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      KCI등재 SCIE SCOPUS

      An Optimized Methodical Energy Management System for Residential Consumers Considering Price‑Driven Demand Response Using Satin Bowerbird Optimization

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      https://www.riss.kr/link?id=A106610077

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      다국어 초록 (Multilingual Abstract)

      Home energy management system (HEMS) is a section of demand response (DR), that plays an imperative role in the residential areas towards appliance management for the enhancement of energy efciency and grid stability. In this article, a methodical hom...

      Home energy management system (HEMS) is a section of demand response (DR), that plays an imperative role in the residential areas towards appliance management for the enhancement of energy efciency and grid stability. In this article, a methodical home energy management system (Methodical-HEMS) was proposed based upon K-means, a machine learning algorithm and satin bowerbird optimization (SBO) algorithm to optimize the scheduling of appliances within a 24-h period.
      The K-means algorithm is used for defning the discrete comfort window (DCW) for schedulable appliance, while SBO algorithm is used for defning the suitable time slots for the schedulable appliance to operate within the DCW. MethodicalHEMS is considered for a single home with the day ahead time of use pricing, to minimize the overall electricity bill (EB) and to satisfy the consumer’s comfort. The performance of Methodical-HEMS is evaluated with other heuristic algorithms, including a particle swarm optimization algorithm, grey wolf optimization algorithm, artifcial bee colony algorithm and genetic algorithm. The simulation outcomes demonstrate that, the SBO based HEMS algorithm efectually reduces the overall EB from ₹ 29.14/day to ₹ 22.84/day, minimizes the peak-to-average ratio by 10.28% and remains uncompromising on the consumer’s comfort.

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      참고문헌 (Reference)

      1 Negreiros M, "The capacitated centred clustering problem" 33 (33): 1639-1663, 2006

      2 Liang Y, "Stochastic control for smart grid users with flexible demand" 4 (4): 2296-2308, 2013

      3 Moosavi SHS, "Satin bowerbird optimizer : a new optimization algorithm to optimize ANFIS for software development effort estimation" 60 : 1-15, 2017

      4 Herter K, "Residential response to critical-peak pricing of electricity : California evidence" 35 (35): 1561-1567, 2010

      5 Ma J, "Residential load scheduling in smart grid : a cost efficiency perspective" 7 (7): 771-784, 2016

      6 Mahmood D, "Realistic scheduling mechanism for smart homes" 9 : 202-, 2016

      7 Rasheed MB, "Real time information-based energy management using customer preferences and dynamic pricing in smart homes" 9 : 542-, 2016

      8 Bishop C, "Pattern recognition and machine learning" Springer 2006

      9 Kennedy J, "Particle swarm optimization" 6 : 1942-1948, 1995

      10 Reddy SS, "Optimizing energy and demand response programs using multi-objective optimization" 99 : 397-406, 2017

      1 Negreiros M, "The capacitated centred clustering problem" 33 (33): 1639-1663, 2006

      2 Liang Y, "Stochastic control for smart grid users with flexible demand" 4 (4): 2296-2308, 2013

      3 Moosavi SHS, "Satin bowerbird optimizer : a new optimization algorithm to optimize ANFIS for software development effort estimation" 60 : 1-15, 2017

      4 Herter K, "Residential response to critical-peak pricing of electricity : California evidence" 35 (35): 1561-1567, 2010

      5 Ma J, "Residential load scheduling in smart grid : a cost efficiency perspective" 7 (7): 771-784, 2016

      6 Mahmood D, "Realistic scheduling mechanism for smart homes" 9 : 202-, 2016

      7 Rasheed MB, "Real time information-based energy management using customer preferences and dynamic pricing in smart homes" 9 : 542-, 2016

      8 Bishop C, "Pattern recognition and machine learning" Springer 2006

      9 Kennedy J, "Particle swarm optimization" 6 : 1942-1948, 1995

      10 Reddy SS, "Optimizing energy and demand response programs using multi-objective optimization" 99 : 397-406, 2017

      11 Zhao B, "Optimal sizing, operating strategy and operational experience of a stand-alone microgrid on Dongfushan Island" 113 : 1656-1666, 2014

      12 Mahmoudi N, "Modelling demand response aggregator behavior in wind power offering strategies" 133 : 347-355, 2014

      13 Mirjalili S, "Grey wolf optimizer" 69 : 46-61, 2014

      14 Man KF, "Genetic algorithms : concepts and applications [in engineering design]" 43 (43): 519-534, 1996

      15 Rahim S, "Exploiting heuristic algorithms to efficiently utilize energy management controllers with renewable energy sources" 129 : 452-470, 2016

      16 Soares A, "Domestic load scheduling using genetic algorithms" 7835 : 142-151, 2013

      17 Tsui KM, "Demand response optimization for smart home scheduling under real-time pricing" 3 (3): 1812-1821, 2012

      18 Chellamani GK, "Demand response management system with discrete time window using supervised learning algorithm" 57 : 131-138, 2019

      19 Gan G, "Data clustering: theory, algorithms, and applications" SIAM, Society for Industrial and Applied Mathematics, Philadelphia. American Statistical Association 2007

      20 Suri S, "Computing geodesic furthest neighbors in simple polygons" 39 (39): 220-235, 1989

      21 Jung YG, "Clustering performance comparison using k-means and expectation maximization algorithms" 28 (28): S44-S48, 2014

      22 Khan SS, "Cluster centre initialization algorithm for K-means clustering" 25 (25): 1293-1302, 2004

      23 Mahmood A, "An overview of load management techniques in smart grid" 39 (39): 1437-1450, 2015

      24 Ozturk Y, "An intelligent home energy management system to improve demand response" 4 (4): 694-701, 2013

      25 Chen C, "An innovative RTP-based residential power scheduling scheme for smart grids" 5956-5959, 2011

      26 Awais M, "An efficient genetic algorithm based demand side management scheme for smart grid" 351-356, 2015

      27 Hussain HM, "An efficient demand side management system with a new optimized home energy management controller in smart grid" 11 (11): 190-, 2018

      28 Fei H, "A survey of recent research on optimization models and algorithms for operations management from the process view" 2017

      29 Albadi MH, "A summary of demand response in electricity markets" 78 (78): 1989-1996, 2008

      30 Souza Dutra MD, "A realistic energy optimization model for smart-home appliances" 43 (43): 3237-3262, 2019

      31 Karaboga D, "A comparative study of Artificial Bee Colony algorithm" 214 (214): 108-132, 2009

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      학술지 이력

      학술지 이력
      연월일 이력구분 이력상세 등재구분
      학술지등록 한글명 : Journal of Electrical Engineering & Technology(JEET)
      외국어명 : Journal of Electrical Engineering & Technology
      2023 평가예정 해외DB학술지평가 신청대상 (해외등재 학술지 평가)
      2020-01-01 평가 등재학술지 유지 (해외등재 학술지 평가) KCI등재
      2011-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2009-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2006-01-01 평가 학술지 통합 (기타) KCI등재
      2006-01-01 평가 등재학술지 선정 (등재후보2차) KCI등재
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      학술지 인용정보

      학술지 인용정보
      기준연도 WOS-KCI 통합IF(2년) KCIF(2년) KCIF(3년)
      2016 0.45 0.21 0.39
      KCIF(4년) KCIF(5년) 중심성지수(3년) 즉시성지수
      0.37 0.34 0.372 0.04
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