@article{oai:miyazaki-u.repo.nii.ac.jp:00006430,
 author = {本田, 佳鈴 and Okazaki, Naonobu and 岡崎, 直宣 and Yamaba, Hisaaki and 山場, 久昭 and Aburada, Kentaro and 油田, 健太郎 and Honda, Karin},
 journal = {宮崎大学工学部紀要, Memoirs of Faculty of Engineering, University of Miyazaki},
 month = {Sep},
 note = {In the previous research of our laboratory, we proposed an evacuation support system using ad hoc communication. However, since the evacuation support system in the previous research has a one-hop communication range for ad hoc communication, information may reach only the evacuees around the sender, and sufficient performance could not be obtained. Therefore, we thought that it would be more useful for evacuation if all the evacuees, not just those nearby, could receive the information. In this study, we improved the evacuation support system by using power-saving long-distance communication, which has excellent disaster resistance and can share information with all evacuees from communication with the server. In the experiment, we conducted an evacuation behavior simulation assuming a tsunami disaster and investigated the usefulness of the evacuation support system. In this study, we used Scenargie, which is a multi-agent simulation, to simulate evacuation behavior in the event of a tsunami disaster. In this simulation, in the case of the evacuation support system using power-saving long-distance communication, the number of people who completed evacuation began to exceed that of the evacuation support system using ad hoc communication from 1300, and 21 more people were able to complete evacuation at 1800s. From these results, it was found that the evacuation support system using power-saving long-distance communication is effective in the situation where the number of evacuees near the end of the simulation decreases.},
 pages = {199--211},
 title = {省電力長距離通信を利用した津波災害時の避難支援システムの研究},
 volume = {50},
 year = {2021},
 yomi = {ホンダ, カリン and オカザキ, ナオノブ and ヤマバ, ヒサアキ and アブラダ, ケンタロウ}
}