie światłem SSN propagacja wsteczna symulowane wyżarzanie

Wydawca

Wydawnictwo SIGMA-NOT

Czasopismo

Przegląd Elektrotechniczny

Rocznik

2024

Tom

R. 100, nr 9

Strony

167--170

Opis fizyczny

Bibliogr. 28 poz., rys., tab.

Twórcy

autor

Pambudi Wahyu S.

Faculty of Electrical Engineering And Information Technology, Institut Teknologi Adhi Tama Surabaya, Indonesia

https://orcid.org/0000-0001-7180-1102

autor

Firmansyah Riza Agung

Faculty of Electrical Engineering And Information Technology, Institut Teknologi Adhi Tama Surabaya, Indonesia

https://orcid.org/0000-0002-2157-800X

autor

Dawenan Christabella M.

Faculty of Electrical Engineering And Information Technology, Institut Teknologi Adhi Tama Surabaya, Indonesia

autor

Muharom Syahri

Faculty of Electrical Engineering And Information Technology, Institut Teknologi Adhi Tama Surabaya, Indonesia

https://orcid.org/0000-0002-8030-632X

autor

Rachman Andy

Faculty of Electrical Engineering And Information Technology, Institut Teknologi Adhi Tama Surabaya, Indonesia

https://orcid.org/0000-0002-2328-9367

autor

Alfianto Enggar

Faculty of Electrical Engineering And Information Technology, Institut Teknologi Adhi Tama Surabaya, Indonesia

https://orcid.org/0000-0002-2091-3419

autor

Sa'diyah Aminatus

Department of Marine Engineering, Politeknik Perkapalan Negeri Surabaya (PPNS

https://orcid.org/0000-0002-9540-2154

autor

Tompunu Alan Novi

Department of Computer Engineering, Politeknik Negeri Sriwijaya (POLSRI), Palembang, Indonesia

https://orcid.org/0000-0003-4859-6168

Bibliografia

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[2]. Boyle G. Renewable Energy (pp. 464), Oxford University Press, 2004
[3]. G.V.Mamedova, G.S.Kerimzade, N.M.Piriyeva Electromagnetic calculation of tension devices for winding wires of small cross sections IJTPE Journal, ISSUE 53.Volume 14. Number 4. December, 2022, (Serial № 0053-1404-1222), IJTPE - Issue 53-Vol 14 - № 4-Dec.2022- p.80-85.
[4]. Ilkin Marufov, Aynura Allahverdiyeva, Nijat Mammadov, “Study of application characteristics of cylindrical structure induction levitator in general and vertical axis wind turbines”, PRZEGLĄD ELEKTROTECHNICZNY, R. 99 NR 10/2023, pp.196-199
[5]. Nijat Mammadov, “Analysis of systems and methods of emergency braking of wind turbines”. International Science Journal of Engineering & Agriculture Vol. 2, № 2, pp. 147-152, Ukraine, April 2023
[6]. L.N. Kanov, “Mathematical Modeling of a Wind Power Plant with an Asynchronous Generator”, Power Engineering and Electromechanics, Vol. 2, No. 5, pp. 71-74, Ukraine, 2012.
[7]. T. Haidi, B. Cheddadi, “State of Wind Energy in the World: Evolution, Impacts and Perspectives”, International Journal on Technical and Physical Problem on Engineering (IJTPE), Issue 51, Vol. 14, No. 2, pp. 347-352, June 2022
[8]. N.A. Aliyev, E.N. Ahmadov, S.A. Khanahmadova, ”Improving efficiency of wind turbines with electromagnetic brakes”, IJTPE, Issue 55, Vol 15, No 2, pp. 37-43, June 2023
[9]. N.S. Mammadov, G.A. Aliyeva, “Energy efficiency improving of a wind electric installation using a thyristor switching system for stator winding of a two-speed asynchronous generator”, IJTPE, Isssue 55, Vol 15, No 2, pp. 285-290, June 2023
[10]. Nijat Mammadov, Ilkin Marufov, Saadat Shikhaliyeva, Gulnara Aliyeva, Saida Kerimova, “Research of methods power control of wind turbines”, PRZEGLAD ELEKTROTECHNICZNY, R. 100 NR 5/2024, pp. 236-239
[11]. Abdulkadyrov A.I. “A new principle of synchronization of an asynchronous motor” // Elektrotekhnika. 1998. No. 4. S. 17-20.
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[14]. Mammadov Nijat, “PROSPECTS FOR THE DEVELOPMENT OF RENEWABLE ENERGY SOURCES”, The 29th International scientific and practical conference “Modern scientific trends and youth development”(July 25–28, 2023) Warsaw, Poland. International Science Group. 2023. 244 p.
[15]. P.W Carlin. “The history and state of the art of variable-speed wind turbine technology”, Technical Report NREL/TP–500–28607, National Renewable Energy Laboratory, USA, 2001.
[16]. I.N. Rahimli, S.V. Rzayeva, E.E. Umudov, “DIRECTION OF ALTERNATIVE ENERGY”, Vestnik nauki, Issue 2, Vol. 61, №4, April 2023
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[21]. Piriyeva N.M, Kerimzade G.S., “Mathematical model for the calculation of electrical devices based on induction levitators”, IJ TPE Journal, ISSUE 55. Volume 15 . Number 2, (Serial № 0055-1502- 0623), IJTPE – june 2023. p.274-280.
[22]. Piriyeva N.M, Kerimzade G.S. “Electromagnetic efficiency in induction levitators and ways to improve it“ Przeglad Elektrotechniczny. R.99 NR 06/2023, Poland, pp.204-207
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[26]. Pirieva N.M., Huseynov Z.F. /Characteristics of synchronous motors /. International scientific journal “Bulletin of Science” No. 3 (60) Volume 4. P.241-246
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Uwagi

Opracowanie rekordu ze środków MNiSW, umowa nr POPUL/SP/0154/2024/02 w ramach programu "Społeczna odpowiedzialność nauki II" - moduł: Popularyzacja nauki i promocja sportu (2025).

Typ dokumentu

Bibliografia

Identyfikator YADDA

bwmeta1.element.baztech-39f289d7-9523-4ab5-aa48-db724eb3e644