京都大学防災研究所年報 第64号 Aへ
To DPRI Annuals, No. 64 A
京都大学防災研究所年報 第64号 B
DPRI Annuals, No. 64 B
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目次 | |||||||
防災情報の流通ネットワークの検証を目的としたCyRealセンサシステムの開発 A CyReal Approach to Sensor System Development for Preliminary Verification of Disaster Information Network | 1 | ||||||
廣井 慧・小比賀亮仁・篠田陽一 Kei HIROI, Akihito KOHIGA and Yoichi SHINODA | |||||||
![]() | センサネットワーク,防災情報通信,エミュレータ,IoTデバイス sensor network, disaster information network, emulator, IoT device | ||||||
近江盆地南部における微動アレイ探査 Microtremor Array Surveys in the Southern Part of Omi Basin | 9 | ||||||
浅野公之・岩田知孝・関口春子・杉山長志 Kimiyuki ASANO, Tomotaka IWATA, Haruko SEKIGUCHI and Takeshi SUGIYAMA | |||||||
![]() | 近江盆地,S波速度構造モデル,位相速度,微動アレイ Omi Basin, S-wave velocity model, phase velocity, microtremor array observation | ||||||
建物の基礎免震,中間層免震および同調型マスダンパによる制振の統一的理解 Unified Understanding of Base Seismic Isolation, Interstory Seismic Isolation and Tuned Mass Damper for Buildings | 21 | ||||||
池田芳樹 Yoshiki IKEDA | |||||||
![]() | 基礎免震,中間層免震,同調型マスダンパ,統一的理解,極配置 base seismic isolation, interstory seismic isolation, tuned mass damper, unified understanding, pole allocation | ||||||
飛騨山脈2020年群発地震 Seismic Swarm Activity in the Hida Mountain Range, Central Japan, in 2020 | 40 | ||||||
大見士朗 Shiro OHMI | |||||||
![]() | 飛騨山脈,群発地震,有感地震,地震活動の特徴 Hida mountain range, seismic swarm activity, felt earthquakes, characteristics of seismic activity | ||||||
和歌山県北部の隆起 Uplift in the Northern Wakayama Prefecture | 48 | ||||||
橋本 学 Manabu HASHIMOTO | |||||||
![]() | 和歌山県北部,隆起,水準測量,潮位,InSAR Northern Wakayama Prefecture, uplift, leveling, tide, InSAR | ||||||
1955年以降の桜島南岳活動期の火山災害 Volcanic Disaster during the Eruptive Period since 1955 at Sakurajima Volcano ![]() |
57 | ||||||
井口正人・山田大志 Masato IGUCHI and Taishi YAMADA | |||||||
![]() | 火山災害,火山岩塊,火山レキ,火山灰,火砕流,土石流,空振 volcanic disaster, volcanic bomb, lapilli, volcanic ash, pyroclastic flow, debris flow, air-shock | ||||||
桜島火山における繰り返し相対重力測定(2020年10月および2021年3月) Repeated Relative Gravity Measurements in Sakurajima Volcano (October 2020 and March 2021) | 73 | ||||||
風間卓仁・山本圭吾・大柳 諒・岡田和見・大島弘光・竹中悠亮・若林 環・井口正人 Takahito KAZAMA, Keigo YAMAMOTO, Ryo OYANAGI, Kazumi OKADA, Hiromitsu OSHIMA, Yusuke TAKENAKA, Tamaki WAKABAYASHI and Masato IGUCHI | |||||||
![]() | 桜島火山,相対重力,質量移動,地殻変動,陸水重力擾乱,スケール定数 Sakurajima Volcano, relative gravity, mass redistribution, crustal deformation, hydrological gravity disturbance, scale factor | ||||||
姶良カルデラにおける長期連続反射法基礎実験 A Fundamental Experiment for the Long-term Sustainable Seismic Reflection Survey of Aira Caldera | 86 | ||||||
筒井智樹・為栗 健・味喜大介・井口正人・篠原雅尚 Tomoki TSUTSUI, Takeshi TAMEGURI, Daisuke MIKI, Masato IGUCHI, and Masanao SHINOHARA | |||||||
![]() | 姶良カルデラ,火山活動監視,地下構造,人工地震探査 Aira Caldera, volcano monitoring, subsurface structure, seismic surveys | ||||||
GNSS観測による姶良カルデラ下へのマグマ供給率の推定 Estmate of Magma Supply Rate Beneath Aira Cardera, Kyushu, Japan; Inferred from GNSS Observation | 101 | ||||||
味喜大介・筒井智樹・井口正人 Daisuke MIKI, Tomoki TSUTSUI and Masato IGUCHI | |||||||
![]() | 姶良カルデラ,GNSS,マグマ供給率 Aira caldera, GNSS, magma supply rate | ||||||
初期構造異方性を有する多重せん断型非線形弾性体のtotal Lagrange法に基づく大変形定式化 Large Deformation Formulation Based on the Total Lagrange Method for a Nonlinear Elastic Body within a Framework of Multiple Shear Mechanism Accounting for Inherent Anisotropy | 108 | ||||||
上田恭平・中原知洋・井川誠二 Kyohei UEDA, Tomohiro NAKAHARA and Seiji IGAWA | |||||||
![]() | 初期構造異方性,非線形弾性体,多重せん断機構,幾何学的非線形性,total Lagrange法 inherent anisotropy, nonlinear elastic body, multiple shear mechanism, geometrical nonlinearity, total Lagrange method | ||||||
ローム層分布域の人工改変地における地震時流動性地すべり ―GISを用いた多摩丘陵を事例としたポテンシャル評価― GIS Assessment of Earthquake-induced Landslides Potential on Artificial Landform Transformation Areas in the Tama Hills Covered with Tephric Loess, Tokyo | 115 | ||||||
鈴木毅彦・千木良雅弘・松四雄騎・中山大地 Takehiko SUZUKI, Masahiro CHIGIRA, Yuki MATSUSHI and Daichi NAKAYAMA | |||||||
![]() | 地震時流動性地すべり,人工改変地形,多摩丘陵,火山灰土,ローム earthquake-induced landslide, artificial landform transformation, Tama Hills, tephric soil deposits, loam | ||||||
前線通過時のドップラーライダーによる強風観測 Observation of Strong Wind Fields during Passage of Cold Front by Doppler Lidar | 131 | ||||||
丸山 敬・竹見哲也・山田広幸・山口弘誠 Takashi MARUYAMA, Tetsuya TAKEMI, Hiroyuki YAMADA and Kosei YAMAGUCHI | |||||||
![]() | ドップラーライダー,強風,フィールド観測,積雲対流,境界層,レーダー観測 doppler lidar, strong wind, field observation, cumulus convection, boundary layer, radar observation | ||||||
平野上の大気境界層における風速変動 Wind Variation in the Atmospheric Boundary Layer over a Plain | 137 | ||||||
堀口光章 Mitsuaki HORIGUCHI | |||||||
![]() | 大気境界層,風速変動,運動量輸送,ウィンドプロファイラ atmospheric boundary layer, wind variation, momentum transfer, wind profiler | ||||||
Wavelet Analysis of Thermal Activity and Cloud Initiation based on Boundary Layer Radar and Time Lapse Camera Observation | 145 | ||||||
Ginaldi Ari NUGROHO, Kosei YAMAGUCHI, Masayuki K. YAMAMOTO, Seiji KAWAMURA and Eiichi NAKAKITA | |||||||
![]() | Wavelet, Phase classification, Thermal, Cumulus cloud | ||||||
マルチパラメータレーダ群を用いたゲリラ豪雨ライフサイクルと渦管の統合的解析 Integrated Analysis of Guerrilla Heavy Rainfall Life Cycle and Vortex Tubes by Using Multiple Types of Radars | 154 | ||||||
高尾充政・中北英一・山口弘誠 Mitsumasa TAKAO, Eiichi NAKAKITA and Kosei YAMAGUCHI | |||||||
![]() | ゲリラ豪雨,渦度,ドップラー解析 Guerrilla heavy rainfall, Vorticity, Doppler analysis | ||||||
Xバンド偏波レーダーRHI観測による融解層内の偏波パラメータと降水粒子の粒径の比較に関する研究 Comparison of Polarimetric Parameters in Melting Layer and Particles Diameter Using X-band Polarimetric Radar RHI Observation | 181 | ||||||
高見和弥・鈴木賢士・山口弘誠・中北英一 Kazuya TAKAMII, Kenji SUZUKI, Kosei YAMAGUCHI and Eiichi NAKAKITA | |||||||
![]() | 融解層,偏波レーダー Melting layer, Polarimetric radar | ||||||
地デジ放送波とGNSSを用いた積乱雲における対流圏中層水蒸気が降水増幅に与える影響 Impact and Indexing of Water Vapor at Middle-Level around Convective Clouds on Rainfall Enhancement by Using Digital Terrestrial Broadcasting Wave and GNSS | 187 | ||||||
山口弘誠・村瀬公崇・花土 弘・金丸佳矢・川村誠治・相馬一義・中北英一 Kosei YAMAGUCHI, Kimitaka MURASE, Hiroshi HANADO, Kaya KANEMARU, Seiji KAWAMURA, Kazuyoshi SOUMA and Eiichi NAKAKITA | |||||||
![]() | 水蒸気,対流圏中層,豪雨 water vapor, middle-level, heavy rainfall | ||||||
Analysis of Cell Merging from New Cells to Multicell Formation with Dual Doppler and Vorticity Analysis | 208 | ||||||
Fauziana AHMAD, Kosei YAMAGUCHI and Eiichi NAKAKITA | |||||||
![]() | new cell, multicell, core pair vorticity, merging cell, updraft, convergence | ||||||
Predicting the Risk Level of Guerrilla Heavy Rainfall by Using the Quantitative Risk Prediction Method with Multiple Doppler Radar Analysis | 217 | ||||||
Hwayeon KIM and Eiichi NAKAKITA | |||||||
![]() | Guerrilla heavy rainfall, Quantitative Risk Prediction, Multiple Doppler Radar Analysis | ||||||
列車運転規制への活用を目的とした短時間降雨予測の精度向上手法に関する研究 Investigation On Accuracy Improvement Methods Of Short-term Rainfall Prediction For The Train Operation Control | 227 | ||||||
中渕遥平・鈴木博人・金原知穂・遠藤 理・中北英一 Yohei NAKABUCHI, Hiroto SUZUKI, Chiho KIMPARA, Satoru ENDO and Eiichi NAKAKITA | |||||||
![]() | 鉄道運行,降雨予測,移流モデル,エラーアンサンブル Train operation, Rainfall prediction, Translation model, Error ensemble | ||||||
アンサンブル予測の更新に伴う不確実性の増幅を考慮したリアルタイム線状降水帯予測 Real-Time Prediction of Line-Shaped Rainband Considering “Growing Forecast Uncertainty” Estimated from Update History of Ensemble Forecast | 237 | ||||||
山口弘誠・黒田奈那・中北英一 Kosei YAMAGUCHI, Nana KURODA and Eiichi NAKAKITA | |||||||
![]() | 線状降水帯,アンサンブル予測,ばらつき,降水予測 line-shaped rainband, ensemble forecast, spread, rainfall forecast | ||||||
熱的勾配が駆動する渦度場の解明とデータ同化実験 Understanding and Data Assimilation Experiment on Vorticity Field Driven by Thermal Gradient ![]() |
277 | ||||||
大野哲之・山口弘誠・中北英一 Akiyuki ONO, Kosei YAMAGUCHI, and Eiichi NAKAKITA | |||||||
![]() | 集中豪雨,温位,渦度,データ同化,フーリエ解析,降水粒子 heavy rainfall, potential temperature, vorticity, data assimilation, Fourier analysis, precipitation particles | ||||||
最尤法アンサンブルフィルタを用いた非線形観測の同化 Assimilation of Nonlinear Observations Using the Maximum Likelihood Ensemble Filter | 294 | ||||||
中下早織 · 榎本 剛 Saori NAKASHITA and Takeshi ENOMOTO | |||||||
![]() | 最尤推定,アンサンブルデータ同化,数値最適化,非線形観測演算子 Maximum Likelihood Estimation, Ensemble data assimilation, Numerical optimization, Nonlinear observation operator | ||||||
局所細密化を適用したRBF移流モデルの安定性と保存性 Stability and Preservability of RBF Transport Model with Local Node Refinement | 305 | ||||||
小笠原宏司・榎本 剛 Koji OGASAWARA and Takeshi ENOMOTO | |||||||
![]() | RBF移流モデル,動径基底関数 RBF-transport scheme, Radial Basis Functions | ||||||
北半球夏季のダブルジェットの力学変動 Dynamical Variability of the double-jet Structure in the Northern Hemisphere Summer | 309 | ||||||
直江寛明・榎本 剛・今田由紀子 Hiroaki NAOE, Takeshi ENOMOTO and Yukiko IMADA | |||||||
![]() | ダブルジェット,夏の環状モード double jets, summer northern annular mode | ||||||
自己組織化マップを用いた大気循環パターンのクラスタ解析 Clustering of Atmospheric Circulation Patterns Using Self-Organizing Maps | 313 | ||||||
榎本 剛 Takeshi ENOMOTO | |||||||
![]() | 異常天候,ニューラルネットワーク,教師なし学習 anomalous climate, neural network, unsupervised learning | ||||||
Analysis of Future Changes of Geometric Range of Snake Lines and its Relation to Sediment Disasters in a Changing Climate | 317 | ||||||
Ying-Hsin WU, Eiichi NAKAKITA and Akihiko YAMAJI | |||||||
![]() | climate change, sediment disasters, snake line pattern, NHRCM, Radar-AMeDAS | ||||||
複数温暖化シナリオに基づく線状対流系の擬似温暖化実験と影響メカニズムに関する解析 Analysis on the Future Change of Line Shaped Extreme Rain-band and Its Mechanisms by Using Pseudo Global Warming Experiment Under the Multi-scenario | 327 | ||||||
小坂田ゆかり・中北英一 Yukari OSAKADA and Eiichi NAKAKITA | |||||||
![]() | 線状対流系,梅雨前線,地球温暖化,擬似温暖化実験,メカニズム line shaped rain-band, Baiu front, global warming, Pseudo Global Warming experiment, mechanisms | ||||||
150年連続ランによる梅雨期極端降雨の将来変化と段階的適応に向けた解析 Analysis on Future Changes of Extreme Rainfall in Baiu Rainy Season for Stepwise Adaptation by Using 150-year Continuous Run | 335 | ||||||
中北英一・原田茉知・小坂田ゆかり Eiichi NAKAKITA, Machi HARADA and Yukari OSAKADA | |||||||
![]() | 気候変動,梅雨,豪雨,時間連続,適応 Climate Change, Baiu Rainfall, Heavy Rainfall, Time-seamless, Adaptation | ||||||
可動式津波低減設備“防波扉”の運動に関する模型実験と強度に関する数値解析 Experimental Study on Motion and Numerical Analysis on Strength of Tsunami Mitigation Facility “Anti-Tsunami Door” | 343 | ||||||
飯干 歩・平石哲也・濵田英外・森田章一 Ayumu IIBOSHI, Tetsuya HIRAISHI, Eigai HAMADA and Shoichi MORITA | |||||||
![]() | 津波対策,防波扉,模型実験,OpenFOAM,作用津波波圧 tsunami mitigation, anti-tsunami door, model experiment OpenFOAM, acting tsunami pressure | ||||||
防潮堤に作用する津波に対する海岸砂丘の効果に関する実験 Experimental Study on the Effect of Coastal Dune against Tsunami Action to Seawall | 354 | ||||||
奥谷哲也・岩田 奏・平石哲也 Tetsuya OKUTANI, So IWATA and Tetsuya HIRAISHI | |||||||
![]() | 水理実験,津波波圧,津波波力,海岸砂丘,防潮堤,孤立波 hydraulic experiment, tsunami pressure, tsunami force, coastal dune, seawall, solitary wave | ||||||
流域地形と降雨の時空間パターンを考慮した洪水発生ポテンシャルの評価 Assessment of Flood Potential in River Basins in Japan Considering Basin Geography and Rainfall Pattern | 365 | ||||||
佐藤嘉展・泉 智揮・野原大督・佐山敬洋・角 哲也 Yoshinobu SATO, Tomoki IZUMI, Daisuke NOHARA, Takahiro SAYAMA and Tetsuya SUMI | |||||||
![]() | 流域地形,降雨パターン,洪水発生ポテンシャル,分布型流出モデル Basin Geography, Rainfall Pattern, Flood Potential, distributed hydrological model | ||||||
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