SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2788378051> ?p ?o ?g. }

Showing items 1 to 100 of ±127 with 100 items per page.

W2788378051 endingPage "1588" @default.
W2788378051 startingPage "1578" @default.
W2788378051 abstract "Parameters estimation of photovoltaic (PV) model based on experimental data plays an important role in the simulation, evaluation, control, and optimization of PV systems. In the past decade, many metaheuristic algorithms have been used to extract the PV parameters; however, developing hybrid algorithms based on two or more metaheuristic algorithms may further improve the accuracy and reliability of single metaheuristic algorithms. In this paper, by combining teaching-learning-based optimization (TLBO) and artificial bee colony (ABC), we propose a new hybrid teaching-learning-based artificial bee colony (TLABC) for the solar PV parameter estimation problems. The proposed TLABC employs three hybrid search phases, namely teaching-based employed bee phase, learning-based on looker bee phase, and generalized oppositional scout bee phase to efficiently search the optimization parameters. TLABC is applied to identify parameters of different PV models, including single diode, double diode, and PV module, and the results of TLABC are compared with well-established TLBO and ABC algorithms, as well as those results reported in the literature. Experimental results show that TLABC can achieve superior performance in terms of accuracy and reliability for different PV parameter estimation problems." @default.
W2788378051 created "2018-03-06" @default.
W2788378051 creator A5006094059 @default.
W2788378051 creator A5053178444 @default.
W2788378051 creator A5063436972 @default.
W2788378051 creator A5072890050 @default.
W2788378051 creator A5082208116 @default.
W2788378051 date "2018-02-01" @default.
W2788378051 modified "2023-10-11" @default.
W2788378051 title "Teaching–learning–based artificial bee colony for solar photovoltaic parameter estimation" @default.
W2788378051 cites W1210381405 @default.
W2788378051 cites W1594022566 @default.
W2788378051 cites W1675841081 @default.
W2788378051 cites W1976162430 @default.
W2788378051 cites W1977042441 @default.
W2788378051 cites W1977315075 @default.
W2788378051 cites W1980583028 @default.
W2788378051 cites W1982251953 @default.
W2788378051 cites W1984172592 @default.
W2788378051 cites W1985147356 @default.
W2788378051 cites W1987328901 @default.
W2788378051 cites W1993186517 @default.
W2788378051 cites W2001422417 @default.
W2788378051 cites W2009435097 @default.
W2788378051 cites W2009919361 @default.
W2788378051 cites W2010811793 @default.
W2788378051 cites W2018785226 @default.
W2788378051 cites W2020414814 @default.
W2788378051 cites W2024808031 @default.
W2788378051 cites W2037647993 @default.
W2788378051 cites W2038636021 @default.
W2788378051 cites W2055557873 @default.
W2788378051 cites W2056203337 @default.
W2788378051 cites W2063333775 @default.
W2788378051 cites W2085425402 @default.
W2788378051 cites W2143560894 @default.
W2788378051 cites W2156194072 @default.
W2788378051 cites W2170942875 @default.
W2788378051 cites W2176629379 @default.
W2788378051 cites W2191201785 @default.
W2788378051 cites W2254642668 @default.
W2788378051 cites W2262722845 @default.
W2788378051 cites W2341862779 @default.
W2788378051 cites W2470299994 @default.
W2788378051 cites W2474174872 @default.
W2788378051 cites W2509515955 @default.
W2788378051 cites W2533855524 @default.
W2788378051 cites W2577587603 @default.
W2788378051 cites W2591538890 @default.
W2788378051 cites W2605500455 @default.
W2788378051 cites W2606339564 @default.
W2788378051 cites W2611196319 @default.
W2788378051 cites W2613613071 @default.
W2788378051 cites W2753628308 @default.
W2788378051 cites W2760572903 @default.
W2788378051 cites W2766852097 @default.
W2788378051 cites W659097678 @default.
W2788378051 doi "https://doi.org/10.1016/j.apenergy.2017.12.115" @default.
W2788378051 hasPublicationYear "2018" @default.
W2788378051 type Work @default.
W2788378051 sameAs 2788378051 @default.
W2788378051 citedByCount "274" @default.
W2788378051 countsByYear W27883780512018 @default.
W2788378051 countsByYear W27883780512019 @default.
W2788378051 countsByYear W27883780512020 @default.
W2788378051 countsByYear W27883780512021 @default.
W2788378051 countsByYear W27883780512022 @default.
W2788378051 countsByYear W27883780512023 @default.
W2788378051 crossrefType "journal-article" @default.
W2788378051 hasAuthorship W2788378051A5006094059 @default.
W2788378051 hasAuthorship W2788378051A5053178444 @default.
W2788378051 hasAuthorship W2788378051A5063436972 @default.
W2788378051 hasAuthorship W2788378051A5072890050 @default.
W2788378051 hasAuthorship W2788378051A5082208116 @default.
W2788378051 hasConcept C109718341 @default.
W2788378051 hasConcept C119599485 @default.
W2788378051 hasConcept C119857082 @default.
W2788378051 hasConcept C121332964 @default.
W2788378051 hasConcept C126255220 @default.
W2788378051 hasConcept C127413603 @default.
W2788378051 hasConcept C154945302 @default.
W2788378051 hasConcept C163258240 @default.
W2788378051 hasConcept C33923547 @default.
W2788378051 hasConcept C41008148 @default.
W2788378051 hasConcept C41291067 @default.
W2788378051 hasConcept C43214815 @default.
W2788378051 hasConcept C62520636 @default.
W2788378051 hasConcept C97133563 @default.
W2788378051 hasConceptScore W2788378051C109718341 @default.
W2788378051 hasConceptScore W2788378051C119599485 @default.
W2788378051 hasConceptScore W2788378051C119857082 @default.
W2788378051 hasConceptScore W2788378051C121332964 @default.
W2788378051 hasConceptScore W2788378051C126255220 @default.
W2788378051 hasConceptScore W2788378051C127413603 @default.
W2788378051 hasConceptScore W2788378051C154945302 @default.
W2788378051 hasConceptScore W2788378051C163258240 @default.
W2788378051 hasConceptScore W2788378051C33923547 @default.
W2788378051 hasConceptScore W2788378051C41008148 @default.