This paper presents the combined effect of indoor temperature (19 degrees C, 22 degrees C, and 26 degrees C) and colored glazing (blue, orange, and neutral) on visual perception of daylight. Experiments were performed in an office-like test room, in which 75 participants were fully immersed under visual and thermal stimuli. Findings are discussed in terms of cross-modal effects of indoor temperature on visual perception, as well as of unimodal effects of glazing color on visual perception, investigated in terms of color of light and visual environment evaluations. Results show the presence of cross-modal effects of indoor temperature on visual perception of both the visual environment and the color of light. Indoor temperature affected the ...
Understanding the factors that affect human thermal responses is necessary to properly design and op...
Daylight is ever more recognised as a major synchroniser of circadian rhythms, linking us to the 24 ...
The combined effects of color temperature and illuminance in a small office on visual response and m...
Within the scope of a broader research project about daylight and temperature interaction effects on...
This paper details the results of an experimental study investigating the combined effect of indoor ...
This study investigates the effect of daylight transmitted through three coloured glazing types (blu...
Over the past years, increasing efforts have been devoted to understand how people perceive the indo...
Objective Temperature–color interaction effects on subjective perception and physiological responses...
Expanding the acceptable range of indoor temperatures allows to reduce building energy consumption a...
Objective: Temperature–color interaction effects on subjective perception and physiological response...
Spectrum and correlated colour temperature of light are shown to influence human visual comfort. Pre...
Within the scope of a broader research project about visual and thermal interaction effects on human...
Daylighting has been associated with improved mood, enhanced morale, increased visual comfort and re...
The aim of this study was to expand the understanding of modern glazing materials’ effects ...
It is known that one and the same interior colouring will appear different in rooms with windows fac...
Understanding the factors that affect human thermal responses is necessary to properly design and op...
Daylight is ever more recognised as a major synchroniser of circadian rhythms, linking us to the 24 ...
The combined effects of color temperature and illuminance in a small office on visual response and m...
Within the scope of a broader research project about daylight and temperature interaction effects on...
This paper details the results of an experimental study investigating the combined effect of indoor ...
This study investigates the effect of daylight transmitted through three coloured glazing types (blu...
Over the past years, increasing efforts have been devoted to understand how people perceive the indo...
Objective Temperature–color interaction effects on subjective perception and physiological responses...
Expanding the acceptable range of indoor temperatures allows to reduce building energy consumption a...
Objective: Temperature–color interaction effects on subjective perception and physiological response...
Spectrum and correlated colour temperature of light are shown to influence human visual comfort. Pre...
Within the scope of a broader research project about visual and thermal interaction effects on human...
Daylighting has been associated with improved mood, enhanced morale, increased visual comfort and re...
The aim of this study was to expand the understanding of modern glazing materials’ effects ...
It is known that one and the same interior colouring will appear different in rooms with windows fac...
Understanding the factors that affect human thermal responses is necessary to properly design and op...
Daylight is ever more recognised as a major synchroniser of circadian rhythms, linking us to the 24 ...
The combined effects of color temperature and illuminance in a small office on visual response and m...