El trabajo aquí descrito está enfocado a establecer las bases para diseñar sistemas que permitan monitorear y regular vía Ethernet a un sistema automatizado de la iluminación de un edificio. También está enfocado a establecer las bases para tener la posibilidad de monitorear y regular al sistema automatizado desde un dispositivo móvil. Además se enfoca en la tarea de desarrollar software bajo una arquitectura que defina una plataforma para aplicaciones tolerantes a fallos y en la tarea de iniciar el desarrollo de
una pila de aplicaciones para edificios.

Jay Taneja, Andrew Krioukov, Stephen Dawson-Haggerty, David Culler,

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Sean Barker, Sandeep Kalra, David Irwin, and Prashant Shenoy, “Empirical Characterization and Modeling of Electrical Loads in Smart Homes”, ISSN 978-1-4799-0623-9/13, University of Massachusetts Amherst, © 2013 IEEE.

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Gudmundur Benediktsson, “Lighting control-possibilities in cost and energyefficient lighting control techniques”, Technical Report, Division of Industrial Electrical Engineering and Automation, Faculty of Engineering, Lund University, December 2009.

www.enocean.com

www.m-bus.com

Joseph Chabarek, Paul Barford, “Energy Audit: Monitoring Power Consumption in Diverse Network Environments”, ISBN 978-1-4799-0623-9, IEEE, 2013.

Jinsung Byun, Sunghoi Park, Byeongkwan Kang, Insung Hong, y Sehyun Park, “Design and Implementation of an Intelligent Energy Saving System based on Standby Power Reduction for a Future Zero-Energy Home Environment”, IEEE Transactions on Consumer Electronics, Vol. 59, No. 3, August 2013.

Pinting Zhang, Jianlan Li, Tao Yang, Shuhong Huang, “Flexible and Smart Online Monitoring and Fault Diagnosis System for Rotating Machinery”, International Conference on Computer Distributed Control and Intelligent Enviromental Monitoring, ISBN 978-0-7695-4639-1, IEEE, 2012.