Rchr
J-GLOBAL ID:202201006962332098
Update date: Feb. 14, 2025 OGINO Toshihiro
オギノ トシヒロ | OGINO Toshihiro
Affiliation and department: Job title:
Associate Professor
Research field (1):
Geotechnical engineering
Research keywords (3):
ベンダーエレメント
, 泥炭
, 室内試験
Research theme for competitive and other funds (10): - 2023 - 2026 Development of an extremely high speed unconfined compression apparatus and its application to peat
- 2022 - 2025 ベンダーエレメント法の適用限界拡張のための補正法の確立と一般利用に向けた実装
- 2021 - 2024 Study to verify the applicability of in-situ vender element method intended for the embankment
- 2019 - 2023 Settlement prediction and design optimization of peat ground improved by integrated pre-loading method
- 2018 - 2022 Expansion of application limitation of bender element test using a correction method based on linear system
- 2015 - 2018 A Study on Process of Strength and Stiffness development of Peat under Vacuum Consolidation with Fill Loading
- 2014 - 2017 Development of canal walls using timber pile foundations and fieldstones
- 2012 - 2015 Development of soil mechanics investigation system for lunar surface explorations
- 2011 - 2013 Study of Optimizing Control of Embankment Construction on Peaty Ground Combinedly using Vacuum Consolidation Method
- 2007 - 2008 Impulse response identification and received waveform simulation on laboratory elastic wave tests
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Papers (39): -
Nobutaka Yamazoe, Satoshi Nishimura, Hiroyuki Tanaka, Toshihiro Ogino, Taishi Kochi. Long-term settlement behavior of peat after unloading and applicability of isotach law. Soils and Foundations. 2025. 65. 1. 101560-101560
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Nobutaka Yamazoe, Hiroyuki Tanaka, Toshihiro Ogino, Satoshi Nishimura. Mechanism of sampling disturbance for peat ground and its influence on mechanical properties. Soils and Foundations. 2023. 63. 5. 101361-101361
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AIHARA Wataru, OGINO Toshihiro, FUJII Noboru, KURIYAMA Daisuke, OGITA Shigeru. Estimation of pore water pressure in aquifers using a time series model based on field observation in landslide site. Artificial Intelligence and Data Science. 2023. 4. 3. 328-336
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MARUYAMA Kouki, OGINO Toshihiro, HOSHINO Katsuyuki, MIYAKOSHI Makoto. Evaluation of slope soundness using state space models based on expressway inspection data. Artificial Intelligence and Data Science. 2023. 4. 3. 320-327
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MOMIYAMA Shoya, OGINO Toshihiro. Comparison of prediction performance for S-wave arrival point in bender element test using various machine learning models. Artificial Intelligence and Data Science. 2023. 4. 3. 60-69
more... MISC (48): -
KUWAKI Yuto, OGINO Toshihiro. Prediction of S-wave arrival point for bender element tests using deep learning techniques with high-dimensional features in frequency domain. Artificial Intelligence and Data Science. 2024. 5. 3. 132-141
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山添誠隆, 西村聡, 田中洋行, 荻野俊寛, 林宏親. A model for long-term settlement of peat after preloading and its application to the field. 地盤工学会北海道支部技術報告集(CD-ROM). 2022. 62
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荻野俊寛, 山添誠隆, 西村聡, 林宏親. Engineering properties of organic soils and key issues in design and construction. 地盤工学会誌(Web). 2022. 70. 10
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荻野俊寛. 機械学習によるベンダーエレメント試験のせん断波到達時間の推定. 地盤工学研究発表会発表講演集(Web). 2021. 56th
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山添誠隆, 西村聡, 田中洋行, 荻野俊寛. Long-term settlement behavior and analysis of peat after unloading. 地盤工学研究発表会発表講演集(Web). 2021. 56th
more... Awards (1): - 2023/06 - Japanese Geotechnical Society なし Engineering properties of organic soils and key issues in design and construction
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