Diseño y simulación de un medidor de energía eléctrica bajo el concepto de redes inteligentes (smart grids)

Propia

Autores:: Martinez Ortiz, Juan Camilo

Tipo de recurso:: Trabajo de grado de pregrado

Fecha de publicación:: 2020

Institución:: Universidad Antonio Nariño

Repositorio:: Repositorio UAN

Idioma:: spa

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repository_id_str
dc.title.es_ES.fl_str_mv	Diseño y simulación de un medidor de energía eléctrica bajo el concepto de redes inteligentes (smart grids)
title	Diseño y simulación de un medidor de energía eléctrica bajo el concepto de redes inteligentes (smart grids)
spellingShingle	Diseño y simulación de un medidor de energía eléctrica bajo el concepto de redes inteligentes (smart grids) Medidor de energía eléctrica inteligente Redes inteligentes Simulación Envió de señales a la nube conexión y desconexión automática Smart energy meter smart grids Simulation Sending signals to the cloud automatic connection and disconnection
title_short	Diseño y simulación de un medidor de energía eléctrica bajo el concepto de redes inteligentes (smart grids)
title_full	Diseño y simulación de un medidor de energía eléctrica bajo el concepto de redes inteligentes (smart grids)
title_fullStr	Diseño y simulación de un medidor de energía eléctrica bajo el concepto de redes inteligentes (smart grids)
title_full_unstemmed	Diseño y simulación de un medidor de energía eléctrica bajo el concepto de redes inteligentes (smart grids)
title_sort	Diseño y simulación de un medidor de energía eléctrica bajo el concepto de redes inteligentes (smart grids)
dc.creator.fl_str_mv	Martinez Ortiz, Juan Camilo
dc.contributor.advisor.spa.fl_str_mv	Diaz Salas, Sergio Andrés
dc.contributor.author.spa.fl_str_mv	Martinez Ortiz, Juan Camilo
dc.subject.es_ES.fl_str_mv	Medidor de energía eléctrica inteligente Redes inteligentes Simulación Envió de señales a la nube conexión y desconexión automática
topic	Medidor de energía eléctrica inteligente Redes inteligentes Simulación Envió de señales a la nube conexión y desconexión automática Smart energy meter smart grids Simulation Sending signals to the cloud automatic connection and disconnection
dc.subject.keyword.es_ES.fl_str_mv	Smart energy meter smart grids Simulation Sending signals to the cloud automatic connection and disconnection
description	Propia
publishDate	2020
dc.date.issued.spa.fl_str_mv	2020-11-24
dc.date.accessioned.none.fl_str_mv	2021-03-10T16:03:15Z
dc.date.available.none.fl_str_mv	2021-03-10T16:03:15Z
dc.type.spa.fl_str_mv	Trabajo de grado (Pregrado y/o Especialización)
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dc.identifier.uri.none.fl_str_mv	http://repositorio.uan.edu.co/handle/123456789/3071
dc.identifier.bibliographicCitation.spa.fl_str_mv	B. MinMinas, Smart Grids Colombia: Vision 2030 – Primera parte, Bogotá: BID, 2016. D. e. i. d. u. S. d. M. I. p. A. d. l. m. d. l. U. d. Nariño, «Andrés F. Arciniegas, David E Imbajoa R, Javier Revelo F,» Enfoque UTE , vol. 8, 2017. M. Strzegowski, «Realizing the full potencial of your AMI deployment with meter diagnostic data,» Analog Divices Inc., vol. 1, nº 1, p. 4, 2017. Y. Z. W. S. Y. R. Z. H. Y. Q. Zhang Luhua, «Effects of Advanced Metering Infrastructure (AMI) on relations of Power Supply and Application in smart grid,» CICED 2010 Proceedings, Nanjing, vol. 1, nº 1, p. 5, 2010. A. P. S. M. B. V. M. V. G. Vilas, «Implementation of metering practices in smart grid,» International Conference on Smart Technologies and Management for Computing, Communication, Controls, Energy and Materials (ICSTM), Chennai, vol. 1, nº 1, p. 4, 2015. J. R. W. M. J. F. R. R. Céspedes, «Methodology for defining the functionality of advanced measurement infraestructure in colombia,» IEEE PES Innovative Smart Grid Technologies Conference - Latin America (ISGT Latin America), Quito, vol. 1, nº 1, p. 6, 2017. Which, « "Energy monitors: Smart meters and energy monitors explained", Which? (n.d.),» [En línea]. Available: https://www.which.co.uk/reviews/smart-meters/article/guides. T. Jacopo, de Peak energy demand and Demand Side Response, 2017, p. 172. J. Sinopoli, de mart Building Systems for Architects, Owners, and Builders, 2010, pp. PP. 65-65. T. C. Y. B. MORTON, «VANCOUVER SUN,» 26 09 2013. [En línea]. Available: http://www.vancouversun.com/business/Laid+Hydro+meter+readers+still+looking+work+union+says/8959689/story.html. [Último acceso: 2020 07 16]. A. d. Cordova, de Estudio de medidores inteligentes y su impacto en tarifas, Santiago de Chile, 2016, p. 141. C. F. R. -. B. A. C. -. E. F. Caicedo, «Una propuesta de modelos de datos y protocolos de intercambio de información estandarizados aplicables a sistemas de medida centralizada,» Revista Ingenierías Universidad de Medellín, vol. 16, nº 30, pp. 149-167, 2017. IEEE, «IEEE Standard for Local Area Network/Wide Area Network (LAN/WAN) Node Communication Protocol to Complement the Utility Industry End Device Data Tables,» de IEEE Std 1703-2012, 2012, pp. pp. 1-239. IEC, «Electricity metering data exchange The DLMS/COSEM suite Part 1-0: Smart metering standardisation framework,” ,,» International Electrotechnical Commission, Vols. %1 de %2 Standard IEC 62056-1-0, 2014. IEC, «Distribution automation using distribution line carrier systems Part 5-1: Lower layer profiles The spread frequency shift keying (S-FSK) profile,» International Electrotechnical Commission, Vols. %1 de %2Standard IEC 61334-5-1, 2002. IEC, «Electricity metering Data exchange for meter reading, tariff and load control Part 21: Direct local data exchange,» International Electrotechnical Commission, Vols. %1 de %2Standard IEC 62056-21, 2002. IEC, «Electricity metering data exchange The DLMS/COSEM suite Part 3-1: Use of local area networks on twisted pair with carrier signalling,» International Electrotechnical Commissio, Vols. %1 de %2 Standard IEC 62056-3-1:2013, 2013. CENELEC, «Electricity metering data exchange Part 4: Lower layer PLC profile using SMITP B-PSK modulation,» de CEN-CENELEC, Standard CLC/TS 50568-4:2015, 2015. P. PRIME, «PRIME v1.4 Specifications,» de PRIME Alliance, Standard, 2014. ZigBee, «Smart Energy Profile 2 Application Protocol Standard,» de ZigBee Alliance, Inf. téc, 2013. ERDF, «Electricity metering Data exchange over powerline Part 2 : Lower layer profile using OFDM modulation type 2,» de CENELEC, Inf. téc., 2011. G. B. a. K. Raahemifar, «“Optimization of distributed communication architectures in advanced metering infrastructure of smart grid,» IEEE 27, vol. 27th, pp. 1-6, 2014. P. D. X. G. a. F. L. G. N. Lu, Smart Meter Data Analysis, 2012. L. V. I. M. L. D. a. M. A. A. P. J. R. I. Pedrasa, «Design and Implementation of an AMI Emulator for User Feature Studie,» 2014, p. 366–371. MinisterioMinasyEnergia, «Resolucion 40072 del 2018,» Bogota - Colombia, 2018. D. Kádár, de The role of the Smart meters in the energy management systems, 2016. IEEE, «IEEE Standard for Optical Port Communication Protocol to Complement the Utility Industry End Device Data Tables,» de IEEE Std 1701-2011, 2011, pp. pp. 1-50. IEEE, «IEEE Standard for Utility Industry Metering Communication Protocol Application Layer (End Device Data Tables),» de IEEE Std 1377-2012 (Revision of IEEE Std 1377-1997), 2012, pp. pp. 1-576. R. H. M. M. C. N. B. I. M. O. D. P. A. C. B. C. C. S. D. S. D. D. H. D. K. T. K. B. M. H. N. F. S. G. S. D. T. K. W. G. W. C. Z. E. B. S Liaisons, «BACnet A Data Communication Protocol for Building Automation and Control Networks,» de ANSI/ASHRAE Standard 135, 2012. S. K. G. K. a. H. K. SH Hong, «Experimental evaluation of BZ-GW (BACnet-ZigBee smart grid gateway) for demand response in buildings,» Energy, vol. vol 65, pp. pp. 62-70, 2014. IEC, «Communication networks and systems for power utility automation-ALLPARTS,» International Electrotechnical Commission, vol. standard, 2015. CEN, «Communication systems for meters Part 1: Data exchange,» CEN-CENELEC, Vols. %1 de %2 Standard EN 13757-1, 2015. Modbus, «Modbus Application Protocol Specification V1.1b3,» de Inf. téc, Modbus Organization, 2012. W. a. D. N. Landis, «Smart Message Language Version 1.03,» de DKE, Standard 1.03, 2008., 2008. D. M. G. K. G. F. W. S. W. F. H. H. T. S. T. G. H. K. T. W. G. R. F. T. a. J. C. G Mauri, «STATE-OF-THE-ART TECHNOLOGIES AND PROTOCOLS Description of State of the Art Communication Protocols and Data Structures,» de The OPEN meter Consortium, Inf. téc, 2010. N. K. J. H. a. D. C. G Montenegro, «Transmission of IPv6 Packets over IEEE 802.15.4 Networks,» de RFC Editor, RFC 4944, 2007. S. C. E. N. a. C. B. Z Shelby, «Neighbor Discovery Optimization for IPv6 over Low-Power Wireless Personal Area Networks (6LoWPANs),» de RFC Editor, RFC 6775, 2012. DLT, «DL/T 645 2007 Multi-Function Watt-Hour Meter Communications Protocol,» de People’s Republic of China, Inf. téc, 2007. ITU-T, «Unified high-speed wireline-based home networking transceivers System architecture and physical layer specification,,» de International Telecommunication Union, Standard G.9960, 2015, 2015. S. N. Y. S. K. a. S. G. B. K. Barman, «IOT Based Smart Energy Meter for Efficient Energy Utilization in Smart Grid,» 2nd International Conference on Power, Energy and Environment: Towards Smart Technology (ICEPE), vol. 2, nº 1, p. 5, 2018. N. A. M. L. a. N. A. K. N. H. Azmi, «Modeling of Energy Meter Using MATLAB/Simulink,» IEEE Control and System Graduate Research Colloquium (ICSGRC), vol. 1, nº 9th, pp. 1-6, 2018. E. S.A, «enel.com,» ENEL S.A, 2018. [En línea]. Available: https://www.enel.com.co/es/medicion-inteligente.html. [Último acceso: 17 Abril 2020]. MinisterioMinasyEnergia, «Resolucion 4-0483-2019,» 2019. MinisterioMinasyEnergia, «Resolución 4.0459 -2019,» de Por la cual se modifica la resolucion 40072-2018, 2019.
dc.identifier.instname.spa.fl_str_mv	instname:Universidad Antonio Nariño
dc.identifier.reponame.spa.fl_str_mv	reponame:Repositorio Institucional UAN
dc.identifier.repourl.spa.fl_str_mv	repourl:https://repositorio.uan.edu.co/
url	http://repositorio.uan.edu.co/handle/123456789/3071
identifier_str_mv	B. MinMinas, Smart Grids Colombia: Vision 2030 – Primera parte, Bogotá: BID, 2016. D. e. i. d. u. S. d. M. I. p. A. d. l. m. d. l. U. d. Nariño, «Andrés F. Arciniegas, David E Imbajoa R, Javier Revelo F,» Enfoque UTE , vol. 8, 2017. M. Strzegowski, «Realizing the full potencial of your AMI deployment with meter diagnostic data,» Analog Divices Inc., vol. 1, nº 1, p. 4, 2017. Y. Z. W. S. Y. R. Z. H. Y. Q. Zhang Luhua, «Effects of Advanced Metering Infrastructure (AMI) on relations of Power Supply and Application in smart grid,» CICED 2010 Proceedings, Nanjing, vol. 1, nº 1, p. 5, 2010. A. P. S. M. B. V. M. V. G. Vilas, «Implementation of metering practices in smart grid,» International Conference on Smart Technologies and Management for Computing, Communication, Controls, Energy and Materials (ICSTM), Chennai, vol. 1, nº 1, p. 4, 2015. J. R. W. M. J. F. R. R. Céspedes, «Methodology for defining the functionality of advanced measurement infraestructure in colombia,» IEEE PES Innovative Smart Grid Technologies Conference - Latin America (ISGT Latin America), Quito, vol. 1, nº 1, p. 6, 2017. Which, « "Energy monitors: Smart meters and energy monitors explained", Which? (n.d.),» [En línea]. Available: https://www.which.co.uk/reviews/smart-meters/article/guides. T. Jacopo, de Peak energy demand and Demand Side Response, 2017, p. 172. J. Sinopoli, de mart Building Systems for Architects, Owners, and Builders, 2010, pp. PP. 65-65. T. C. Y. B. MORTON, «VANCOUVER SUN,» 26 09 2013. [En línea]. Available: http://www.vancouversun.com/business/Laid+Hydro+meter+readers+still+looking+work+union+says/8959689/story.html. [Último acceso: 2020 07 16]. A. d. Cordova, de Estudio de medidores inteligentes y su impacto en tarifas, Santiago de Chile, 2016, p. 141. C. F. R. -. B. A. C. -. E. F. Caicedo, «Una propuesta de modelos de datos y protocolos de intercambio de información estandarizados aplicables a sistemas de medida centralizada,» Revista Ingenierías Universidad de Medellín, vol. 16, nº 30, pp. 149-167, 2017. IEEE, «IEEE Standard for Local Area Network/Wide Area Network (LAN/WAN) Node Communication Protocol to Complement the Utility Industry End Device Data Tables,» de IEEE Std 1703-2012, 2012, pp. pp. 1-239. IEC, «Electricity metering data exchange The DLMS/COSEM suite Part 1-0: Smart metering standardisation framework,” ,,» International Electrotechnical Commission, Vols. %1 de %2 Standard IEC 62056-1-0, 2014. IEC, «Distribution automation using distribution line carrier systems Part 5-1: Lower layer profiles The spread frequency shift keying (S-FSK) profile,» International Electrotechnical Commission, Vols. %1 de %2Standard IEC 61334-5-1, 2002. IEC, «Electricity metering Data exchange for meter reading, tariff and load control Part 21: Direct local data exchange,» International Electrotechnical Commission, Vols. %1 de %2Standard IEC 62056-21, 2002. IEC, «Electricity metering data exchange The DLMS/COSEM suite Part 3-1: Use of local area networks on twisted pair with carrier signalling,» International Electrotechnical Commissio, Vols. %1 de %2 Standard IEC 62056-3-1:2013, 2013. CENELEC, «Electricity metering data exchange Part 4: Lower layer PLC profile using SMITP B-PSK modulation,» de CEN-CENELEC, Standard CLC/TS 50568-4:2015, 2015. P. PRIME, «PRIME v1.4 Specifications,» de PRIME Alliance, Standard, 2014. ZigBee, «Smart Energy Profile 2 Application Protocol Standard,» de ZigBee Alliance, Inf. téc, 2013. ERDF, «Electricity metering Data exchange over powerline Part 2 : Lower layer profile using OFDM modulation type 2,» de CENELEC, Inf. téc., 2011. G. B. a. K. Raahemifar, «“Optimization of distributed communication architectures in advanced metering infrastructure of smart grid,» IEEE 27, vol. 27th, pp. 1-6, 2014. P. D. X. G. a. F. L. G. N. Lu, Smart Meter Data Analysis, 2012. L. V. I. M. L. D. a. M. A. A. P. J. R. I. Pedrasa, «Design and Implementation of an AMI Emulator for User Feature Studie,» 2014, p. 366–371. MinisterioMinasyEnergia, «Resolucion 40072 del 2018,» Bogota - Colombia, 2018. D. Kádár, de The role of the Smart meters in the energy management systems, 2016. IEEE, «IEEE Standard for Optical Port Communication Protocol to Complement the Utility Industry End Device Data Tables,» de IEEE Std 1701-2011, 2011, pp. pp. 1-50. IEEE, «IEEE Standard for Utility Industry Metering Communication Protocol Application Layer (End Device Data Tables),» de IEEE Std 1377-2012 (Revision of IEEE Std 1377-1997), 2012, pp. pp. 1-576. R. H. M. M. C. N. B. I. M. O. D. P. A. C. B. C. C. S. D. S. D. D. H. D. K. T. K. B. M. H. N. F. S. G. S. D. T. K. W. G. W. C. Z. E. B. S Liaisons, «BACnet A Data Communication Protocol for Building Automation and Control Networks,» de ANSI/ASHRAE Standard 135, 2012. S. K. G. K. a. H. K. SH Hong, «Experimental evaluation of BZ-GW (BACnet-ZigBee smart grid gateway) for demand response in buildings,» Energy, vol. vol 65, pp. pp. 62-70, 2014. IEC, «Communication networks and systems for power utility automation-ALLPARTS,» International Electrotechnical Commission, vol. standard, 2015. CEN, «Communication systems for meters Part 1: Data exchange,» CEN-CENELEC, Vols. %1 de %2 Standard EN 13757-1, 2015. Modbus, «Modbus Application Protocol Specification V1.1b3,» de Inf. téc, Modbus Organization, 2012. W. a. D. N. Landis, «Smart Message Language Version 1.03,» de DKE, Standard 1.03, 2008., 2008. D. M. G. K. G. F. W. S. W. F. H. H. T. S. T. G. H. K. T. W. G. R. F. T. a. J. C. G Mauri, «STATE-OF-THE-ART TECHNOLOGIES AND PROTOCOLS Description of State of the Art Communication Protocols and Data Structures,» de The OPEN meter Consortium, Inf. téc, 2010. N. K. J. H. a. D. C. G Montenegro, «Transmission of IPv6 Packets over IEEE 802.15.4 Networks,» de RFC Editor, RFC 4944, 2007. S. C. E. N. a. C. B. Z Shelby, «Neighbor Discovery Optimization for IPv6 over Low-Power Wireless Personal Area Networks (6LoWPANs),» de RFC Editor, RFC 6775, 2012. DLT, «DL/T 645 2007 Multi-Function Watt-Hour Meter Communications Protocol,» de People’s Republic of China, Inf. téc, 2007. ITU-T, «Unified high-speed wireline-based home networking transceivers System architecture and physical layer specification,,» de International Telecommunication Union, Standard G.9960, 2015, 2015. S. N. Y. S. K. a. S. G. B. K. Barman, «IOT Based Smart Energy Meter for Efficient Energy Utilization in Smart Grid,» 2nd International Conference on Power, Energy and Environment: Towards Smart Technology (ICEPE), vol. 2, nº 1, p. 5, 2018. N. A. M. L. a. N. A. K. N. H. Azmi, «Modeling of Energy Meter Using MATLAB/Simulink,» IEEE Control and System Graduate Research Colloquium (ICSGRC), vol. 1, nº 9th, pp. 1-6, 2018. E. S.A, «enel.com,» ENEL S.A, 2018. [En línea]. Available: https://www.enel.com.co/es/medicion-inteligente.html. [Último acceso: 17 Abril 2020]. MinisterioMinasyEnergia, «Resolucion 4-0483-2019,» 2019. MinisterioMinasyEnergia, «Resolución 4.0459 -2019,» de Por la cual se modifica la resolucion 40072-2018, 2019. instname:Universidad Antonio Nariño reponame:Repositorio Institucional UAN repourl:https://repositorio.uan.edu.co/
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dc.publisher.spa.fl_str_mv	Universidad Antonio Nariño
dc.publisher.program.spa.fl_str_mv	Especialización en Instrumentación Electrónica y Biomédica
dc.publisher.faculty.spa.fl_str_mv	Facultad de Ingeniería Mecánica, Electrónica y Biomédica
dc.publisher.campus.spa.fl_str_mv	Bogotá - Circunvalar
institution	Universidad Antonio Nariño
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spelling	Attribution-NonCommercial-NoDerivatives 4.0 International (CC BY-NC-ND 4.0)Acceso abiertohttps://creativecommons.org/licenses/by-nc-nd/4.0/info:eu-repo/semantics/openAccesshttp://purl.org/coar/access_right/c_abf2Diaz Salas, Sergio AndrésMartinez Ortiz, Juan Camilo11440650342021-03-10T16:03:15Z2021-03-10T16:03:15Z2020-11-24http://repositorio.uan.edu.co/handle/123456789/3071B. MinMinas, Smart Grids Colombia: Vision 2030 – Primera parte, Bogotá: BID, 2016.D. e. i. d. u. S. d. M. I. p. A. d. l. m. d. l. U. d. Nariño, «Andrés F. Arciniegas, David E Imbajoa R, Javier Revelo F,» Enfoque UTE , vol. 8, 2017.M. Strzegowski, «Realizing the full potencial of your AMI deployment with meter diagnostic data,» Analog Divices Inc., vol. 1, nº 1, p. 4, 2017.Y. Z. W. S. Y. R. Z. H. Y. Q. Zhang Luhua, «Effects of Advanced Metering Infrastructure (AMI) on relations of Power Supply and Application in smart grid,» CICED 2010 Proceedings, Nanjing, vol. 1, nº 1, p. 5, 2010.A. P. S. M. B. V. M. V. G. Vilas, «Implementation of metering practices in smart grid,» International Conference on Smart Technologies and Management for Computing, Communication, Controls, Energy and Materials (ICSTM), Chennai, vol. 1, nº 1, p. 4, 2015.J. R. W. M. J. F. R. R. Céspedes, «Methodology for defining the functionality of advanced measurement infraestructure in colombia,» IEEE PES Innovative Smart Grid Technologies Conference - Latin America (ISGT Latin America), Quito, vol. 1, nº 1, p. 6, 2017.Which, « "Energy monitors: Smart meters and energy monitors explained", Which? (n.d.),» [En línea]. Available: https://www.which.co.uk/reviews/smart-meters/article/guides.T. Jacopo, de Peak energy demand and Demand Side Response, 2017, p. 172.J. Sinopoli, de mart Building Systems for Architects, Owners, and Builders, 2010, pp. PP. 65-65.T. C. Y. B. MORTON, «VANCOUVER SUN,» 26 09 2013. [En línea]. Available: http://www.vancouversun.com/business/Laid+Hydro+meter+readers+still+looking+work+union+says/8959689/story.html. [Último acceso: 2020 07 16].A. d. Cordova, de Estudio de medidores inteligentes y su impacto en tarifas, Santiago de Chile, 2016, p. 141.C. F. R. -. B. A. C. -. E. F. Caicedo, «Una propuesta de modelos de datos y protocolos de intercambio de información estandarizados aplicables a sistemas de medida centralizada,» Revista Ingenierías Universidad de Medellín, vol. 16, nº 30, pp. 149-167, 2017.IEEE, «IEEE Standard for Local Area Network/Wide Area Network (LAN/WAN) Node Communication Protocol to Complement the Utility Industry End Device Data Tables,» de IEEE Std 1703-2012, 2012, pp. pp. 1-239.IEC, «Electricity metering data exchange The DLMS/COSEM suite Part 1-0: Smart metering standardisation framework,” ,,» International Electrotechnical Commission, Vols. %1 de %2 Standard IEC 62056-1-0, 2014.IEC, «Distribution automation using distribution line carrier systems Part 5-1: Lower layer profiles The spread frequency shift keying (S-FSK) profile,» International Electrotechnical Commission, Vols. %1 de %2Standard IEC 61334-5-1, 2002.IEC, «Electricity metering Data exchange for meter reading, tariff and load control Part 21: Direct local data exchange,» International Electrotechnical Commission, Vols. %1 de %2Standard IEC 62056-21, 2002.IEC, «Electricity metering data exchange The DLMS/COSEM suite Part 3-1: Use of local area networks on twisted pair with carrier signalling,» International Electrotechnical Commissio, Vols. %1 de %2 Standard IEC 62056-3-1:2013, 2013.CENELEC, «Electricity metering data exchange Part 4: Lower layer PLC profile using SMITP B-PSK modulation,» de CEN-CENELEC, Standard CLC/TS 50568-4:2015, 2015.P. PRIME, «PRIME v1.4 Specifications,» de PRIME Alliance, Standard, 2014.ZigBee, «Smart Energy Profile 2 Application Protocol Standard,» de ZigBee Alliance, Inf. téc, 2013.ERDF, «Electricity metering Data exchange over powerline Part 2 : Lower layer profile using OFDM modulation type 2,» de CENELEC, Inf. téc., 2011.G. B. a. K. Raahemifar, «“Optimization of distributed communication architectures in advanced metering infrastructure of smart grid,» IEEE 27, vol. 27th, pp. 1-6, 2014.P. D. X. G. a. F. L. G. N. Lu, Smart Meter Data Analysis, 2012.L. V. I. M. L. D. a. M. A. A. P. J. R. I. Pedrasa, «Design and Implementation of an AMI Emulator for User Feature Studie,» 2014, p. 366–371.MinisterioMinasyEnergia, «Resolucion 40072 del 2018,» Bogota - Colombia, 2018.D. Kádár, de The role of the Smart meters in the energy management systems, 2016.IEEE, «IEEE Standard for Optical Port Communication Protocol to Complement the Utility Industry End Device Data Tables,» de IEEE Std 1701-2011, 2011, pp. pp. 1-50.IEEE, «IEEE Standard for Utility Industry Metering Communication Protocol Application Layer (End Device Data Tables),» de IEEE Std 1377-2012 (Revision of IEEE Std 1377-1997), 2012, pp. pp. 1-576.R. H. M. M. C. N. B. I. M. O. D. P. A. C. B. C. C. S. D. S. D. D. H. D. K. T. K. B. M. H. N. F. S. G. S. D. T. K. W. G. W. C. Z. E. B. S Liaisons, «BACnet A Data Communication Protocol for Building Automation and Control Networks,» de ANSI/ASHRAE Standard 135, 2012.S. K. G. K. a. H. K. SH Hong, «Experimental evaluation of BZ-GW (BACnet-ZigBee smart grid gateway) for demand response in buildings,» Energy, vol. vol 65, pp. pp. 62-70, 2014.IEC, «Communication networks and systems for power utility automation-ALLPARTS,» International Electrotechnical Commission, vol. standard, 2015.CEN, «Communication systems for meters Part 1: Data exchange,» CEN-CENELEC, Vols. %1 de %2 Standard EN 13757-1, 2015.Modbus, «Modbus Application Protocol Specification V1.1b3,» de Inf. téc, Modbus Organization, 2012.W. a. D. N. Landis, «Smart Message Language Version 1.03,» de DKE, Standard 1.03, 2008., 2008.D. M. G. K. G. F. W. S. W. F. H. H. T. S. T. G. H. K. T. W. G. R. F. T. a. J. C. G Mauri, «STATE-OF-THE-ART TECHNOLOGIES AND PROTOCOLS Description of State of the Art Communication Protocols and Data Structures,» de The OPEN meter Consortium, Inf. téc, 2010.N. K. J. H. a. D. C. G Montenegro, «Transmission of IPv6 Packets over IEEE 802.15.4 Networks,» de RFC Editor, RFC 4944, 2007.S. C. E. N. a. C. B. Z Shelby, «Neighbor Discovery Optimization for IPv6 over Low-Power Wireless Personal Area Networks (6LoWPANs),» de RFC Editor, RFC 6775, 2012.DLT, «DL/T 645 2007 Multi-Function Watt-Hour Meter Communications Protocol,» de People’s Republic of China, Inf. téc, 2007.ITU-T, «Unified high-speed wireline-based home networking transceivers System architecture and physical layer specification,,» de International Telecommunication Union, Standard G.9960, 2015, 2015.S. N. Y. S. K. a. S. G. B. K. Barman, «IOT Based Smart Energy Meter for Efficient Energy Utilization in Smart Grid,» 2nd International Conference on Power, Energy and Environment: Towards Smart Technology (ICEPE), vol. 2, nº 1, p. 5, 2018.N. A. M. L. a. N. A. K. N. H. Azmi, «Modeling of Energy Meter Using MATLAB/Simulink,» IEEE Control and System Graduate Research Colloquium (ICSGRC), vol. 1, nº 9th, pp. 1-6, 2018.E. S.A, «enel.com,» ENEL S.A, 2018. [En línea]. Available: https://www.enel.com.co/es/medicion-inteligente.html. [Último acceso: 17 Abril 2020].MinisterioMinasyEnergia, «Resolucion 4-0483-2019,» 2019.MinisterioMinasyEnergia, «Resolución 4.0459 -2019,» de Por la cual se modifica la resolucion 40072-2018, 2019.instname:Universidad Antonio Nariñoreponame:Repositorio Institucional UANrepourl:https://repositorio.uan.edu.co/PropiaThe current project focuses on the simulation of a smart electric energy meter under the emerging concept of “Smart Grids”. The purpose is to obtain a design of an intelligent electric energy meter that measure parameters of currents, voltages, electrical energy consumption, is low cost, and is capable of sending these data registered to the cloud, and have the capacity characteristic of Smart Meters which is detection of alerts. Specifically, it works with 3 alerts: I) Detection of energy theft by open terminal cover, II) Maximum temperature limit, III) Prepaid consumption limit exceeded. Finally, the operation of the simulated device is checked, by using different resistive loads (2kW, 3.5kW, 4.3kW, 5kW, 7kW), and the cost of consumption, this all in an interval of one minute each.El proyecto actual se enfoca en la simulación de un medidor de energía eléctrica inteligente bajo el concepto emergente de “Smart Grids”. Se tiene como finalidad, obtener un diseño de un medidor de energía eléctrica inteligente que cense parámetros de corrientes, voltajes consumos de energía eléctrica, sea de bajo costo, y sea capaz de enviar estos datos censados hacia la nube, y tener la capacidad de detección alertas características de los Smart Meters. Específicamente se trabaja con 3 alertas: I) Detección de hurto de energía por tapa bornera abierta, II) Limite de temperatura máxima, III) Limite superado de consumo prepagado. Finalmente se comprueba el funcionamiento del dispositivo simulado, mediante la utilización de diferentes cargas resistivas (2kW, 3.5kW, 4.3kW, 5kW, 7kW), y el costo del consumo en un intervalo de un minuto cada una.Especialista en Ingeniería de SoftwareEspecializaciónCosto total del proyecto $ 1.740.000 (COP) Financiación PropiaPresencialspaUniversidad Antonio NariñoEspecialización en Instrumentación Electrónica y BiomédicaFacultad de Ingeniería Mecánica, Electrónica y BiomédicaBogotá - CircunvalarMedidor de energía eléctrica inteligenteRedes inteligentesSimulaciónEnvió de señales a la nubeconexión y desconexión automáticaSmart energy metersmart gridsSimulationSending signals to the cloudautomatic connection and disconnectionDiseño y simulación de un medidor de energía eléctrica bajo el concepto de redes inteligentes (smart grids)Trabajo de grado (Pregrado y/o 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Diseño y simulación de un medidor de energía eléctrica bajo el concepto de redes inteligentes (smart grids)

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