TY - JOUR
PY - 2023//
TI - Analysis of the effect of thermal comfort on driver drowsiness progress with Predicted Mean Vote: an experiment using real highway driving conditions
JO - Transportation research part F: traffic psychology and behaviour
A1 - Sunagawa, Mika
A1 - Shikii, Shin-ichi
A1 - Beck, Aryel
A1 - Kek, Khai Jun
A1 - Yoshioka, Mototaka
SP - 517
EP - 527
VL - 94
IS -
N2 - Drowsy driving causes serious accidents. Driver drowsiness is affected by the thermal environment, but drowsiness predictions in previous research are based on a limited thermal environment and do not consider realistic thermal conditions, including warm environments and individual differences. This study uses the Predicted Mean Vote (PMV) index, a personal thermal environment indicator, in drowsiness prediction to treat individual differences. Furthermore, it provides a model of thermal-drowsiness progression characteristics that comprehensively covers both cold and warm environments. The drowsiness data were collected from 29 subjects driving on a highway under six levels of thermal comfort conditions. Based on the collected data, a model of the amount of change in drowsiness after 15 min was built. The results show that the drivers were most drowsy in the slightly warmer condition (PMV + 0.2) and hardly drowsy in both the cooler and warmer conditions after 15 min of driving. This inverted U-shaped characteristic was numerically modeled as the effect of the thermal environment on driver drowsiness. In addition, in models predicting drowsiness after 15 min, PMV had a greater effect on improving accuracy than conventional driving time. These results suggest that for short periods of driving, the personal thermal environment may have a greater influence on drowsiness progression than driving time. Whilst limited by the small sample size, this study provides insight into the relationship between thermal comfort and drivers' drowsiness under real-world highway driving conditions. Language: en
LA - en
SN - 1369-8478
UR - http://dx.doi.org/10.1016/j.trf.2023.03.009
ID - ref1
ER -