Thermal comfort is defined as the condition of mind that expresses satisfaction with the thermal environment and it is assessed by subjective evaluation. Achieving comfortable environments is essential for human health, productivity, learning performance and energy efficiency. The measurement of thermal comfort requires an indirect process involving several domains: thermal environment, physiology and psychology. Four physiological signals were reviewed, considering their relevance in the context of measuring indoor thermal comfort. The measurement approaches for investigating electroencephalography, electrocardiograph, skin temperature and galvanic skin response signals in the field of thermal comfort are presented. This paper introduces a...
The assessment of occupants' wellbeing and productivity impact on building energy management is beco...
The assessment of occupants' wellbeing and productivity impact on building energy management is beco...
Thermal discomfort is a widespread problem in the built environment, due in part to the variability ...
Thermal comfort is defined as the condition of mind that expresses satisfaction with the thermal env...
Personal comfort models (PCM) represent the most promising paradigm for human-centric thermal comfor...
A wearable device to acquire electroencephalographic (EEG) signals was used to investigate changes i...
Multidomain comfort theories have been demonstrated to interpret human thermal comfort in buildings ...
Human comfort perception has a key role in building energy performance since it drives occupants’ be...
Heating, ventilation and air-conditioning (HVAC) systems have been adopted to create comfortable, he...
Thermal factors not only affect the thermal comfort sensation of occupants, but also affect their ar...
This study aims at evaluating the use of wearable sensors in the Industry 4.0 context to measure and...
This paper presents the results from the experimental application of smartwatch sensors to predict o...
The assessment of occupants' wellbeing and productivity impact on building energy management is beco...
The assessment of occupants' wellbeing and productivity impact on building energy management is beco...
Thermal discomfort is a widespread problem in the built environment, due in part to the variability ...
Thermal comfort is defined as the condition of mind that expresses satisfaction with the thermal env...
Personal comfort models (PCM) represent the most promising paradigm for human-centric thermal comfor...
A wearable device to acquire electroencephalographic (EEG) signals was used to investigate changes i...
Multidomain comfort theories have been demonstrated to interpret human thermal comfort in buildings ...
Human comfort perception has a key role in building energy performance since it drives occupants’ be...
Heating, ventilation and air-conditioning (HVAC) systems have been adopted to create comfortable, he...
Thermal factors not only affect the thermal comfort sensation of occupants, but also affect their ar...
This study aims at evaluating the use of wearable sensors in the Industry 4.0 context to measure and...
This paper presents the results from the experimental application of smartwatch sensors to predict o...
The assessment of occupants' wellbeing and productivity impact on building energy management is beco...
The assessment of occupants' wellbeing and productivity impact on building energy management is beco...
Thermal discomfort is a widespread problem in the built environment, due in part to the variability ...