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Tytuł artykułu

Project of using an in-home display as a graphical user interface for a home area network

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Warianty tytułu
PL
Projekt wykorzystania wyświetlacza domowego jako graficznego interfejsu użytkownika dla sieci domowej
Języki publikacji
EN
Abstrakty
EN
Currently, smart energy meters are being implemented in many countries. In some countries, consumers also have an in-home display (IHD), a device that facilitates energy management by presenting interesting information about energy consumption. In this article, the authors presented their own design of an advanced in-home display. Two-way communication with such a display is necessary for its proper operation so that it could be an interactive device. The authors wanted households to have only one device for managing energy in a comprehensive way, and not many, each of which would have reduced functionality.
PL
Obecnie inteligentne liczniki energii wdrażane są w wielu krajach. W niektórych przypadkach odbiorców dodatkowo wyposaża się w wyświetlacz domowy, czyli urządzenie, które ułatwia zarządzanie energią prezentując interesujące informacje. W tym artykule autorzy przedstawili zaprojektowany przez siebie, rozbudowany funkcjonalnie wyświetlacz domowy. Zostałaby uruchomiona dwukierunkowa komunikacja z takim wyświetlaczem, dzięki czemu stałby się on urządzeniem interaktywnym. Autorzy chcieli, aby w gospodarstwie domowym było tylko jedno urządzenie umożliwiające zarządzanie energią w kompleksowy sposób, a nie wiele, z których każde posiadałoby okrojoną funkcjonalność.
Wydawca
Czasopismo
Rocznik
Tom
Strony
93--102
Opis fizyczny
Bibliogr. 36 poz., fig.
Twórcy
autor
  • Katedra Energoelektryki Politechniki Wrocławskiej
  • Katedra Informatyki Ekonomicznej Wydziału Ekonomiczno-Socjologicznego Uniwersytetu Łódzkiego
Bibliografia
  • [1] Tae-Seop Choi, Kyung-Rok Ko, Seong-Chan Park, Young-Sik Jang, Yong-Tae Yoon, Sang-Kug Im, Analysis of Energy Savings using Smart Metering System and IHD (In-Home Display), Transmission & Distribution Conference & Exposition: Asia and Pacific, 2009
  • [2] OFGEM, Smart Metering Implementation Programme: Statement of Design Requirements, 27 July 2010, OFGEM, Smart Metering Implementation Programme: In-Home Display, 27 July 2010
  • [3] Billewicz K., In-Home Display – a review of experiences from research projects, Acta Energetica, 4/2014, pp. 3-55
  • [4] Chen S., Liu T., Gao F., Ji J., Xu Z., Qian B., Wu H. and Guan X. (2017), Butler, Not Servant: A Human-Centric Smart Home Energy Management System, IEEE Communications Magazine Vol. 55(2), pp.27-33, DOI: 10.1109/MCOM.2017.1600699CM
  • [5] Ahmed M.S., Mohamed A., Khatib T., Shareef H., Homod R.Z. and Ali J.A. (2017), Real time optimal schedule controller for home energy managementsystem using new binary backtracking search algorithm, Energy and Buildings, Vol.138, pp. 215-227, DOI: 10.1016/j.enbuild.2016.12.052
  • [6] Iwafune Y., Mori Y., Kawai, T. and Yagita Y. (2017), Energy-saving effect of automatic home energy report utilizing home energy management system data in Japan, Energy, Vol. 125, pp.382-392, DOI: 10.1016/j.energy.2017.02.136
  • [7] Pinto R., Bessa R. and Matos M. (2017), Surrogate Model of Multi-Period Flexibility from a Home Energy Management System, CoRR, abs/1703.08825.
  • [8] Yuce B., Rezgui Y. and Mourshed M. (2016), ANN–GA Smart Appliance Scheduling for Optimized Energy Management in the Domestic Sector, Energy and Buildings, Vol. 111, pp. 311–325, DOI: 10.1016/j.enbuild.2015.11.017
  • [9] Ahmed M.S., Mohamed A., Homod R.Z. and Shareef H. (2016), Hybrid LSA-ANN Based Home Energy Management Scheduling Controller for Residential Demand Response Strategy, Energies, Vol. 9(9), 716, DOI: 10.3390/en9090716
  • [10] Yaagoubi N. and Mouftah H.T. (2015), User-Aware Game Theoretic Approach for Demand Management, IEEE Transactions on Smart Grid, Vol. 6(2), pp.716-725, DOI: 10.1109/TSG.2014.2363098
  • [11] Chen Z., Wu L. and Fu Y. (2012), Real-Time Price-Based Demand Response Management for Residential Appliances via Stochastic Optimization and Robust Optimization, IEEE Transactions on Smart Grid, Vol. 3(4), pp.1822-1831, DOI: 10.1109/TSG.2012.2212729
  • [12] Kuzlu M., Pipattanasomporn M. and Rahman S. (2012), Hardware Demonstration of a Home Energy Management System for Demand Response Applications, IEEE Transactions on Smart Grid, Vol. 3(4), pp.1704-1711, DOI: 10.1109/TSG.2012.2216295
  • [13] Kawakami T., Yoshihisa T., Fujita N. and Tsukamoto, M. (2013), A rule-based Home Energy Management System using the Rete algorithm, Conference: IEEE 2nd Global Conference on Consumer Electronics (GCCE), DOI: 10.1109/GCCE.2013.6664785
  • [14] Ahmad A., Khan A., Javaid N., Hussain H.M., Abdul W., Almogren A., Alamri A. and Niaz I.A. (2017), An Optimized Home Energy Management System with Integrated Renewable Energy and Storage Resources, Energies, Vol. 10(4), 549; DOI:10.3390/en10040549
  • [15] Ajao A., Luo J., Liang Z., Alsafasfeh Q. and Su W. (2017), Intelligent Home Energy Management System for Distributed Renewable Generators, Dispatchable Residential Loads and Distributed Energy Storage Devices, The 8th International Renewable Energy Congress (IREC 2017), arXiv:1704.04166
  • [16] Mubdir B., Al-Hindawi A. and Hadi N. (2016), Design of Smart Home Energy Management System for Saving Energy, European Scientific Journal, Vol. 12(33), pp.521-536, DOI: 10.19044/esj.2016.v12n33p521
  • [17] Naseem S.M., Javaid M. and Khan S.A. (2017), Heuristic Algorithm based Home Energy Management System in Smart Grid, Thesis for: MS (Electrical Engineering), Advisor: Nadeem Javaid, Shahid A. Khan, DOI: 10.13140/RG.2.2.11317.47840
  • [18] Saikia L.C., Das H., Dev Choudhury N.B. and Malakar T. (2016) GPRS enabled smart energy meter with in-home display and application of time of use pricing, 2016 IEEE Annual India Conference (INDICON), Bangalore, pp. 1-5, DOI: 10.1109/INDICON.2016.7839068
  • [19] Krishnamurti T., Davis A.L., Wong-Parodi G., Wang J. and Canfield C. (2013), Creating an in-home display: Experimental evidence and guidelines for design, Applied Energy, Vol. 108, pp. 448-458, DOI: 10.1016/j.apenergy.2013.03.048
  • [20] Stinson J., Reid A. and Bros-Williamson J. (2016), Energy behaviour change and coloured inhome display 41st IAHS World Congress on Sustainability and Innovation for the Future, 13-16th September 2016, Albufeira, Algarve, Portugal
  • [21] Zhanga X., Shena J., Yanga T., Tanga L., Wanga L., Liub Y. and Xuc P. (2016), Smart meter and in-home display for energy savings in residential buildings: a pilot investigation in Shanghai, China, Intelligent Buildings International, pp.1-23, DOI: 10.1080/17508975.2016.1213694
  • [22] Sæle H., Nordgård D. E., Følstad K. A. and Rivelsrød S. O. (2013), In-home displays at household customers. Results from a Norwegian pilot study, 22nd International Conference and Exhibition on Electricity Distribution (CIRED 2013), Stockholm, 2013, pp. 1-4. DOI: 10.1049/cp.2013.0981
  • [23] Costa L.C.P., Almeida N.S., Correa A.G.D., Lopes R.D., Zuffo M.K., Accessible display design to control home area networks, IEEE Transactions on Consumer Electronics, Vol. 59, pp. 422-427, DOI: 10.1109/TCE.2013.6531126
  • [24] Kazi, R. and Tiwari, G. (2015), IoT based Interactive Industrial Home wireless system, Energy management system and embedded data acquisition system to display on web page using GPRS, SMS & E-mail alert, 2015 International Conference on Energy Systems and Applications, Pune, 2015, pp. 290-295, DOI: 10.1109/ICESA.2015.7503358
  • [25] Dingler T., Wahju P., Knierim P. and Schmidt A. (2016), Memory Support through In-Home Display Deployment, IT Professional, Vol. 18(6), pp.42-49, DOI: 10.1109/MITP.2016.106
  • [26] James B., Fletcher B. and Wearn N. (2013), Gamification of Smart Meter Home Display Units Using Targeted Reward Mechanics, in: The Power of Play: Motivational Uses and Applications of Digital Games. Pre-Conference to the 63rd International Communication Association (ICA) Annual Conference, 17th June 2013, London, UK
  • [27] Lee J., Park G.-L. and Han J. (2013), Integrative In-Home Display Development for Smart Places, Lecture Notes in Electrical Engineering, Vol. 214, pp. 363-370, DOI: 10.1007/978-94-007-5857-5_39
  • [28] Kim D.S., Son S.-Y. and Lee J. (2013), Developments of the In-Home Display Systems for Residential Energy Monitoring, IEEE Transactions on Consumer Electronics, Vol. 59(3), pp.492-498, DOI: 10.1109/TCE.2013.6626229
  • [29] Makonin S., Popowich F., Moon T. and Gill B. (2013), Inspiring Energy Conservation Through Open Source Power Monitoring and In-Home Display, 2013 IEEE Power & Energy Society General Meeting, Vancouver, BC, pp. 1-5, DOI: 10.1109/PESMG.2013.6672619
  • [30] Berry S., Whaley D., Saman W. and Davidson K. (2016), Finding faults and influencing consumption: the role of in-home energy feedback displays in managing high-tech homes, Energy Efficiency, pp.1-21, DOI: 10.1007/s12053-016-9489-9
  • [31] Najafabadi M.M., Villanustre F., Khoshgoftaar T.M., Seliya N., Wald R. and Muharemagic E. (2015), Deep Learning Techniques in Big Data Analytics, Journal of Big Data 2(1), pp.1-21, DOI: 10.1186/s40537-014-0007-7
  • [32] Srivastava N., Hinton G., Krizhevsky A., Sutskever I., Salakhutdinov R. (2014), Dropout: a simple way to prevent neural networks from overfitting, Journal of Machine Learning Research 15, pp.1929-1958
  • [33] Ravanelli M., Brakel P., Omologo M. and Bengio Y. (2017), A Network of Deep Neural Networks for Distant Speech Recognition, arXiv:1703.08002 [cs.CL]
  • [34] Grozdić D., Subotic M. and Jovičić S.T. (2017), Whispered speech recognition using deep denoising autoencode, Engineering Applications of Artificial Intelligence 59, pp.15-22, DOI: 10.1016/j.engappai.2016.12.012
  • [35] Lee B. and Cho K-H. (2016), Brain-inspired speech segmentation for automatic speech recognition using the speech envelope as a temporal reference, Scientific Reports 6, pp. 1-12, DOI: 10.1038/srep37647
  • [36] OFGEM, Smart Metering Implementation Programme: Consumer Protection, 27 July 2010
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ed30ecf7-30fb-47f4-a6a1-9b7b5b0f18c4
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