Grid-interactive buildings can act as dynamic energy resources, utilizing appliances, HVAC, EVs, and renewable sources to ...

Intelligent networked sensors enable real-time, occupancy-based energy consumption to reduce waste in lighting, climate control and other systems. As companies pursue sustainability strategies, ...

Nearly 40% of the energy produced in the U.S. is used for building operations. The near-central role of buildings in the global climate and energy scenario makes it crucial for architects, engineers ...

Reinforcement learning (RL) represents a paradigm shift in smart building energy management by enabling systems to dynamically adapt to changing environmental conditions and occupant behaviours.

Kingspan’s Insulate + Generate strategy delivers an insulated solar roof system that reduces energy demand and actively ...

Correspondent Heating and lighting buildings requires a vast amount of energy: 18% of all global energy consumption, according to the International Energy Agency. Contributing to the problem is the ...

Solar energy generation from a rooftop panel system can be monitored quickly and easily, an example of how artificial intelligence (AI) and digital tools are empowering businesses to optimize energy ...

In oil-rich Texas, wind, solar, storage and hydrogen are scaling fast, driven by electricity demand and competitiveness - not ideology.

Recently, global warming and more frequent natural disasters have emphasized the need for low-carbon and resilient energy ...

The group led by Professor Krarti has a wide range of research interests related to improving the energy efficiency, sustainability, and resiliency of both new and existing buildings. Some of the ...

Explore the role of facades in architecture as active mediators with innovative sliding photovoltaic systems for energy efficiency.