Monday, May 23, 2022

How we perceive crowds

Slow walking may be to blame for perceived congestion in pedestrian areas

Peer-Reviewed Publication

UNIVERSITY OF TOKYO

Congestion perception 

IMAGE: IT MIGHT LOOK LIKE SOMETHING FROM A PHYSICS PAPER, BUT THIS IS ACTUALLY A PLOT SHOWING HOW PEOPLE’S PERCEPTIONS OF AN ENCLOSED SPACE CHANGE DEPENDING ON HOW IMPEDED THE CROWD WAS BY AN OBSTACLE. BLUE COLORS REFLECT PEOPLE WITHIN THE CROWD WHO WERE MORE FRUSTRATED IN THE SPACE, AND RED COLORS REFLECT PEOPLE WHO WERE MORE AT EASE. IN EACH CASE, W IS THE WIDTH OF THE OBSTACLE, AND D IS THE DISTANCE BETWEEN THE OBSTACLE AND THE EXIT. view more 

CREDIT: ©2022 JIA XIAOLU ET AL.

When designing public spaces or other places where foot traffic is considered, planners and architects need to know how people perceive the spaces in question. It is commonly believed that a space will feel more congested if the crowd density is higher. However, new research suggests that walking speed of individuals actually plays a greater role than crowd density in how someone feels about a busy space. Also, age and gender seem to affect someone’s perception of how congested an enclosed space feels to them.

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. “Thus, I was a little surprised to find that the density of people in a given space was not the best indicator of perceived congestion; in fact, it turned out to be the walking speed, or velocity, of the people around the perceiver.”

In order to determine this, Xiaolu and her team first had to set up an elaborate experiment. They recruited a large number of people to play the part of a crowd. The crowd was asked to walk through a relatively narrow space made out of cardboard boxes with an exit at the end and an obstacle made from boxes just before it. The researchers repeated the experiment but changed the size of the obstacle to choke the flow of the crowd, all the while recording the motions of people by using a camera and motion-tracking software.

Alongside this physical task, the crowd were also given questionnaires to fill out that captured more qualitative information about their perceptions of the crowded space during these repeated trials. By combing both quantitative and qualitative data, the researchers hoped to find a relationship between some of the quantitative parameters of the crowd and the qualitative perceptions of the crowd members.

“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. This idea corresponds with the way people felt depending on where they were in the test space. In trials where the density was roughly uniform, slower groups around the obstacle led to those in the vicinity reporting feelings of congestion more than those prior to that section.”

The study suggests that overtaking where possible might make some people feel less constrained by the congestion, but other studies of crowd dynamics by Xiaolu and her team report that overtaking behavior can negatively impact the flow of the crowd as a whole. The team also found some noteworthy details when they analyzed the way different demographics responded to tests.

“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.”

  

CAPTION

These are four different methods for measuring and visualizing density, in this case, the density of people within a physically constrained space.

CREDIT

©2022 Jia Xiaolu et al.

Journal article: Xiaolu Jia, Claudio Feliciani, Hisashi Murakami, Akihito Nagahama, Daichi Yanagisawa, Katsuhiro Nishinari. “Revisiting the level-of-service framework for pedestrian comfortability: velocity depicts more accurate perceived congestion than local density”Transportation Researchhttps://doi.org/10.1016/j.trf.2022.04.007

Funding: This work was supported by the following Japanese grants: JSPS KAKENHI Grant Number JP21K14377, JP20K14992, JP20K20143, JP21H01570 and JP21H01352, and JST-Mirai Program Grant Number JPMJMI17D4 and JPMJMI20D1, Japan. This research was also partially supported by FONDAZIONE CARIPLO (Italy), “LONGEVICITY-Social Inclusion for the Elderly through Walkability”, Rif. 2017-0938.

Useful links:
Mobility Innovation Collaborative Research Organization
http://www.its.iis.u-tokyo.ac.jp/utmobi/en/  
 

Research Center for Advanced Science and Technology

https://www.rcast.u-tokyo.ac.jp/en/
 

Research Contact

Project Assistant Professor Jia Xiaolu

Research Center for Advanced Science and Technology, The University of Tokyo,
4-6-1, Komaba, Meguro-ku, Tokyo 153-8904, JAPAN

Email: xiaolujia@g.ecc.u-tokyo.ac.jp

Press contact:
Mr Rohan Mehra
Public Relations Group, The University of Tokyo
7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan
email: press-releases.adm@gs.mail.u-tokyo.ac.jp

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