Implication of smart-grids development for communication systems in normal operation and during disasters
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[1] Vikram S. Budhraja,et al. California's Electricity Crisis , 2001 .
[2] K. Hirose,et al. Study on Field Demonstration of Multiple Power Quality Levels System in Sendai , 2006, INTELEC 06 - Twenty-Eighth International Telecommunications Energy Conference.
[3] A. Kwasinski,et al. Telecom power planning for natural and man-made disasters , 2007, INTELEC 07 - 29th International Telecommunications Energy Conference.
[4] H Lee Willis,et al. Aging Power Delivery Infrastructures , 2000 .
[5] A. Kwasinski,et al. Technology Planning for Electric Power Supply in Critical Events Considering a Bulk Grid, Backup Power Plants, and Micro-Grids , 2010, IEEE Systems Journal.
[6] A. Kwasinski. Analysis of electric power architectures to improve availability and efficiency of air conditioning systems , 2008, INTELEC 2008 - 2008 IEEE 30th International Telecommunications Energy Conference.
[7] A. Kwasinski,et al. Optimal Configuration Analysis of a Microgrid-Based Telecom Power System , 2006, INTELEC 06 - Twenty-Eighth International Telecommunications Energy Conference.
[8] D. Olson. Current market electricity supply issues & trends “It is all about the Peak” , 2008, INTELEC 2008 - 2008 IEEE 30th International Telecommunications Energy Conference.
[9] Alexis Kwasinski. Telecommunications outside plant power infrastructure: Past performance and technological alternatives for improved resilience to hurricanes , 2009, INTELEC 2009 - 31st International Telecommunications Energy Conference.
[10] Philip T. Krein,et al. Telecommunications Power Plant Damage Assessment for Hurricane Katrina– Site Survey and Follow-Up Results , 2009, IEEE Systems Journal.
[11] P.T. Krein,et al. A Microgrid-based Telecom Power System using Modular Multiple-Input DC-DC Converters , 2005, INTELEC 05 - Twenty-Seventh International Telecommunications Conference.