日本地球惑星科学連合2021年大会

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[E] 口頭発表

セッション記号 U (ユニオン) » ユニオン

[U-12] From Hazard to Resilience

2021年6月4日(金) 15:30 〜 17:00 Ch.01 (Zoom会場01)

コンビーナ:平田 直(国立研究開発法人防災科学技術研究所)、田村 圭子(新潟大学 危機管理本部 危機管理室)、Matt Gerstenberger(GNS Science)、Schorlemmer Danijel(GFZ German Research Centre for Geosciences)、座長:平田 直(国立研究開発法人防災科学技術研究所)、Danijel Schorlemmer(GFZ German Research Centre for Geosciences)

16:00 〜 16:15

[U12-03] ”q-NAVI":Practice of a structural health monitoring as an initial emergency response support system to earthquake disaster

★Invited Papers

*日下 彰宏1、神田 克久1、中島 正愛1、鈴木 芳隆1、小笠原 さおり1 (1.株式会社 小堀鐸二研究所)

キーワード:構造ヘルスモニタリング、地震災害、緊急対応、リスクコミュニケーション

Kobori Research Complex (KRC) developed a building structural health monitoring (SHM) system, nicknamed as “q-NAVI” in 2015 and has been working on its installation and maintenance[1]. Four and a half years after the first installation, as of the end of March 2020, "q-NAVI" has been installed in 450 private buildings nationwide. In Japan, SHMs have been installed in about 850 buildings, of which about 700 are in the private sector, in contrast to other many seismic countries where the expenditure of SHMs is covered by public funds for the purpose of "validation of seismic design methods." The difference may come from the difference of earthquake experience. Especially after experiencing the Great East Japan Earthquake, private companies and building owners have become more involved in their own and their tenants’ business continuity, respectively. As the first step in business continuity plan against earthquake disaster, it is necessary to know quickly whether the building you are in is healthy, whether you need to evacuate, and when you can return if you evacuate at one time. SHM is expected to work it on.

A q-NAVI system is consisting of the following items; accelerometers, a computer for control and recording, and a data transfer equipment. In a typical system for a middle-rise building, four accelerometers are included. When two or more sensors observe magnitude of building motion exceed the preset threshold, the system starts the damage estimation process in which the maximum inter-story deformation angles are estimated, then compared with the preset criteria. The result is shown to building managers and/or residents as the necessity of evacuation action within a few minutes after the motion subsides. In addition, at the same time, the evaluation result and a part of the observation data are upload to a cloud storage so that stakeholders such as a building owner etc. who are away from the disaster area will be easily recognize the situation.

At the 2018 Osaka Northern Earthquake, a large number of q-NAVI installed buildings were suffered with strong motion and some of them are damaged in non-structural members. Since the earthquake struck early in the morning, all transportation systems, including railroads, were suspended, and as a result, building managers were unable to see the buildings they managed. Even under such circumstances, they could immediately know the building status via the Internet, and later expressed their gratitude.

In addition, as a lesson learned from the 2018 Osaka-ken Northern Earthquake, there is another effect of installing "q-NAVI", which is to quantify the damage situation. In this earthquake, damage to ceilings and partitions was found in many buildings, and the response characteristics of the building (maximum interlayer deformation level, maximum floor acceleration response, etc.) corresponding to the damage to these members were also obtained. Accumulation of such data will lead to the development of earthquake engineering, and the improvement of seismic resistance of society. It is also important for working of SHM to continue maintenance and to make building owners and managers to be aware that such systems are installed in their buildings. This makes us (earthquake engineers) to have conversations about earthquake with q-NAVI users (ordinary people) regularly as well as immediately after earthquakes. We strongly recognize that such daily communication is also the key to maintaining awareness of disaster in society and sustaining resilience.

Reference
[1] Kanda,K., Nakashima, M,. Suzuki, Y., Ogasawara, S (2020), ”q-NAVI”:A case of market-based implementation of structural health monitoring in Japan, Earthquake Spectra, 37(3).