Abstract
Japan is one of the countries in the world where natural disasters occur most frequently. Typhoons, earthquakes, tsunamis, volcanic eruptions, and many other natural disasters occur in Japan every year, and the risks are immeasurable. Japan is especially prone to earthquakes because of its location on the North American Plate, Eurasian Plate, Pacific Plate, and Philippine Sea Plate. Preparation for a Nankai Trough earthquake is one of the most important issues. A Nankai trough earthquake is predicted to occur with a probability of 70–80% within 30 years. Accordingly, a tsunami of more than 10 ms is expected to hit a wide area along the Pacific coast from the Kanto region to the Kyushu region, and the impact is expected to be significant. When a tsunami warning is issued, an evacuation support system that provides information on evacuation sites and routes enables faster and safer evacuation actions. In a previous study conducted in our laboratory, we proposed an evacuation support system using Low-Power Wide-Area communications and conducted a simulation to find ways to improve the evacuation support system. However, the simulation was insufficient in that it did not consider delays in evacuation completion time due to road congestion caused by limited road width, which can be expected in an actual disaster. In our current research, as an improvement to make the simulation more realistic for further developing our evacuation support system, we propose a simulation that considers road width. We examined how adoption of this simulation methodology would affect the simulation results by comparing simulations that did and did not consider road width. As a result, the proposed method showed a lower percentage of completed evacuations than the previous simulation, especially for children and the elderly. The reason for this result is that when evacuations begin simultaneously, crowding occurs as people all rush to evacuation centers. This congestion on the roads near evacuation centers prevents people from completing their evacuations. Such a phenomenon is expected to occur not only in simulations but also on actual roads. For this reason, our proposed simulation method that considers road width is a more realistic simulation. Since evacuations by car in the event of a disaster also occur, a future issue is to simulate car congestion as well. Furthermore, simulating what would happen if a disaster made a road impassable is also important.
Similar content being viewed by others
Explore related subjects
Discover the latest articles, news and stories from top researchers in related subjects.References
JICE,“Knowing the Land /Surprisingly Unknown Land of Japan” (in Japanese). http://www.jice.or.jp/knowledge/japan/commentary12
The Headquarters for Earthquake Research Promotion Agency “Earthquakes in the Nankai Trough” (in Japanese). https://www.jishin.go.jp/regional_seismicity/rs_kaiko/k_nankai/
Japan Meteorogical Agency “Estimated seismic intensity and tsunami height from a Nankai Trough earthquake” (in Japanese). https://www.data.jma.go.jp/svd/eqev/data/nteq/assumption.html
Asahi newspaper company “Damage Assumption for Nankai Trough Earthquake” (in Japanese). http://www.asahi.com/special/nankai_trough/
Ministry of Internal Affairs and Communications “2Protection of the Elderly in Disasters” (in Japanese). https://www.soumu.go.jp/main_content/000217421.pdf
Statistics Bureau, Ministry of Internal Affairs and Communications “Elderly Population” (in Japanese). https://www.stat.go.jp/data/topics/topi1291.html
Honda Karin, Yamaba Hisaaki, Okazaki Kentaro Aburada Naonobu (2018) “Evacuation Behavior Simulation considering Walking Speed of Evacuees in Aoshima Area”, IPSJ-SIG Technical Reports, 2018-MBL-89, pp. 1-8
Geographical Survey Institute(GSI) “Map” (in Japanese). https://maps.gsi.go.jp/
Masamitsu MOHRI Hiroshi TSUKAGUCHI Shinya TAKASIMA,“DETERMINING THE WIDTH OF SIDEWALKS” https://doi.org/10.11361/journalcpij.44.3.97
SPACE-TIME-ENGINEERING,“Space-Time Engineering” (in Japanese). https://www.spacetime-eng.com/jp/
Miyazaki City“Miyazaki City Tourism Statistics” (in Japanese). https://www.city.miyazaki.miyazaki.jp/city/statistics/results/12183.html
Miyazaki prefecture “Estimated Population and Households in Miyazaki Prefecture” (in Japanese). http://www.pref.miyazaki.lg.jp/tokeichosa/kense/toke/kako2.html
Miyazaki City “designated emergency shelter” (in Japanese). https://www.city.miyazaki.miyazaki.jp/e_shelter/
ELSI “Tokyo Rush Hour by the Numbers” (in Japanese). http://old.elsi.jp/ja/blog/2015/11/blog1126.html
Miyazaki City, “Protect yourself from the Nankai Trough Earthquake ”(in Japanese). https://www.pref.miyazaki.lg.jp/kiki-kikikanri/kurashi/bosai/bousai-kikikanri/nankaitorafu_miwomamorou.html
Acknowledgements
This work was supported by JSPS KAKENHI Grant numbers JP21K11849, JP22K12013, and JP20K11812.
Author information
Authors and Affiliations
Corresponding author
Additional information
Publisher's Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
About this article
Cite this article
Nabeyama, K., Usuzaki, S., Aburada, K. et al. Tsunami evacuation simulation considering road width in Aoshima district. Artif Life Robotics 28, 779–788 (2023). https://doi.org/10.1007/s10015-023-00888-6
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10015-023-00888-6