論文(査読付き)
2023
| 46 |
Sugiyama D., R. Onishi, and H. Fudeyasu, 2023: SolaCam: A Deep Learning Model for Solar Radiation Estimation Using Consumer Cameras. SOLA, 19, 243-246.
|
| 45 |
V.P.M. Rajasree, Xi Cao, Hamish Ramsay, Kelly M. Nu~nez Ocasio, Gerard Kilroy, George R. Alvey III, Minhee Chang, Chaehyeon Chelsea Nami, H. Fudeyasu, Hsu-Feng Teng , Hui Yu, 2023: Positive
Tropical cyclogenesis: Controlling factors and physical mechanisms. Tropical Cyclone Research and Review, 12, 165-181.
|
2022
| 44 |
Sakurai, N.,H. Fudeyasu, P. R. Krehbiel, R. J. Thomas, W. Rison, and D. Rodeheffer, 2022: Positive
cloud-to-ground lightning characteristics in the eyewall of Typhoon Faxai (2019) observed by Tokyo Lightning
Mapping Array. J. Meteor. Soc. Japan, 100, 979?993, doi:10.2151/jmsj.2022-051.
PDF
|
| 43 |
Otaki, T.,H. Fudeyasu, H. Kohno, T. Takemi, N. Mori, K. Iida, 2022: Investigation of characteristics of maximum storm surges in Japanese coastal regions caused by 2018 Typhoon Jebi based on typhoon track ensemble simulations. J. Meteor. Soc. Japan, 100, 661-676.
|
| 42 |
Fudeyasu, H., U. Shimada, Y. Oikawa, H. Eito, A. Wada, R. Yoshida, and T. Horinouchi, 2022: Contributions of the large-scale environment to the typhoon genesis of Faxai (2019). J. Meteor. Soc. Japan, 100, 617-630.
PDF
|
2021
| 41 |
Miyamoto, Y., H. Fudeyasu, and A. Wada, 2021:
Intensity and structural changes of numerically simulated Typhoon Faxai (1915) before landfall.
J. Meteor. Soc. Japan, Vol. 100 (2022), No. 1 pp. 181-196
|
| 40 |
小林俊之,山田均,勝地弘,筆保弘徳,2020:統計的台風シミュレーションに基づいた一様な海面水温上昇と風速の再現期待値の関係
,土木学会論文集A1(構造・地震工学),77,No2,243-254.
PDF |
2020
| 39 |
Fudeyasu H., K. Yoshida K. and R. Yoshida, 2020:
Future Changes in Western North Pacific Tropical Cyclone Genesis
Environment in high-resolution large-ensemble simulations. oceans, 1(4), 355-368; https://doi.org/10.3390/oceans1040024. Open access PDF
|
| 38 |
Fukuda, K., K. Yasunaga, R. Oyama, A. Wada, A. Hamada, H. Fudeyasu,
2020: The Diurnal Cycle of Clouds in Tropical Cyclones over the Western North Pacific Basin. SOLA, Vol. 16 pp. 109-114. PDF
|
| 37 |
小林俊之,山田均,勝地弘,筆保弘徳,2020:海面水温特性を考慮した台風移動モデルにおける中心気圧低下量再現性の向上,日本風工学会,45,54-65.
PDF |
| 36 |
Yoshida R. and Fudeyasu H.,2020, How Significant are Low-level Flow Patterns in Tropical Cyclone
Genesis over the Western North Pacific?, MWR,148, 559-576
PDF |
| 35 |
Fudeyasu H., R. Yoshida,M. Yamaguchi, H. Eito, C Muroi, S Nishimura,
K Bessho, Y. Oikawa, and N Koide, 2020: Development conditions for tropical storms over
the western North Pacific stratified by large-scale flow patterns, JMSJ,98(1), 61-72,
PDF |
2019
| 34 |
Fudeyasu H., and R. Yoshida,2019:Statistical Analysis of the Relationship between Upper Tropospheric
Cold Lows and Tropical Cyclone Genesis over the Western North Pacific, JMSJ,97, 439-451 PDF |
| 33 |
加瀬絋熙,筆保弘徳,北本朝展,Danlan Chen,吉田龍二,竹見哲也
,2019:深層学習を用いた台風強度推定に対する台風の特徴の影響,天気,66,51-58 PDF |
2018
| 32 |
Fudeyasu H., K. Ito, and Y. Miyamoto,2018:Characteristics of tropical cyclone rapid intensification over the Western North Pacific, Journal of Climate24, 8917-8930.PDF
|
| 31 |
森山文晶, 芳村圭, 筆保弘徳,2018, 領域大気海洋結合モデルの不確実性の検証, 土木学会論文集B1(水工学)、62巻、土木学会、157-162.PDF
|
| 30 |
Fudeyasu H., and R. Yoshida,2018:Western North Pacific Tropical Cyclone Characteristics Stratified by Genesis Environment, Mon. Wea. Rev.,146, 435‐446.PDF
|
2017
| 29 |
吉岡大秋,筆保弘徳,榎本剛,勝俣昌己,山崎哲,横井覚,辻野智紀,舛田あゆみ,城岡竜一,2017:PALAU2013で観測された台風第1304号の発生予報実験における初期値依存性の解析,天気,63,855-861
PDF
|
| 28 |
山崎聖太,筆保弘徳,加藤 雅也,竹見哲也,清原康友,2017:台風による強風ハザードの評価:台風ノモグラムの開発,日本風工学会,42,121-133.PDF
|
| 27 |
Kanada S., T. Takemi, M. Kato, S. Yamasaki, H. Fudeyasu,K. Tsuboki, O. Arakawa, and I. Takayabu,2017:
A multi-model intercomparison of an intense typhoon in future, warmer climates by four 5-km-mesh models,J. Clim., 24, 6017-6036. PDF
|
| 26 |
Kusaka H., and H. Fudeyasu,2017:Review of downslope windstorms in Japan,Wind and Structures
, Vol. 24, No. 6 637-656 DOI: https://doi.org/10.12989/was.2017.24.6.637PDF |
2016
| 25 |
熊澤里枝,筆保弘徳,久保田尚之,2016:1900年から2014年における日本の台風上陸数,天気,63,855-861.PDF
|
2015
| 24 |
舛田あゆみ,筆保弘徳,乙部直人,2015:回転水槽実験で発生するながれの定量化と分類,天気,62,869-880.PDF
|
2014
| 23 |
Fudeyasu, H., S. Hirose, H. Yoshioka, R. Kumazawa, and S. Yamasaki, 2015: A Global View of the Landfall Characteristics of Tropical Cyclones, Tropical Cyclone Research and Review, 3, 178-192, PDF
.
|
| 22 |
筆保弘徳,舛田あゆみ,乙部直人,熊澤里枝,西野耕一,2014:粒子画像流速測定法と渦運動エネルギーを用いた回転水槽実験で発生する傾圧不安定波の定量化,ながれマルチメディア、33巻、日本流体力学会、PDF / HP
|
2011
| 21 |
Sakurai, N., S. Mori, M. Kawashima, Y. Fujiyoshi, J.-I. Hamada, S. Shimizu, H. Fudeyasu, Y. Tabata, Wendi Harjupa, H. Hashiguchi, M. D. Yamanaka, J, Matsumoto, Emrizal, F. Syamsudin, 2011:Migration Process and 3D Wind Field of Precipitation Systems Associated with a Diurnal Cycle in West Sumatera: Dual Doppler Radar Analysis During the HARIMAU2006 Campaign. J. Meteo. Soc. Jap., 89, 341-361.PDF
|
20 |
Fudeyasu, H., Y. Wang, 2011 Balanced contribution to the intensification of a tropical cyclone simulated in TCM4: Outer core spinup process. J. Atom. Sience., 68, 430-449.PDF
|
2010
| 19 |
Fudeyasu, H., K. Ichiyanagi, K. Yoshimura, S. Mori, N. Sakurai, J.-I. Hamada, M. D. Yamanaka, J. Matsumoto, and F. Syamsudin 2011: Effects of large-scale moisture transport and mesoscale processes on precipitation isotope ratios observed at Sumatera, Indonesia. J. Meteo. Soc. Jap., 89A, 49-59.PDF
|
18 |
Mori, S., Hamada J.-I., N. Sakurai, H. Fudeyasu, M. Kawashima, H. Hashiguchi, S. Fadli, A. Ardhi, R. Sulistyowati, J. Matsumoto, and M. D. Yamanaka, 2010: Convective systems developed along the coastline of Sumatera Island, Indonesia, observed with an X-band Doppler radar during the HARIMAU2006 campaign. J. Meteo. Soc. Jap., 89A, 61-81.PDF
|
17 |
Fudeyasu, H., Y. Wang, M. Satoh, T. Nasuno, H. Miura, and W. Yanase: Multiscale Interactions in the Lifecycle of a Tropical Cyclone simulated in a global cloud-system-resolving model: Part II: System-Scale and Mesoscale Processes, Mon. Wea. Rev., 138, 4305-4327.PDF
|
16 |
Fudeyasu, H., Y. Wang, M. Satoh, T. Nasuno, H. Miura, and W. Yanase: Multiscale Interactions in the Lifecycle of a Tropical Cyclone simulated in a global cloud-system-resolving model: Part I: Large-scale and Storm-scale Evolutions, Mon. Wea. Rev., 138, 4285-4304.PDF
|
2009
| 15 |
Yonging Wang 、Yuqing Wang、, and H. Fudeyasu: Roles of Typhoon Songda (2004) in producing distantly-located heavy rainfall in Japan. Mon. Wea. Rev., 137, 3699-3716. PDF
|
14 |
Liu, P., M. Satoh, B. Wang, H. Fudeyasu, T. Nasuno, T. Li, H. Miura, H. Taniguchi, H. Masunaga, X. Fu, and H. Annamalai: An MJO Simulated by the NICAM at 14-km and 7-km Resolutions. Mon. Wea. Rev., 137, 3254-3268. PDF
|
13 |
Kikuchi, K., B. Wang, and H. Fudeyasu, 2009: Genesis of Tropical Cyclone Nargis revealed by multiple satellite observations.Geophys. Res. Lett., 36, L06811, doi:10.1029/2009GL037296. PDF
|
12 |
Ohashi, Y., T. Kawabe, Y. Shigeta, Y. Hirano, H. Kusaka, H. Fudeyasu, and K. Fukao, 2009: Evaluation of Urban Thermal Environments in Commercial and Residential Spaces in Okayama City, Japan, Using the Wet-Bulb Globe Temperature Index. Theoretical and Applied Climatology, DOI: 10.1007/s00704-008-0006-8. PDF
|
2008
| 11 |
Fudeyasu, H., Y. Wang, M. Satoh, T. Nasuno, H. Miura, and W. Yanase, 2008: The Global Cloud-System-Resolving Model NICAM Successfully Simulated the Lifecycles of Two Real Tropical Cyclones. Geophys. Res. Lett., 35, L22808. PDF
|
10 |
Fudeyasu, H., K. Ichiyanagi, A. Sugimoto, K. Yoshimura, A. Ueta, M.D. Yamanaka, and K. Ozawa, 2008: Isotope Ratios of Precipitation and Water Vapor observed in Typhoon Shanshan. J. Geophys. Res., 113, D12113, doi:10.1029/2007JD009313. PDF
|
9 |
Fudeyasu, H., T. Kuwagata, Y. Ohashi, S. Suzuki, Y. Kiyohara, and Y. Hozumi, 2008: Numerical study of the local downslope wind "Hirodo-kaze" in Japan. Mon. Wea. Rev., 136 (1), 27-40. PDF
|
2007
| 8 |
Fudeyasu, H., S. Iizuka, and T. Hayashi, 2007: Meso-β-scale pressure dips associated with typhoons. Mon. Wea. Rev., 135 (4), 1225-1250. PDF
|
7 |
Wu, P., M. Hara, H. Fudeyasu, M.D. Yamanaka, J. Matsumoto, F. Syamsudin, R. Sulistyowati, and Y. S. Djajadihardja, 2007: The Impact of Trans-equatorial Monsoon Flow on the Formation of Repeated Torrential Rains over Java Island. SOLA, Vol. 3 No. 0, pp. 93-96. PDF
|
2006
| 6 |
Fudeyasu, H., S. Iizuka, and T. Matsuura, 2006: Seasonality of westward-propagating disturbances over Southeast and South Asia originated from typhoons. Geophys. Res. Lett., 33, doi: 10.1029/2005GL025380. PDF
日本語版
|
5 |
Fudeyasu, H., S. Iizuka, and T. Matsuura, 2006: Impact of ENSO on landfall characteristics of tropical cyclones over the western North Pacific during the summer monsoon season. Geophys. Res. Lett., 33, L21815, doi:10.1029/2006GL027449. PDF
|
2002
| 4 |
Kataoka, T., E. Yunoki, N. Shimizu, T. Mori, O. Tsukamoto, S. Takahashi, H. Fudeyasu, Y. Ohashi,K. Sahashi, T. Maitani, K. Miyashita, T. Iwata, T. Sasaki, Y. Fujikawa, A. Kudo, and Roger H. Shaw, 2002
:Concentrations of 222Rn, its short-lived daughters and 212Pb and their rations under complex atmospheric conditions and topography. Boundary-Layer Meteorol., 107, 219-249. PDF
|
3 |
山下隆男、加藤茂、大澤輝夫、筆保弘徳、西口秀人, 2002: MM5 による冬季季節風時の沿岸域海上風場の再現性について. 海岸工学論文集、49巻、土木学会, 186-190. PDF
|
2 |
中村みゆき、上甲実、塚本修、金森恒雄、東克彦、川田一昭、木邨弘、亀井紀男、鎌田忠彦、筆保弘徳, 2002: 那岐山山頂における観測からみたおろし風(広戸風)の発生条件 天気、49巻、日本気象学会, 129-139. PDF
|
2000
| 1 |
筆保弘徳、塚本修, 2000:台風9810号で観測された顕著なプレッシャーディップ . 天気、47巻、日本気象学会, 443-452.PDF
|
論文(査読なし)
2016
| 5 |
乙部直人・筆保弘徳・菅田誠治・伊賀啓太・佐藤正樹・田島俊彦・佐藤元・酒井敏・三村和男・山田朋人・北野慈和,2016:
回転水槽実験のこれまでとこれから,5-25,天気
|
5 |
Fudeyasu,H., S. Iizuka, K. Nakane, and T. Matusura 2003:An integrated modeling of atmosphere, land, and ocean water cycle in the Southeast Asia, The 1st Saudi-Japan Workshop on Improvement of Desert Environment, Mitsubishi Co.,46-49.
|
4 |
筆保弘徳,林 泰一,2003:台風内で発生するメソβスケールPressure dipの発達メカニズム,京都大学防災研究所年報,Vol.46, 651-661.(in Japanese)
|
2002
| 3 |
筆保弘徳,林 泰一,2002:台風通過時に発生するPressure dipの内部構造の研究,京都大学防災研究所年報,Vol.45, 479-487.(in Japanese) |
2001
| 2 |
筆保弘徳,林 泰一,2001:台風内で発生するPressure dipの一般的な性質について,京都大学防災研究所年報,Vol.44, 159-169.(in Japanese)
|
1998
| 1 |
塚本 修,筆保弘徳,高橋聡司,鍋倉 誠,1998:岡山大学構内における地温および河川水温の日変化・季節変化の測定,岡山大学紀要しぶかわ,No.19.(in Japanese)
|
報告書
2022
| 7 |
筆保弘徳・坪木和久・佐藤正樹・森信人・満行泰河: 台風科学技術研究センター設立のお知らせ,
日本気象学会「天気」2022年5月号 (第69巻5号) |
| 7 |
佐藤正樹, 佐藤芳昭, 八代尚, 伊藤耕介, 筆保弘徳, 三好建正, 川畑拓矢, 坪木和久, 堀之内武, 岡本幸三, 山口宗彦, 中野満寿男, 和田章義, 金田幸恵, 辻野智紀: 今後の台風予測研究に関する展望,
日本気象学会「天気」2022年5月号 (第69巻5号) |
2013
2006
| 5 |
松浦知徳,中根和郎,飯塚聡,筆保弘徳,黄文峰,川村隆一,Ying Noh,原田 信,牟田研二,大場良二,2006: 人・自然・地球共生プロジェクト−水循環変動予想ミッション サブテーマ2:東アジア域の大気・陸域・海洋水循環変動に伴う災害予測に関する研究,pp.44-134.
|
2005
| 4 |
松浦知徳,中根和郎,飯塚聡,筆保弘徳,黄文峰、川村隆一,Ying Noh,原田 信,牟田研二,大場良二:人・自然・地球共生プロジェクト−水循環変動予想ミッション サブテーマ2:東アジア域の大気・陸域・海洋水循環変動に伴う災害予測に関する研究 平成16年成果報告書,pp.29-39.
|
2004
| 3 |
松浦知徳,中根和郎,飯塚聡,筆保弘徳,黄文峰、川村隆一,Ying Noh,原田 信,牟田研二,大場良二:人・自然・地球共生プロジェクト−水循環変動予想ミッション サブテーマ2:東アジア域の大気・陸域・海洋水循環変動に伴う災害予測に関する研究 平成15年成果報告書,pp.33-43. |
2003
| 2 |
坪木和久,手柴充博,林泰一,筆保弘徳,北畠尚子、田中恵信,野村光春,余田成男,矢尾拓哉,山下和也,益子渉,中澤哲夫:第23回「メソ気象研究会」の報告-台風とそれに伴うシステム-,天気,Vol.49,No.3,pp.197-202.
|
2002
| 1 |
加藤輝之,清水慎吾,金田幸恵,柳瀬 亘,北畠尚子、筆保弘徳,前坂 剛,吉崎正憲,茂木耕作,永戸久喜,2002:東アジアにおけるメソ気象と台風に関する国際会議参加報告,天気,Vol.49,No.3,pp.227-231.
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