[1] IEEE Smart Grid definition. Available in http://smartgrid.ieee.org -> About IEEE Smart Grid.
[2] Power Systems Distribution Automation definition. Available in http://www.powersystems.org -> Communications, IT, and Smart Grid Automation -> Utility Automation -> Distribution Automation.
[3] Portuguese Quality of Service Regulation. Available in http://www.erse.pt/eng/Paginas/ERSE.aspx -> Electricity -> Quality of Service.
[4] R. Billinton and R. N. Allan, “Reliability Evaluation of Power Systems,” New York: Plenum Press, 1996.
[5] T. Gönen, “Electric Power Distribution Systems Engineering,” New York: McGraw-Hill Inc., 1986.
[6] Y. G. Paithankar and S. R. Bhide, “Fundamentals of Power Systems Protection,” New Delhi: Prentice-Hall of India Private Limited, 2003.
[7] ERSE – Energy Services Regulatory Authority, “Regulamento de Qualidade de Serviço do Setor Elétrico,” (in Portuguese) “Diário da República”, 2th Series – No232 Nov. 2013: pp.34814-34900.
[8] ERSE – Energy Services Regulatory Authority, “Parâmetros de Regulação da Qualidade de Serviço do Setor Elétrico,” (in Portuguese) “Diário da República”, 2th Series – No227 Nov. 2013: pp.34305-34313.
[9] R. Moreira, “Análise Técnico-Económica de Estratégias de Self-Healing em Smart Grids,” (in Portuguese) MSc. Dissertation Dept. Electrical and Computers Eng., Faculty of Engineering, Univ. Porto, 2011.
[10]L. Moreira, “Avaliação Técnico-Económica na Implementação de Estratégias de Otimização Distribuída em Smart Grids,” (in Portuguese) MSc. Dissertation Dept. Electrical and Computers Eng., Faculty of Engineering, Univ. Porto, 2013.
[11]J. Ferreira, “Os Órgãos de Corte de Rede de 3a Geração nas Redes de Distribuição de Média Tensão,” (in Portuguese) MSc. Dissertation Dept. Electrical and Computers Eng., Faculty of Engineering, Univ. Porto, 2013.
[12]Stojkov, Nikolovski and Mikuličić, “Estimation of Electric Energy Not Supplied in Reliability Analysis of Distribution Networks,” in IEEE MELECON 2004.
[13]Biyawerwala, Terziysky and Rajan, “Distribution Automation: Multiple Scheme Complexity & Benefits – An overview of the benefits in implementing schemes with multiple reclosers,” 2014.
[14]Momoh and Caven, “Evaluation of Cost Benefit Analysis for the Reconfigured Distribution System,” in IEEE 2003.
[15]Bernardo, Silva, Carrapatoso and Ockwell, “Preventive Assessment for Combined Control and Substation-Centric Self-Healing Strategies,” in 21st CIRED International Conference on Electricity Distribution 2011.
[16]Melo, Cândido, Fortunato, Silva, Campos and Reis, “Distribution Automation on LV and MV Using Distributed Intelligence,” in 22nd CIRED International Conference on Electricity Distribution 2013.
[17]Angelo and Selejan, “Technologies of the Self Healing Grid,” in 22nd CIRED International Conference on Electricity Distribution 2013.
[18]Mekic, Alloway, Angelo and Goodin, “Fault Detection Isolation and Restoration on the Feeder (FDIR): Pick Your Technology,” in 21st CIRED International Conference on Electricity Distribution 2011.
[19]Bernardo, Silva, Delgado, Jorge and Carrapatoso, “DG Behaviour and Protection Schemes in Case of Disturbances Within the Concept of Distribution Grid Area,” in CIRED Workshop 2012.
[20]Wang and Singh, “Reliability-Constrained Optimum Placement of Reclosers and Distributed Generators in Distribution Networks Using an Ant Colony systems Algorithm,” in IEEE Transactions on Systems, MAN, and Cybernetics – Part C: Applications and Reviews, 2008: pp.757-764.
[21]Uluski, “Using Distribution Automation for a Self-Healing Grid” 2012.
[22]Greer, Allen, Schnegg and Dulmage, “Distribution Automation Systems With Advanced Features,” in IEEE 2011.
[23]Rosa, Abalroado, Sousa, Marques, Oliveira, Gama, Ramalheira, Morgado and Duarte, “EDP Distribution Automation (R)Evolution,” in 21st CIRED International Conference on Electricity Distribution 2011.
[24]Jia, Meng and Song, “Study on technology systems of self-healing control in smart distribution grid,” in The International Conference on Advanced Power Systems Automation and Protection IEEE 2011.
[25]Tuglie, Scala, Patrono, Pugliese and Torelli, “An Optimal Strategy for Switching Devices Allocation in Radial Distribution Networks,” in IEEE AFRICON 2004: pp.683-690. [26]Heinrich, Brewis and Cain, “Application of Reclosers for Reliable Supply in Rural Overhead Distribution Networks,” in 20th CIRED International Conference on Electricity Distribution 2009.
[27]Toune, Fudo, Genji, Fukuyama and Nakanishi, “Comparative Study of Modern Heuristic Algorithms to Service Restoration in Distribution Systems,” in IEEE Transactions on Power Delivery, Vol. 17, 2002: pp.173-181.
[28]Kurutach and Tuppadung, “Feeder-Switch Relocation Based upon Risk Analysis of Trees-Caused Interruption and Value-Based Distribution Reliability Assessment,” in IEEE 2004.
[29]Matos and Melo “Multiobjective Reconfiguration for Loss Reduction and Service Restoration Using Simulated Annealing,” in IEEE Power Tech ’99 Conference, 1999.
[30]Montoya, Grajales, Hincapié, Granada and Gallego, “Methodology for Optimal Distribution System Planning Considering Automatic Reclosers to Improve Reliability Indices,” in IEEE 2014.
[31]Wenyu, Jian, Jianmin, Haipeng and Meng, “Optimal Allocation of Swithches in Distribution Networks,” in Proceeding of the 5th World Congress on Intelligent Control and Automation, 2004: pp.5155-5159.
[32]Noce, “Optimal Placement of Automation Devices in ENEL Distribution Network,” in 20th CIRED International Conference on Electricity Distribution 2009.
[33]Celli and Pilo, “Optimal Sectionalizing Switches Allocation in Distribution Networks,” in IEEE Transactions on Power Delivery, Vol. 14, 1999: pp.1167-1172.
[34]Billinton and Jonnavithula, “Optimal Switching Device Placement in Radial Distribution Systems,” in IEEE Transactions on Power Delivery, Vol. 11, 1996: pp.1646-1651.
[35]Mackiewicz, “Overview of IEC 61850 and Benefits,” in IEEE 2006.
[36]Best, Morrow and Crossley, “Communication Assisted Protection Selectivity for Reconfigurable and Islanded Power Networks,” in IEEE 2009.
[37]Roth, “Maximizing Protection Coordination with Self-Healing Technology,” in IEEE 2012. [38]Santos, Martins and Marques, “Metodologia de Localização de OCR’s,” (in Portuguese) in “Seminário Técnico Linhas Aéreas de AT MT” (in Portuguese).
[39]Belloni, Chiumeo, Gandolfi and Villa, “A protection coordination scheme for active distribution networks,” 2012.
[40]Chaly, Gutnik, Testoedov and Astrakhantsev, “Autocoordination of Protection Settings of Series Reclosers,” in CICED 2008, Technical Session 3 Protection, Control Communication and Automation of Distribution Network, 2008.
[41]EDP Distribution – Energy of Portugal, “Guia Geral de Proteções e Automação da RND,” (in Portuguese) Jun. 2011.
[42]EDP Distribution – Energy of Portugal, “Reclosing Sectionalizers Technical specifications,” DMA-C64-156/E, Jul. 1991.
[43]EDP Distribution – Energy of Portugal, “Materiais Para Redes – Aparelhagem AT e MT: Órgãos de corte de rede tipo 2 – OCR2,” (in Portuguese) DMA-C64-154/N, May. 2007.
[44]EDP Distribution – Energy of Portugal, “Materiais Para Redes – Aparelhagem AT e MT: Órgãos de Corte de Tede Tipo 3 (OCR3),” (in Portuguese) DMA-C64-157/N, Set. 2014.
[45]IEEE Standard Definition for Power Swithcgear, IEE Std. C37.100-1992, Oct 1992.
[46]IEC and IEE International Standard: High-voltage switchgear and controlgear – Part 111: Automatic circuit reclosers and fault interrupters for alternating current systems up to 38 kV, IEC Std. 62271-11, IEEE Std. C37.60-2012, Sep. 2012.
[47]EDP Distribution – Energy of Portugal, “Relatório da Qualidade de Serviço 2013,” (in Portuguese) May. 2014.
[48]EDP Distribution – Energy of Portugal, “Relatório e Contas 2013,” (in Portuguese) July. 2014.
[49]Direção-Geral de Geologia e Energia, “Despacho no 5255/2006 Regulamento da Qualidade de Serviço,” (in Portuguese) 2th Series – No48 Nov. 2006: pp.3334-3362.
[50]Blajić, Nogulić and Družijanić, “Latency Improvements in 3G Long Term Evolution,”.
[2] Power Systems Distribution Automation definition. Available in http://www.powersystems.org -> Communications, IT, and Smart Grid Automation -> Utility Automation -> Distribution Automation.
[3] Portuguese Quality of Service Regulation. Available in http://www.erse.pt/eng/Paginas/ERSE.aspx -> Electricity -> Quality of Service.
[4] R. Billinton and R. N. Allan, “Reliability Evaluation of Power Systems,” New York: Plenum Press, 1996.
[5] T. Gönen, “Electric Power Distribution Systems Engineering,” New York: McGraw-Hill Inc., 1986.
[6] Y. G. Paithankar and S. R. Bhide, “Fundamentals of Power Systems Protection,” New Delhi: Prentice-Hall of India Private Limited, 2003.
[7] ERSE – Energy Services Regulatory Authority, “Regulamento de Qualidade de Serviço do Setor Elétrico,” (in Portuguese) “Diário da República”, 2th Series – No232 Nov. 2013: pp.34814-34900.
[8] ERSE – Energy Services Regulatory Authority, “Parâmetros de Regulação da Qualidade de Serviço do Setor Elétrico,” (in Portuguese) “Diário da República”, 2th Series – No227 Nov. 2013: pp.34305-34313.
[9] R. Moreira, “Análise Técnico-Económica de Estratégias de Self-Healing em Smart Grids,” (in Portuguese) MSc. Dissertation Dept. Electrical and Computers Eng., Faculty of Engineering, Univ. Porto, 2011.
[10]L. Moreira, “Avaliação Técnico-Económica na Implementação de Estratégias de Otimização Distribuída em Smart Grids,” (in Portuguese) MSc. Dissertation Dept. Electrical and Computers Eng., Faculty of Engineering, Univ. Porto, 2013.
[11]J. Ferreira, “Os Órgãos de Corte de Rede de 3a Geração nas Redes de Distribuição de Média Tensão,” (in Portuguese) MSc. Dissertation Dept. Electrical and Computers Eng., Faculty of Engineering, Univ. Porto, 2013.
[12]Stojkov, Nikolovski and Mikuličić, “Estimation of Electric Energy Not Supplied in Reliability Analysis of Distribution Networks,” in IEEE MELECON 2004.
[13]Biyawerwala, Terziysky and Rajan, “Distribution Automation: Multiple Scheme Complexity & Benefits – An overview of the benefits in implementing schemes with multiple reclosers,” 2014.
[14]Momoh and Caven, “Evaluation of Cost Benefit Analysis for the Reconfigured Distribution System,” in IEEE 2003.
[15]Bernardo, Silva, Carrapatoso and Ockwell, “Preventive Assessment for Combined Control and Substation-Centric Self-Healing Strategies,” in 21st CIRED International Conference on Electricity Distribution 2011.
[16]Melo, Cândido, Fortunato, Silva, Campos and Reis, “Distribution Automation on LV and MV Using Distributed Intelligence,” in 22nd CIRED International Conference on Electricity Distribution 2013.
[17]Angelo and Selejan, “Technologies of the Self Healing Grid,” in 22nd CIRED International Conference on Electricity Distribution 2013.
[18]Mekic, Alloway, Angelo and Goodin, “Fault Detection Isolation and Restoration on the Feeder (FDIR): Pick Your Technology,” in 21st CIRED International Conference on Electricity Distribution 2011.
[19]Bernardo, Silva, Delgado, Jorge and Carrapatoso, “DG Behaviour and Protection Schemes in Case of Disturbances Within the Concept of Distribution Grid Area,” in CIRED Workshop 2012.
[20]Wang and Singh, “Reliability-Constrained Optimum Placement of Reclosers and Distributed Generators in Distribution Networks Using an Ant Colony systems Algorithm,” in IEEE Transactions on Systems, MAN, and Cybernetics – Part C: Applications and Reviews, 2008: pp.757-764.
[21]Uluski, “Using Distribution Automation for a Self-Healing Grid” 2012.
[22]Greer, Allen, Schnegg and Dulmage, “Distribution Automation Systems With Advanced Features,” in IEEE 2011.
[23]Rosa, Abalroado, Sousa, Marques, Oliveira, Gama, Ramalheira, Morgado and Duarte, “EDP Distribution Automation (R)Evolution,” in 21st CIRED International Conference on Electricity Distribution 2011.
[24]Jia, Meng and Song, “Study on technology systems of self-healing control in smart distribution grid,” in The International Conference on Advanced Power Systems Automation and Protection IEEE 2011.
[25]Tuglie, Scala, Patrono, Pugliese and Torelli, “An Optimal Strategy for Switching Devices Allocation in Radial Distribution Networks,” in IEEE AFRICON 2004: pp.683-690. [26]Heinrich, Brewis and Cain, “Application of Reclosers for Reliable Supply in Rural Overhead Distribution Networks,” in 20th CIRED International Conference on Electricity Distribution 2009.
[27]Toune, Fudo, Genji, Fukuyama and Nakanishi, “Comparative Study of Modern Heuristic Algorithms to Service Restoration in Distribution Systems,” in IEEE Transactions on Power Delivery, Vol. 17, 2002: pp.173-181.
[28]Kurutach and Tuppadung, “Feeder-Switch Relocation Based upon Risk Analysis of Trees-Caused Interruption and Value-Based Distribution Reliability Assessment,” in IEEE 2004.
[29]Matos and Melo “Multiobjective Reconfiguration for Loss Reduction and Service Restoration Using Simulated Annealing,” in IEEE Power Tech ’99 Conference, 1999.
[30]Montoya, Grajales, Hincapié, Granada and Gallego, “Methodology for Optimal Distribution System Planning Considering Automatic Reclosers to Improve Reliability Indices,” in IEEE 2014.
[31]Wenyu, Jian, Jianmin, Haipeng and Meng, “Optimal Allocation of Swithches in Distribution Networks,” in Proceeding of the 5th World Congress on Intelligent Control and Automation, 2004: pp.5155-5159.
[32]Noce, “Optimal Placement of Automation Devices in ENEL Distribution Network,” in 20th CIRED International Conference on Electricity Distribution 2009.
[33]Celli and Pilo, “Optimal Sectionalizing Switches Allocation in Distribution Networks,” in IEEE Transactions on Power Delivery, Vol. 14, 1999: pp.1167-1172.
[34]Billinton and Jonnavithula, “Optimal Switching Device Placement in Radial Distribution Systems,” in IEEE Transactions on Power Delivery, Vol. 11, 1996: pp.1646-1651.
[35]Mackiewicz, “Overview of IEC 61850 and Benefits,” in IEEE 2006.
[36]Best, Morrow and Crossley, “Communication Assisted Protection Selectivity for Reconfigurable and Islanded Power Networks,” in IEEE 2009.
[37]Roth, “Maximizing Protection Coordination with Self-Healing Technology,” in IEEE 2012. [38]Santos, Martins and Marques, “Metodologia de Localização de OCR’s,” (in Portuguese) in “Seminário Técnico Linhas Aéreas de AT MT” (in Portuguese).
[39]Belloni, Chiumeo, Gandolfi and Villa, “A protection coordination scheme for active distribution networks,” 2012.
[40]Chaly, Gutnik, Testoedov and Astrakhantsev, “Autocoordination of Protection Settings of Series Reclosers,” in CICED 2008, Technical Session 3 Protection, Control Communication and Automation of Distribution Network, 2008.
[41]EDP Distribution – Energy of Portugal, “Guia Geral de Proteções e Automação da RND,” (in Portuguese) Jun. 2011.
[42]EDP Distribution – Energy of Portugal, “Reclosing Sectionalizers Technical specifications,” DMA-C64-156/E, Jul. 1991.
[43]EDP Distribution – Energy of Portugal, “Materiais Para Redes – Aparelhagem AT e MT: Órgãos de corte de rede tipo 2 – OCR2,” (in Portuguese) DMA-C64-154/N, May. 2007.
[44]EDP Distribution – Energy of Portugal, “Materiais Para Redes – Aparelhagem AT e MT: Órgãos de Corte de Tede Tipo 3 (OCR3),” (in Portuguese) DMA-C64-157/N, Set. 2014.
[45]IEEE Standard Definition for Power Swithcgear, IEE Std. C37.100-1992, Oct 1992.
[46]IEC and IEE International Standard: High-voltage switchgear and controlgear – Part 111: Automatic circuit reclosers and fault interrupters for alternating current systems up to 38 kV, IEC Std. 62271-11, IEEE Std. C37.60-2012, Sep. 2012.
[47]EDP Distribution – Energy of Portugal, “Relatório da Qualidade de Serviço 2013,” (in Portuguese) May. 2014.
[48]EDP Distribution – Energy of Portugal, “Relatório e Contas 2013,” (in Portuguese) July. 2014.
[49]Direção-Geral de Geologia e Energia, “Despacho no 5255/2006 Regulamento da Qualidade de Serviço,” (in Portuguese) 2th Series – No48 Nov. 2006: pp.3334-3362.
[50]Blajić, Nogulić and Družijanić, “Latency Improvements in 3G Long Term Evolution,”.