SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3212993326> ?p ?o ?g. }

Showing items 1 to 100 of ±145 with 100 items per page.

W3212993326 endingPage "100126" @default.
W3212993326 startingPage "100126" @default.
W3212993326 abstract "A number of decarbonization scenarios for the energy sector are built on simultaneous electrification of energy demand, and decarbonization of electricity generation through renewable energy sources. However, increased electricity demand due to heat and transport electrification and the variability associated with renewables have the potential to disrupt stable electric grid operation. To address these issues using demand response, researchers and practitioners have increasingly turned towards automated decision support tools which utilize machine learning and optimization algorithms. However, when applied naively, these algorithms suffer from high sample complexity, which means that it is often impractical to fit sufficiently complex models because of a lack of observed data. Recent advances have shown that techniques such as transfer learning can address this problem and improve their performance considerably — both in supervised and reinforcement learning contexts. Such formulations allow models to leverage existing domain knowledge and human expertise in addition to sparse observational data. More formally, transfer learning embodies all techniques where one aims to increase (learning) performance in a target domain or task, by using knowledge gained in a source domain or task. This paper provides a detailed overview of state-of-the-art techniques on applying transfer learning in demand response, showing improvements that can exceed 30% in a variety of tasks. We observe that most research to date has focused on transfer learning in the context of electricity demand prediction, although reinforcement learning based controllers have also seen increasing attention. However, a number of limitations remain in these studies, including a lack of benchmarks, systematic performance improvement tracking, and consensus on techniques that can help avoid negative transfer." @default.
W3212993326 created "2021-11-22" @default.
W3212993326 creator A5008706525 @default.
W3212993326 creator A5024462942 @default.
W3212993326 creator A5057621400 @default.
W3212993326 creator A5075035678 @default.
W3212993326 creator A5078854904 @default.
W3212993326 creator A5086935847 @default.
W3212993326 creator A5089050773 @default.
W3212993326 date "2022-01-01" @default.
W3212993326 modified "2023-10-04" @default.
W3212993326 title "Transfer learning in demand response: A review of algorithms for data-efficient modelling and control" @default.
W3212993326 cites W1705374184 @default.
W3212993326 cites W1988382136 @default.
W3212993326 cites W1991274233 @default.
W3212993326 cites W1995139569 @default.
W3212993326 cites W2012072009 @default.
W3212993326 cites W2014264031 @default.
W3212993326 cites W2054251474 @default.
W3212993326 cites W2055171644 @default.
W3212993326 cites W2233941984 @default.
W3212993326 cites W2252962308 @default.
W3212993326 cites W2273355447 @default.
W3212993326 cites W2277948250 @default.
W3212993326 cites W2281071090 @default.
W3212993326 cites W2306386573 @default.
W3212993326 cites W2395579298 @default.
W3212993326 cites W2504141630 @default.
W3212993326 cites W2532006013 @default.
W3212993326 cites W2585216437 @default.
W3212993326 cites W2616881109 @default.
W3212993326 cites W2750304600 @default.
W3212993326 cites W2775155156 @default.
W3212993326 cites W2791331167 @default.
W3212993326 cites W2792046648 @default.
W3212993326 cites W2888449021 @default.
W3212993326 cites W2891898214 @default.
W3212993326 cites W2898855379 @default.
W3212993326 cites W2909973217 @default.
W3212993326 cites W2911778082 @default.
W3212993326 cites W2913340405 @default.
W3212993326 cites W2914396823 @default.
W3212993326 cites W2915043045 @default.
W3212993326 cites W2918916311 @default.
W3212993326 cites W2962980800 @default.
W3212993326 cites W2963382853 @default.
W3212993326 cites W2963409616 @default.
W3212993326 cites W2964248263 @default.
W3212993326 cites W2965525929 @default.
W3212993326 cites W2974046511 @default.
W3212993326 cites W2975975302 @default.
W3212993326 cites W2979990517 @default.
W3212993326 cites W2989855215 @default.
W3212993326 cites W2990747716 @default.
W3212993326 cites W2999491213 @default.
W3212993326 cites W3000184684 @default.
W3212993326 cites W3006087551 @default.
W3212993326 cites W3010424471 @default.
W3212993326 cites W3016324999 @default.
W3212993326 cites W3018181611 @default.
W3212993326 cites W3023318912 @default.
W3212993326 cites W3023700572 @default.
W3212993326 cites W3029357900 @default.
W3212993326 cites W3033993664 @default.
W3212993326 cites W3034272367 @default.
W3212993326 cites W3038743377 @default.
W3212993326 cites W3048002811 @default.
W3212993326 cites W3089273662 @default.
W3212993326 cites W3110772809 @default.
W3212993326 cites W3111914315 @default.
W3212993326 cites W3115179582 @default.
W3212993326 cites W3125822518 @default.
W3212993326 cites W3126704758 @default.
W3212993326 cites W3137465606 @default.
W3212993326 cites W3154877609 @default.
W3212993326 cites W3170539225 @default.
W3212993326 cites W3185247855 @default.
W3212993326 cites W3204620312 @default.
W3212993326 cites W3206306867 @default.
W3212993326 doi "https://doi.org/10.1016/j.egyai.2021.100126" @default.
W3212993326 hasPublicationYear "2022" @default.
W3212993326 type Work @default.
W3212993326 sameAs 3212993326 @default.
W3212993326 citedByCount "30" @default.
W3212993326 countsByYear W32129933262022 @default.
W3212993326 countsByYear W32129933262023 @default.
W3212993326 crossrefType "journal-article" @default.
W3212993326 hasAuthorship W3212993326A5008706525 @default.
W3212993326 hasAuthorship W3212993326A5024462942 @default.
W3212993326 hasAuthorship W3212993326A5057621400 @default.
W3212993326 hasAuthorship W3212993326A5075035678 @default.
W3212993326 hasAuthorship W3212993326A5078854904 @default.
W3212993326 hasAuthorship W3212993326A5086935847 @default.
W3212993326 hasAuthorship W3212993326A5089050773 @default.
W3212993326 hasBestOaLocation W32129933261 @default.
W3212993326 hasConcept C119599485 @default.
W3212993326 hasConcept C119857082 @default.
W3212993326 hasConcept C127413603 @default.