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東北大学 災害科学国際研究所 災害リスク研究部門 IRIDeS 災害リスク研究部門
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研究業績 / Publications

2016

  1. Wind turbulence effects on dune sand transport, Journal of Coastal Research (2016), Sp. Iss. 75, 333-337, Udo, K.
  2. Analysis of coastal erosion due to the 2011 Great East Japan Tsunami and its recovery using ground penetrating radar data, Journal of Coastal Research (2016), Sp. Iss. 75, 477-481, Takamura, M., K. Udo, M. Sato, and K. Takahashi.
  3. Connectivity between sediment storage in dam reservoir and coastal erosion: implication through zonal mapping of monitoring data, Journal of Coastal Research (2016), Sp. Iss. 75, 725-729, Yokoo, Y. and K. Udo.
  4. Prediction of the 2011 Tohoku Tsunami Scouring near Structures, Journal of Coastal Research (2016), Sp. Iss. 75, 872-876, Iida, T., S. Kure, K. Udo, A. Mano, and H. Tanaka.
  5. Overview of Super Typhoon Haiyan and characteristics of human damage due to its storm surge in the coastal region, Philippines, Journal of Coastal Research (2016), Sp. Iss. 75, 1152-1156, Kure, S., Y. Jibiki, K. Iuchi, and K. Udo.
  6. Characteristics of beach erosion due to the 2011 Tohoku Earthquake and Tsunami and its recovery across entire inundated area, Journal of Coastal Research (2016), Sp. Iss. 75, 1252-1256, Tojo, K. and K. Udo.
  7. 2004 年インド洋大津波と2011 年東日本大震災による汀線変化特性の比較,土木学会論文集B3(海洋開発)(2016),72,I_175-I_180,有働恵子・武田百合子.
  8. GPR(地中レーダ)探査データの津波堆積物反射特性の解明,土木学会論文集B2(海岸工学)(2016),72,I_37-I_42,高村まや・高橋一徳・Christian N. Koyama・有働恵子・佐藤源之.
  9. 日本全国の土砂生産量強度と砂浜の現状との関係,土木学会論文集B2(海岸工学)(2016),72,I_799-I_804,有働恵子・武田百合子・横尾善之.
  10. DSMの半自動作成による2011年津波時の沿岸被害把握の試み,土木学会論文集B3(海岸工学)(2016),72,I_1747-I_1752,有働恵子・武田百合子・越村俊一.
  11. Coastal erosion due to 2011 Tohoku Earthquake Tsunami and its reconstruction at Rikuzen-Takata coast, Coastal Engineering Journal (2016), 58, 1640016, Udo, K., Y. Takeda, and H. Tanaka.

2015

  1. Future fluvial flood risks in Central Vietnam assessed using global super-high-resolution climate model output, Journal of Flood Risk Management (2015), 8, 276–288, Nam, D.H., K. Udo, and A. Mano
  2. 津波による地形変化に及ぼす人工リーフの効果に関する研究,土木学会論文集B3(海洋開発)(2015),71,I_653-I_658,有働恵子・武田百合子・田中仁・真野明.
  3. Numerical Simulation of Flooding in Jakarta and Evaluation of a Countermeasure to Mitigate Flood Damage, Journal of Japan Society of Civil Engineers (2015), Ser. G (Environment), 71, pp. I_29-I_36, Moe, I.R., S. Kure, M. Farid, K. Udo, S. Kazama, and S. Koshimura.
  4. Application of a Two Dimensional Food Model for Defining Evacuation Zones for Cattle in the Bolivian Amazonia, Journal of Japan Society of Civil Engineers (2015), Ser. G (Environment), 71, pp. I_23-I_28, Quiroga V. M., S. Kure, K. Udo, and A. Mano.
  5. 液状化を考慮した津波の戻り流れによる構造物周辺の洗掘メカニズム,土木学会論文集B2(海岸工学)(2015),71,I_241-I_246,飯田立樹・呉修一・有働恵子・真野明.
  6. 砂丘周辺の飛砂フラックスと風向風速特性との関係,土木学会論文集B2(海岸工学)(2015),71,I_529-I_534,有働恵子.
  7. 日本全国の海岸における過去の長期汀線変化特性の解析,土木学会論文集B2(海岸工学)(2015),71,I_613-I_618,紀国亮・有働恵子.
  8. 2011年東北地方太平洋沖地震津波による砂浜の広域被害特性の解析,土木学会論文集B2(海岸工学)(2015),71,I_739-I_744,東條薫・有働恵子・真野明.
  9. GPR(地中レーダ)を用いた津波後の堆積構造把握技術の開発,土木学会論文集B2(海岸工学)(2015),71,I_1711-I_1716,高村まや・有働恵子・佐藤源之・高橋一徳・阿部朋也.

2014

  1. Breach process simulation of coastal levees broken by the 2011 Tsunami, Journal of Coastal Research (2014), Sp. Iss. 70, 302-307, Iida, T., S. Kure, K. Udo, A. Mano, and H. Tanaka.
  2. Framework for proper beach nourishment as adaptation to beach erosion due to sea level rise, Journal of Coastal Research (2014), Sp. Iss. 70, 467-472, Yoshida, J., K. Udo, Y. Takeda, and A. Mano.
  3. Effects of mud flows from the LUSI mud volcano on river estuary environment in the Porong River, Indonesia, Journal of Coastal Research (2014), Sp. Iss. 70, 568-573, Kure, S., W. Bambang, Y. Takeda, K. Udo, M. Umeda, A. Mano, and H. Tanaka.
  4. Morphology changes along the Ishinomaki Coast induced by the 2011 Great East Japan Tsunami and the relationship with coastal structures, Coastal Engineering Journal (2014), 56, 145016, Adityawan, M.B., N. X. Dao, H. Tanaka, A. Mano, and K. Udo.
  5. Glacier ablation and water resources in Tropical Andes: the Condoriri glacier, Journal of Japan Society of Civil Engineers, Ser. B1(Hydraulic Engineering) (2014), 70, I_229-I_234, Moya, V., A. Mano, Y. Asaoka, K. Udo, S. Kure, and J. Mendoza
  6. 水収支法を用いたボリビアTuni湖集水域での氷河融解量の推定,土木学会論文集B1(水工学)(2014),70,I_421-I_426,白鳥総一郎・真野明・呉修一・有働恵子.
  7. k-εモデルによる植生のある急勾配流れの乱れ予測, 土木学会論文集B1(水工学)(2014),70,I_859-I_864,平田吉成・真野明・有働恵子・呉修一.
  8. 東北地方太平洋沖地震津波による海岸堤防破堤箇所周辺の侵食要因の考察,土木学会論文集B1(水工学)(2014),70,I_1153-I_1158,飯田立樹・呉修一・有働恵子・真野明・田中仁.
  9. 気候変動下の洪水と高潮の複合災害リスク推定,土木学会論文集G(環境)(2014),70,I_95-I_100,三澤公希・風間聡・鈴木武・有働恵子・手塚翔也.
  10. インドネシア・ジャカルタ洪水を引き起こす様々な社会問題と2013年1月洪水の特徴,土木学会論文集G(環境)(2014),70,I_211-I_217,呉修一・Mohammad Farid・福谷陽・Abdul Muhari・Jeremy D. Bricker・有働恵子・真野明.
  11. 海面上昇による全国の砂浜消失将来予測における不確実性評価,土木学会論文集G(環境)(2014),70,I_101-I_110,有働恵子・武田百合子.
  12. 海面上昇に伴う砂浜侵食に対する適応策としての最適養浜量の推定手法の構築,土木学会論文集B2(海岸工学)(2014),70,I_1386-I_1390,吉田惇・有働恵子・河野達仁・真野明.

2013

  1. Quasi-2D sediment transport model combined with Bagnold-type bed load transport, Journal of Coastal Research (2013), Sp. Iss. 65, 368-373, Rahman, S.R., A. Mano, and K. Udo.
  2. Breaking process and mechanism of coastal levees on Sendai Bay Coast hit by 2011 mega tsunamis, Journal of Coastal Research (2013), Sp. Iss. 65, 772-777, Mano, A., T. Iida, K. Udo, and H. Tanaka.
  3. Long-term area change of two tidal flats in Japan and its future projection due to sea level rise, Journal of Coastal Research (2013), Sp. Iss. 65, 1975-1980, Udo, K., Y. Takeda, J. Yoshida, and A. Mano.
  4. Potential impact of climate change at five Japanese beaches, Journal of Coastal Research (2013), Sp. Iss. 65, 2185-2190, Yoshida, J., K. Udo, Y. Takeda, and A. Mano.
  5. Assessment of future flood intensification in Central Vietnam using a super-high-resolution climate model output, Journal of Water and Climate Change (2013), 4, 373-389, Nam, D. H., K. Udo, and A. Mano.
  6. Snow glacier melt estimation in tropical Andean glaciers using Artificial Neural Networks, Hydrology and Earth System Sciences (2013), 17, 1265–1280, Moya Quiroga, V., A. Mano, Y. Asaoka, S. Kure, K. Udo, and J. Mendoza.
  7. Downscaling super-high-resolution climate model output for extreme rainfall projection, Journal of Japan Society of Civil Engineers, JSCE (2013), 69, I_121-I_126, Nam, D.H., K. Udo, and A. Mano.
  8. 最新の海面水位予測データを用いた海面上昇による全国砂浜侵食量の将来予測,土木学会論文集G(環境)(2013),69,I_239-I_247,有働恵子・武田百合子・吉田惇・真野明.
  9. インドネシア・ポロン川河口の地形変化解析,土木学会論文集G(環境)(2013),69,I_183-I_190,呉修一・武田百合子・有働恵子・田中仁・真野明.
  10. 東北地方太平洋沖地震津波による宮城県仙台湾南部海岸の海浜変形特性,土木学会論文集B2(海岸工学)(2013),69,I_1391-I_1395,有働恵子・武田百合子・田中仁・真野明.
  11. 津波による旧川位置での河道形成と戻り流れの排水機能,土木学会論文集B2(海岸工学)(2013),69,I_411-I_415,田中仁・Mohammad Bagus Adityawan・有働恵子・真野明.
  12. 東日本大震災津波による石巻海岸での海浜地形変化,土木学会論文集B2(海岸工学)(2013),69,I_281-I_285,Nguyen Xuan Dao・田中仁・Mohammad Bagus Adityawan・有働恵子・真野明.

書籍 Books

  1. Characteristics of shoreline retreat due to the 2011 Tohoku Earthquake Tsunami and its recovery after three years, in: Santiago-Fandino, V. and H. Tanaka (eds.) Tsunami and Earthquakes in Coastal Systems, Advances in Natural and Technological Hazards Research (2016), pp ***-***, Udo, K., K. Tojo, Y. Takeda, H. Tanaka, and A. Mano.
  2. Serious erosion of the southern Sendai Coast due to the 2011 Tohoku Earthquake Tsunami and its recovery process, in: Kontar Y, Y. Kaneda, and V. Santiago-Fandino (eds.) Post-Tsunami Hazard, Advances in Natural and Technological Hazards Research (2015), pp 225-236, Udo, K., M. Takamura, Y. Takeda, and A. Mano.
  3. Destruction Patterns and Mechanisms of Coastal Levees on the Sendai Bay Coast Hit by the 2011 Tsunami, in Kontar, Y., V. Santiago-Fandino, and T. Takahashi (eds.) Tsunami Events and Lessons Learned; Environmental and Societal Significance (2014), pp. 309-320, Iida, T., A. Mano, K. Udo, and H. Tanaka.
  4. 東日本大震災-被害の実態と要因,「東日本大震災を分析する」平川新・今村文彦編(2013),真野明・有働恵子・田中仁.

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