TY - GEN
T1 - Modular Real-Time Monitoring System Architecture for Materials and Technologies to Improve Urban Heat-Island Effect and Water Runoff in HE MULTICLIMACT
AU - Zamora-Sanchez, Diego
AU - Armijo, Alberto
AU - Fernandez, Mireia
AU - Lochner, Adrian
AU - Jimenez, Jose Carlos
AU - Arregi, Beniat
N1 - Publisher Copyright:
© 2024 IEEE.
PY - 2024
Y1 - 2024
N2 - Given the threat of climate change and the associated growth in extreme events, it is imperative to improve the planning, design, and upgrading of the built environment at different scales to effectively adapt to current and future risks. Therefore, the MULTICLIMACT project (MULTI-faceted CLIMate adaptation ACTions to improve resilience, preparedness, and responsiveness of the built environment against multiple hazards at multiple scales) seeks to provide an integrated framework of tools to assist public actors and citizens at territorial, urban and individual building levels. At all these scales, real-time monitoring and early warning systems are seen as key tools to improve preparedness and responsiveness. At the urban level, the scale of this paper, it is considered a key issue that the built environment is nowadays often itself a source of climate vulnerability rather than a safe place for its inhabitants. Based on these two key points, this contribution focuses on the design of a modular real-time monitoring system architecture, combining Internet of Things (IoT) sensor networks, signal processing, Artificial Intelligence (AI) data analysis and Building Information Modeling (BIM) visualization, along with selection or development of sensors for cost-effective monitoring of the specific solutions to be implemented in the urban scale within MULTICLIMACT, namely new optimized cool urban pavement and nature-based solutions (NBS) designs to mitigate the heat-island effect and surface runoff, both identified as major risks in Europe's hot Mediterranean cities with low seismic risk, such as Barcelona (BCN), the future pilot city for the deployment of these solutions.
AB - Given the threat of climate change and the associated growth in extreme events, it is imperative to improve the planning, design, and upgrading of the built environment at different scales to effectively adapt to current and future risks. Therefore, the MULTICLIMACT project (MULTI-faceted CLIMate adaptation ACTions to improve resilience, preparedness, and responsiveness of the built environment against multiple hazards at multiple scales) seeks to provide an integrated framework of tools to assist public actors and citizens at territorial, urban and individual building levels. At all these scales, real-time monitoring and early warning systems are seen as key tools to improve preparedness and responsiveness. At the urban level, the scale of this paper, it is considered a key issue that the built environment is nowadays often itself a source of climate vulnerability rather than a safe place for its inhabitants. Based on these two key points, this contribution focuses on the design of a modular real-time monitoring system architecture, combining Internet of Things (IoT) sensor networks, signal processing, Artificial Intelligence (AI) data analysis and Building Information Modeling (BIM) visualization, along with selection or development of sensors for cost-effective monitoring of the specific solutions to be implemented in the urban scale within MULTICLIMACT, namely new optimized cool urban pavement and nature-based solutions (NBS) designs to mitigate the heat-island effect and surface runoff, both identified as major risks in Europe's hot Mediterranean cities with low seismic risk, such as Barcelona (BCN), the future pilot city for the deployment of these solutions.
KW - Artificial Intelligence
KW - Digital Twin
KW - Fiber Optics Sensors
KW - loT sensors
KW - Sustainable Urban Materials and Solutions
UR - http://www.scopus.com/inward/record.url?scp=85201198277&partnerID=8YFLogxK
U2 - 10.1109/MetroLivEnv60384.2024.10615312
DO - 10.1109/MetroLivEnv60384.2024.10615312
M3 - Conference contribution
AN - SCOPUS:85201198277
T3 - 2024 IEEE International Workshop on Metrology for Living Environment, MetroLivEnv 2024 - Proceedings
SP - 442
EP - 447
BT - 2024 IEEE International Workshop on Metrology for Living Environment, MetroLivEnv 2024 - Proceedings
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 2024 IEEE International Workshop on Metrology for Living Environment, MetroLivEnv 2024
Y2 - 12 June 2024 through 14 June 2024
ER -