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| 1.
学位論文 |
学位
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リュウ ケンアン
概要:
都市駅前空間の再生による魅力ある地域づくりに寄与するために、地理情報システム解析法及び空間図形分析手法を用いて、駅前の都市空間特性分析及び評価を行い、その有用性を実証する研究である。
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| 2.
学位論文 |
学位
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ソウ, ニチチョウ
概要:
本研究では,現地調査により天津市における廃プラスチックの回収・運搬システムの現状を把握した後,廃プラスチックのフローを推計した. 次に,これらの情報をもとに,GCMをベースにした最適化計算とGIS解析の応用による最適な輸送計画を取得し,再資
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源化過程を含めLCAを行うことによりシステム全体の環境負荷削減効果を求めた.本論文は上記にかかる研究成果を取りまとめたものであり,全6章で構成されている.
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| 3.
学位論文 |
学位
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ハン, ガクシュウ
概要:
The recent increase in rainstorm waterlogging disasters has acutely threatened sustainable urban development in China. T
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raditional strategy to solve this problem was drainage capacity enhancing project. However, there is a new countermeasure emerged in Chinese cities: “sponge city”, which aims at enlarging the absorption of rainwater by increasing the curves of urban land. This thesis endeavors to make an effectiveness analysis on this new countermeasure from life cycle perspective. A novel framework is built to analyze flood risk control benefit of sponge city by 3D simulating urban inundation result. Finally, we have come to the conclusions that in target area though the assumed sponge city project is not effective from a private perspective, it is effective from a social perspective; by conducting cost-effective analysis between sponge city and traditional countermeasure, sponge city was verified as competitive not only from an economical perspective but also from an environmental perspective.
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| 4.
学位論文 |
学位
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アマガラン, マグサル
概要:
In this research, the impact of global climate change and human activities on Ogii Lake Basin were studied using RS, and
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GIS. Ogii Lake and Khugshun Orkhon River’s water was classified as clean and slightly polluted water. The most accurate water index for delineating the surface area of Ogii Lake was MNDWI-1(R=0.94, p < 0.01). Evaporation from the lake was estimated using the energy-budget method based on historical reanalysis (ERA5) daily data. Total annual evaporation from Ogii Lake increased steadily over the last three decades; comparing to 1989, annual evaporation increased by 20.02, 25.79, and 32.4 mm in 1999, 2009, and 2019, respectively. Comparison result showed that precipitation is not a main part of the water source for Ogii Lake. The result of the estimated water balance between 2016 and 2019 was demonstrated that both surface and groundwater have a considerable influence on Ogii Lake’s water balance. The GWPZs of Ogii Lake Basin was delineated integrating the AHP and MCDM methods. The highest GWPZs was coincided with deepest part of the lake, where the tectonic fault cross Ogii Lake.
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