Slow Walking May be to Blame for Perceived Congestion in Pedestrian Areas
upstart writes:
Slow walking may be to blame for perceived congestion in pedestrian areas:
If you live in a town or city, you are probably experienced in the art of navigating through crowded areas. But sometimes you can't help but feel like your surroundings are too congested for comfort. Intuition tells us this feeling must be because of the sheer volume of people around us in these moments that causes the perception of somewhere being too congested. But Project Assistant Professor Jia Xiaolu from the Research Center for Advanced Science and Technology at the University of Tokyo wanted to verify this assumption, and ended up proving that it might not actually be the entire truth of the matter.
"Perception of congestion is an important matter for those designing spaces to be used by people, so if there's a way to estimate this perceptual value, it would be useful to know," said Xiaolu. [...]
"That the velocity of pedestrians rather than density of the crowd better indicates perceived congestion was a bit of a surprise," said Xiaolu. "But it leads us to believe that people perceive a space too congested when they are simply unable to walk at the speed they wish to; there is a gap between their desired and actual velocity. [...]
"We found that women and also older people generally felt less constrained than men and younger people, which is probably due to their lower desired velocity, thus a smaller gap between their desired and actual velocity," said Xiaolu. "And while this is interesting, I think our future studies will focus on spaces where the objective is not so much about getting from A to B, but more goal oriented, such as interacting with a service in a store, gallery or other destination."
Original material: https://www.u-tokyo.ac.jp/focus/en/press/z0508_00219.html
Journal Reference:
Xiaolu Jia et al., Revisiting the level-of-service framework for pedestrian comfortability: velocity depicts more accurate perceived congestion than local density, Transportation Research, 2022.
DOI: 10.1016/j.trf.2022.04.007
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