nkysdb: なかよし論文データベース

石須 慶一 様の 共著関連データベース

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+(A list of literatures under single or joint authorship with "石須 慶一")

共著回数と共著者名 (a list of the joint author(s))

40: 石須 慶一

19: 後藤 忠徳

17: 小川 康雄

10: 笠谷 貴史

8: 南 拓人, 山谷 祐介, 岩本 久則, 茂木 透

7: SIRIPUNVARAPORN Weerachai

5: Caldwell Grant, VACHIRATIENCHAI Chatchai, 大田 優介

4: 北岡 紀広, 國友 孝洋, 土屋 範芳, 小池 克明, 市來 雅啓, 市原 寛, 布原 啓史, 芹田 創平

3: Kirkby Alison, 坂中 伸也, 日野 裕太, 曾 國軒, 杉本 健, 梶原 竜哉, 浅沼 宏, 渡邉 教弘, 石塚 師也, 神田 径, 鈴木 杏奈, 長谷 英彰, 関 香織

2: Kuo Hsuan Tseng, Weerachai Siripunvaraporn, 内田 利弘, 宇津木 充, 小林 洋介, 山下 凪, 山本 壮馬, 本蔵 義守

1: Alison Kirkby, Bertrand Ted, Caldwell T.G., Heise Wiebke, T. Grant Caldwell, T.G. Caldwell, Tseng Kuo, Tseng Kuo Hsuan, シリポンバラポンウィラシャイ, 三ケ田 均, 佐々木 裕, 北村 圭吾, 北谷 凌一, 吹野 浩美, 天野 玲, 寺嶋 智巳, 小田 彩湖, 山口 覚, 斎藤 遼一, 本藏 義守, 杉谷 安優, 櫻井 未久, 武川 順一, 深畑 幸俊, 藤原 奈々, 藤本 静菜, 門田 真桜, 馬越 孝道, 髙橋 直暉

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発行年とタイトル (Title and year of the issue(s))

2015: MT法における粒子法の計算精度評価の研究 [Net] [Bib]
Accuracy evaluation of MT response calculated with Particle Method [Net] [Bib]

2015: MT法における粒子法の計算精度評価の研究(SEM33 03) [Net] [Bib]
Accuracy evaluation of MT response calculated with Particle Method (SEM33 03) [Net] [Bib]

2016: Development of Two Dimensional Inversion of Marine DC resistivity survey (SEM35 04) [Net] [Bib]

2016: 海底電気探査を用いた海底熱水鉱床探査の試み [Net] [Bib]
Exploration test of marine DC resistivity method around seafloor massive sulfide [Net] [Bib]

2017: FCMクラスタリング制約項を用いた2次元曳航式海底電気探査法逆解析 [Net] [Bib]
Two Dimensional Inversion of Marine DC Resistivity Survey using FCM Clustering Constraint [Net] [Bib]

2017: Resistivity Structure around Off Okinawa Hydrothermal Area Using Two Dimensional Inversion of Marine DC Resistivity Survey (SRD39 09) [Net] [Bib]

2017: 直接的先験拘束条件を使用する場合の便法について(S01 03) [Net] [Bib]
A convenient method to use direct prior information in inversion analyses using ABIC (S01 03) [Net] [Bib]

2019: 3次元CSEM法逆解析法を用いた海底熱水鉱床探査 [Net] [Bib]
Exploration of seafloor massive sulfides deposits using 3D inversion of CSEM survey [Net] [Bib]

2019: 3次元CSEM逆解析法による海底熱水鉱床イメージング(R003 P08) [Net] [Bib]
Imaging of SMS deposits using an inversion algorithm for 3 D marine CSEM survey data (R003 P08) [Net] [Bib]

2019: 海底熱水鉱床調査における深海曳航式電気探査の有効性評価 [Net] [Bib]
Evaluations of effectiveness of marine deep towed DC resistivity survey in investigation of seafloor massive sulfide deposits [Net] [Bib]

2020: CSEM法を用いた海陸シームレス地質構造の解明に向けてのフィジビリティスタディ [Net] [Bib]
Feasibility study towards elucidation of sea land seamless geological structure using CSEM method [Net] [Bib]

2020: MT 法による秋田県三途川カルデラ南部域の地熱資源探査（序報）(92) [Net] [Bib]
Exploration of geothermal resources in the southern part of the Sanzugawa Caldera, Akita by MT survey (Preliminary result) (92) [Net] [Bib]

2020: 曳航・海底受信機で測定されたCSEMデータの三次元逆解析 [Net] [Bib]
3D inversion of combined CSEM data of towed and ocean bottom receivers [Net] [Bib]

2020: 海底熱水域の低比抵抗異常の原因を岩石物理モデルから探る [Net] [Bib]

2021: MTデータによる超臨界地熱貯留層の空間分布と流体割合の推定：東北湯沢地熱域での例 [Net] [Bib]
Estimation of spatial distribution and fluid fraction of a potential supercritical geothermal reservoir by magnetotelluric data: a case study from Yuzawa geothermal field, NE Japan [Net] [Bib]

2021: MTデータを用いた超臨界地熱貯留層の空間分布と流体割合の推定：湯沢地熱域のおけるケーススタディ(A38) [Net] [Bib]
Estimation of spatial distribution and fluid fraction of a potential supercritical geothermal reservoir by magnetotelluric data: a case study from Yuzawa geothermal field, NE Japan (A38) [Net] [Bib]

2021: MT法を用いた深部低比抵抗体のイメージング能力について：超臨界地熱資源探査の例 [Net] [Bib]
Ability of the magnetotelluric method to image a deep conductor: Exploration of a supercritical geothermal system [Net] [Bib]

2021: MT法を用いた深部低比抵抗体のイメージング能力について：超臨界地熱資源探査の例(SVC29 08) [Net] [Bib]
Ability of the magnetotelluric method to image a deep conductor: Exploration of a supercritical geothermal system (SVC29 08) [Net] [Bib]

2021: Offshore–onshore seamless resistivity imaging of freshwater using a controlled source electromagnetic method (SEM12 04) [Net] [Bib]

2021: 効率的な3次元海洋電磁探査法 [Net] [Bib]
Efficient three dimensional marine controlled source electromagnetic survey [Net] [Bib]

2021: 電磁アクロスデータの時系列解析 [Net] [Bib]
Time Series Analyses of EM ACROSS Data [Net] [Bib]

2021: 電磁アクロスデータの時系列解析(SEM14 06) [Net] [Bib]
Time Series Analyses of EM ACROSS Data (SEM14 06) [Net] [Bib]

2022: AIを利用した在来型地熱貯留層の構造・状態推定技術の開発 [Net] [Bib]
Development of the AI based estimation technology for the structure and status of conventional geothermal reservoirs [Net] [Bib]

2022: MT法による超臨界地熱貯留層の調査(SVC33 01) [Net] [Bib]
Investigation of supercritical geothermal reservoir by magnetotelluric method (SVC33 01) [Net] [Bib]

2022: MT法による鬼首地域の超臨界地熱貯留層の調査 [Net] [Bib]
Investigation of supercritical geothermal reservoir in Onikobe area by MT method [Net] [Bib]

2022: 曳航・海底受信機で測定されたCSEMデータの統合逆解析による海底熱水鉱床の比抵抗イメージング向上 [Net] [Bib]
Improvement of resistivity imaging of seafloor massive sulfides by inversion of combined CSEM data of towed and ocean bottom receivers [Net] [Bib]

2022: 電磁アクロスデータの時系列解析（2）(SEM16 10) [Net] [Bib]
Time Series Analyses of EM ACROSS Data (2) (SEM16 10) [Net] [Bib]

2023: Application of EM ACROSS to investigate underground structures of the Kusatsu Shirane Volcano, Japan (SEM14 10) [Net] [Bib]

2023: Forward modeling of the EM ACROSS at Inferno Crater Lake, New Zealand (SEM14 P14) [Net] [Bib]

2023: ニュージーランドInferno Crater LakeにおけるEM ACROSS連続観測 [Net] [Bib]
Continuous EM ACROSS Observation at Inferno Crater Lake, New Zealand [Net] [Bib]

2023: 海底電気探査による日本海東縁部の表層型ガスハイドレート分布の可視化 [Net] [Bib]
Imaging of shallow gas hydrate in the eastern margin of Japan Sea by marine direct current resistivity survey [Net] [Bib]

2023: 繰り返し比抵抗トモグラフィに基づく地すべり地の比抵抗構造の時間変化 [Net] [Bib]
Temporal change of subsurface resistivity distribution in a landslide area based on time lapse electrical resistivity tomography [Net] [Bib]

2024: Evaluation of the effect of lake level and temperature on CSEM transfer functions at Inferno Crater Lake, New Zealand (SEM12 P11) [Net] [Bib]

2024: インフェルノ火口湖におけるEM ACROSS法時系列解析 [Net] [Bib]
Time series analysis of EM ACROSS observations at Inferno Crater Lake, New Zealand [Net] [Bib]

2024: 地熱系の保存則を考慮した深層学習による温度・透水構造の推定 [Net] [Bib]
Estimation of temperature and permeability structure by deep learning considering conservation laws in geothermal systems [Net] [Bib]

2024: 布田川断層周辺の地表地震断層の分布と地下浅部比抵抗構造との関係 [Net] [Bib]
Relationship between the near surface resistivity structure and distribution of surface rupture around the Futagawa fault, Japan [Net] [Bib]

2024: 海底物理探査の統合解釈：岩石物理モデルによる資源量推定の試み [Net] [Bib]
Integrated Interpretation of Subseafloor Geophysical Exploration: Resource Quantification through Rock Physics Models [Net] [Bib]

2024: 物理法則を考慮した機械学習による地熱構造の推定手法の開発と熱水系モデルを用いた検証 [Net] [Bib]
Development of a method for estimating geothermal structures using physics informed machine learning and evaluation with numerical models for hydrothermal systems [Net] [Bib]

2024: 鉛直電極アレイを用いた海底電気探査による青ヶ島海底熱水域の海底下比抵抗構造 [Net] [Bib]
Resistivity structure inferred from a marine vertical direct current resistivity survey system in the Aogashima hydrothermal region [Net] [Bib]

2024: 雲仙地熱地域での高密度AMT探査(SEM12 P13) [Net] [Bib]
High density AMT survey in Unzen geothermal area, Japan (SEM12 P13) [Net] [Bib]