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A support tool incorporating a district disaster mitigation performance evaluation method for the examination of improvement plans in built-up areas 被引量:3

A support tool incorporating a district disaster mitigation performance evaluation method for the examination of improvement plans in built-up areas
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摘要 Approximately 20,000 ha of densely built-up areas still remain in Japan. However, the advance of improvements in these areas has been very slow. Thus, making draft improvement plans through citizen-administration partnerships is indispensable to promote improvements. The planning support tool proposed in this study supports a consensus-building process during the creation of draft improvement plans. We develop a disaster mitigation performance evaluation method (DMPEM) for built-up areas at the district level and incorporate this method into a disaster mitigation support Web-GIS. However, DMPEM requires lengthy calculation time because it uses the probabilistic Monte Carlo computation method. Using this tool in realime planning is therefore difficult. In this study, we first develop a system that reduces the calculation time required by DMPEM. Second, the support tool is used to make draft plans through citizen-administration partnerships in districts where residents are conducting various disaster mitigation activities. Finally, we investigate the usefulness of the tool for consensus building through the promotion of lively discussions among residents and clarify the issues associated with practical use of the tool. Approximately 20,000 ha of densely built-up areas still remain in Japan. However, the advance of improvements in these areas has been very slow. Thus, making draft improvement plans through citizen-administration partnerships is indispensable to promote improvements. The planning support tool proposed in this study supports a consensus-building process during the creation of draft improvement plans. We develop a disaster mitigation performance evaluation method (DMPEM) for built-up areas at the district level and incorporate this method into a disaster mitigation support Web-GIS. However, DMPEM requires lengthy calculation time because it uses the probabilistic Monte Carlo computation method. Using this tool in realime planning is therefore difficult. In this study, we first develop a system that reduces the calculation time required by DMPEM. Second, the support tool is used to make draft plans through citizen-administration partnerships in districts where residents are conducting various disaster mitigation activities. Finally, we investigate the usefulness of the tool for consensus building through the promotion of lively discussions among residents and clarify the issues associated with practical use of the tool.
作者 Kazuki Karashima Akira Oheai Katsumi Tadamura
机构地区 Dept. of Architecture and Civil Eng. Dept. of Science and Engineering
出处 《Frontiers of Architectural Research》 CSCD 2015年第4期263-276,共14页 建筑学研究前沿(英文版)
关键词 Planning Support system WEB-GIS Disaster mitigation Densety built-upareas WORKSHOP Planning Support system Web-GIS Disaster mitigation Densety built-upareas Workshop
分类号 TP311 [自动化与计算机技术—计算机软件与理论] X43 [环境科学与工程—灾害防治]
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参考文献16

  • 1Arima, T., et al., 2007. Utilization and evaluation of virtual reality in urban design workshops: workshop support system for space grasping and image share. J. Archit. Plan., Archit. Inst. Jpn. 617, 79-85 No.2.
  • 2Gohnai, Y., 2007. Development of a Support System for Communitybased Disaster Mitigation Planning Integrated with a Fire Spread Simulation Model using Cellular Automata Ph.D. thesis. Toyohashi University of technology.
  • 3Gohnai, Y., et al., 2006. Development of a Support System for Community-based Disaster Mitigation Planning Integrated with a Fire Spread Simulation Model Using CA. In: Leeuwen, J.P., Timmermans, H. (Eds.), Springer Verlag, New York, pp. 35-51.
  • 4Gohnai, Y., et al., 2007, An evaluation method for emergency response activities during earthquakes in japanese local cities: A tool for supporting community-based planning disaster mttigation. In: Proceedings of the 10th International Conference in Computers in Urban Planning and Urban Management, July 11- 13, Iguassu, Brazil.
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  • 7Kato, T., 200S. Technologies in Urban Regeneration-CommunityBased Urban Planning Support System Enhanced by Urban Vulnerability Assessment Technologies. In: Sadahiro, Y_ (Ed.), Spatial Data Infrastructure for Urban Regeneration, Library for Sustainable Urban Regeneration, 5. Springer, Tokyo, pp. 103-126.
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Frontiers of Architectural Research
2015年 第4期

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