Domingo Guinea scite author profile

Smart applications of the Internet of Things are improving the performance of buildings, reducing energy demand. Local and smart networks, soft computing methodologies, machine intelligence algorithms and pervasive sensors are some of the basics of energy optimization strategies developed for the benefit of environmental sustainability and user comfort. This work presents a distributed sensor-processor-communication decision-making architecture to improve the acquisition, storage and transfer of thermal energy in buildings. The developed system is implemented in a near Zero-Energy Building (nZEB) prototype equipped with a built-in thermal solar collector, where optical properties are analysed; a low enthalpy geothermal accumulation system, segmented in different temperature zones; and an envelope that includes a dynamic thermal barrier. An intelligent control of this dynamic thermal barrier is applied to reduce the thermal energy demand (heating and cooling) caused by daily and seasonal weather variations. Simulations and experimental results are presented to highlight the nZEB thermal energy reduction.

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An agent of behaviour architecture for unmanned control of a farming vehicle

García-Pérez

García-Alegre

Ribeiro

et al. 2008

Computers and Electronics in Agriculture

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Multi-modal defect detection of residual oxide scale on a cold stainless steel strip

Martín

García-Alegre

Villanueva

et al. 2010

Machine Vision and Applications

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A context-awareness architecture for managing thermal energy in an nZEB building

Uribe¹,

Santos

García-Alegre

et al. 2015

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Domingo Guinea

Symmetrical electrode mode for PEMFC characterisation using impedance spectroscopy

Smart Building: Decision Making Architecture for Thermal Energy Management

An agent of behaviour architecture for unmanned control of a farming vehicle

Multi-modal defect detection of residual oxide scale on a cold stainless steel strip

A context-awareness architecture for managing thermal energy in an nZEB building

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