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Multidisciplinary approach for disaster resilience and sustainable technologies

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Multidisciplinary approach for disaster resilience and sustainable technologies/ edited by Hemanta Hazarika ... [et al.].
其他作者:	Hazarika, Hemanta.
出版者:	Singapore :Springer Nature Singapore : : 2025.,
面頁冊數:	viii, 234 p. :ill. (chiefly col.), digital ;24 cm.
內容註:	The Requirements for Disaster Mitigation to Be Sustainable -- Simple Prediction for Rainfall-induced Slope Failures Based on Digital Elevation Model and Geological Information -- Sustainable Ground Improvement Practices and Comprehensive Assessments for Problematic Expansive Soils -- Impact of Climate Change on Landslide Susceptibility and Landslide Hazard Resilience in Central Taiwan -- Study on Climate Change Related Seismic Landslides of Loess Deposit -- Extreme Rainfall Caused by Climate Change and its Effects of on Debris Flow Hazard in Taiwan -- Chain Disasters in Geotechnical Engineering Seen in the 2011 Great East Japan Disaster and Strategic Response -- A methodology for Debris Flow Risk Analysis -- Community Outreach through Soft-type Measures in the Wake of an Initial Disaster -- Gravel-Rubber Mixtures: Macro- and Micro-Scale En-gineering Properties -- Construction of Reinforced Soil Structure in a Lateritic Soil - A Case study of the expansion of the Runway at Mangalore Internation Airport -- Sheet pile with drainage ability to reduce liquefaction-induced embankment settlement -- Evaluation of Wide Ground Deformation by InSAR Time Series Analysis -- Assessing The Hydro-Chemo-Mechanical Behaviour of Marble Dust-Bentonite Mixes to Be Used as A Geomaterial -- Finite element analysis of slope stability considering soil strength anisotropy.
Contained By:	Springer Nature eBook
標題:	Hazard mitigation. -
電子資源:	https://doi.org/10.1007/978-981-96-8618-6
ISBN:	9789819686186

Multidisciplinary approach for disaster resilience and sustainable technologies
Multidisciplinary approach for disaster resilience and sustainable technologies[electronic resource] /edited by Hemanta Hazarika ... [et al.]. - Singapore :Springer Nature Singapore :2025. - viii, 234 p. :ill. (chiefly col.), digital ;24 cm. - Lecture notes in civil engineering,v. 6422366-2565 ;. - Lecture notes in civil engineering ;v. 642..

The Requirements for Disaster Mitigation to Be Sustainable -- Simple Prediction for Rainfall-induced Slope Failures Based on Digital Elevation Model and Geological Information -- Sustainable Ground Improvement Practices and Comprehensive Assessments for Problematic Expansive Soils -- Impact of Climate Change on Landslide Susceptibility and Landslide Hazard Resilience in Central Taiwan -- Study on Climate Change Related Seismic Landslides of Loess Deposit -- Extreme Rainfall Caused by Climate Change and its Effects of on Debris Flow Hazard in Taiwan -- Chain Disasters in Geotechnical Engineering Seen in the 2011 Great East Japan Disaster and Strategic Response -- A methodology for Debris Flow Risk Analysis -- Community Outreach through Soft-type Measures in the Wake of an Initial Disaster -- Gravel-Rubber Mixtures: Macro- and Micro-Scale En-gineering Properties -- Construction of Reinforced Soil Structure in a Lateritic Soil - A Case study of the expansion of the Runway at Mangalore Internation Airport -- Sheet pile with drainage ability to reduce liquefaction-induced embankment settlement -- Evaluation of Wide Ground Deformation by InSAR Time Series Analysis -- Assessing The Hydro-Chemo-Mechanical Behaviour of Marble Dust-Bentonite Mixes to Be Used as A Geomaterial -- Finite element analysis of slope stability considering soil strength anisotropy.

In the face of intensifying natural hazards and climate change impacts, this timely book brings together cutting-edge research and practical innovations in disaster mitigation, geotechnical engineering, and resilience planning. Spanning fifteen comprehensive chapters authored by global experts, this book addresses the urgent need for sustainable strategies to manage geotechnical risks in diverse contexts. It covers a broad spectrum of research and practices, including the requirements for sustainable disaster mitigation, simple prediction methods for rainfall-induced slope failures using digital elevation models and geological data, and sustainable ground improvement techniques for problematic expansive soils. The impact of climate change on landslide susceptibility, seismic landslides in loess deposits, and extreme rainfall-induced debris flow hazards are also addressed in detail. The book further discusses methodologies for debris flow risk analysis, chain disasters observed in geotechnical engineering during the 2011 Great East Japan Earthquake, and community outreach through soft-type measures in disaster recovery. Additional chapters explore the engineering behavior of innovative materials for ground improvement, ground reinforcement including methods for earthquake-induced liquefaction mitigation of soils. Furthermore, modern analytical tools and techniques, including InSAR time series analysis for ground deformation, finite element analysis of slope stability considering soil anisotropy, and hydro-chemo-mechanical behavior assessment of geomaterials, are explained with practical relevance. Case studies and field applications offer insights into infrastructure resilience and the challenges of hazard-prone environments. This book provides essential knowledge for practicing geotechnical and civil engineers, disaster risk management professionals, postgraduate students, and early-career researchers engaged in climate adaptation, infrastructure development, and sustainable geotechnical practices. It also serves as a textbook for graduate-level courses on disaster mitigation and geotechnical risk assessment.

ISBN: 9789819686186

Standard No.: 10.1007/978-981-96-8618-6doiSubjects--Topical Terms:

604958
Hazard mitigation.

LC Class. No.: GB5014

Dewey Class. No.: 363.346

Multidisciplinary approach for disaster resilience and sustainable technologies
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505 0 $a The Requirements for Disaster Mitigation to Be Sustainable -- Simple Prediction for Rainfall-induced Slope Failures Based on Digital Elevation Model and Geological Information -- Sustainable Ground Improvement Practices and Comprehensive Assessments for Problematic Expansive Soils -- Impact of Climate Change on Landslide Susceptibility and Landslide Hazard Resilience in Central Taiwan -- Study on Climate Change Related Seismic Landslides of Loess Deposit -- Extreme Rainfall Caused by Climate Change and its Effects of on Debris Flow Hazard in Taiwan -- Chain Disasters in Geotechnical Engineering Seen in the 2011 Great East Japan Disaster and Strategic Response -- A methodology for Debris Flow Risk Analysis -- Community Outreach through Soft-type Measures in the Wake of an Initial Disaster -- Gravel-Rubber Mixtures: Macro- and Micro-Scale En-gineering Properties -- Construction of Reinforced Soil Structure in a Lateritic Soil - A Case study of the expansion of the Runway at Mangalore Internation Airport -- Sheet pile with drainage ability to reduce liquefaction-induced embankment settlement -- Evaluation of Wide Ground Deformation by InSAR Time Series Analysis -- Assessing The Hydro-Chemo-Mechanical Behaviour of Marble Dust-Bentonite Mixes to Be Used as A Geomaterial -- Finite element analysis of slope stability considering soil strength anisotropy.
520 $a In the face of intensifying natural hazards and climate change impacts, this timely book brings together cutting-edge research and practical innovations in disaster mitigation, geotechnical engineering, and resilience planning. Spanning fifteen comprehensive chapters authored by global experts, this book addresses the urgent need for sustainable strategies to manage geotechnical risks in diverse contexts. It covers a broad spectrum of research and practices, including the requirements for sustainable disaster mitigation, simple prediction methods for rainfall-induced slope failures using digital elevation models and geological data, and sustainable ground improvement techniques for problematic expansive soils. The impact of climate change on landslide susceptibility, seismic landslides in loess deposits, and extreme rainfall-induced debris flow hazards are also addressed in detail. The book further discusses methodologies for debris flow risk analysis, chain disasters observed in geotechnical engineering during the 2011 Great East Japan Earthquake, and community outreach through soft-type measures in disaster recovery. Additional chapters explore the engineering behavior of innovative materials for ground improvement, ground reinforcement including methods for earthquake-induced liquefaction mitigation of soils. Furthermore, modern analytical tools and techniques, including InSAR time series analysis for ground deformation, finite element analysis of slope stability considering soil anisotropy, and hydro-chemo-mechanical behavior assessment of geomaterials, are explained with practical relevance. Case studies and field applications offer insights into infrastructure resilience and the challenges of hazard-prone environments. This book provides essential knowledge for practicing geotechnical and civil engineers, disaster risk management professionals, postgraduate students, and early-career researchers engaged in climate adaptation, infrastructure development, and sustainable geotechnical practices. It also serves as a textbook for graduate-level courses on disaster mitigation and geotechnical risk assessment.
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