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Progress in Landslide Research and Technology, Volume 1 Issue 1 2022.

Bibliographic Details
Main Author: Sassa, Kyoji.
Other Authors: Konagai, Kazuo., Tiwari, Binod., Arbanas, Željko., Sassa, Shinji.
Format: eBook
Language:English
Published: Cham : Springer International Publishing AG, 2023.
Edition:1st ed.
Series:Progress in Landslide Research and Technology Series
Subjects:
Electronic books.
Online Access:Click to View
Table of Contents:
  • Intro
  • Progress in Landslide Research and Technology-Book Series of the International Consortium on Landslides
  • Editorial Board of the Book Series
  • Global Promotion Committee of the International Programme on Landslides and Kyoto Landslide Commitment 2020
  • A Commitment to the Sendai Framework and the Sustainable Development Goals
  • Members of the IPL-KLC Global Promotion Committee
  • Foreword by Nicola Casagli
  • Foreword by John Ludden
  • Foreword by Kathy Whaler
  • Greetings by Mami Mizutori for Opening Session of the 5th World Landslide Forum
  • Greetings by David Malone for Opening Session of the 5th World Landslide Forum
  • Greetings by Shamila Nair-Bedouelle for Opening Session of the 5th World Landslide Forum
  • Contents
  • 1 Introduction: Aim and Outline of the Book Series "Progress in Landslide Research and Technology"
  • Abstract
  • 1 Aim
  • 2 Outline
  • 3 Call for KLC2020 Official Promoters
  • 4 Call for Articles
  • International Consortium on Landslides and International Programme on Landslides
  • 2 International Consortium on Landslides: From IDNDR, IGCP, UNITWIN, WCDRR 2 &amp
  • 3 to Kyoto Landslide Commitment 2020
  • Abstract
  • 1 IDNDR (1991-1999)
  • 2 IGCP 425 (1998-2003)
  • 3 International Consortium on Landslides: Founded in 2002, Kyoto, Japan
  • 4 UNESCO-KU-ICL UNITWIN Programme Founded in 2003
  • 5 2nd WCDR in 2005, Kobe, Japan
  • 6 Round Table Discussion at UNU, Tokyo, Japan and the Tokyo Action Plan in 2006
  • 7 The First World Landslide Forum in 2008 in Tokyo, Japan
  • 8 3rd WCDRR in 2015, Sendai, Japan
  • 9 KLC2020: Launched in Kyoto, Japan
  • 10 Ninety Signatories of Kyoto Landslide Commitment 2020
  • 11 Signed Version of the Kyoto Landslide Commitment 2020
  • 12 The Fifth World Landslide Forum and the Open Access Book Series "Progress in Landslide Research and Technology"
  • Acknowledgements
  • References.
  • 3 International Programme on Landslides-A Short Overview of Its Historical Development
  • Abstract
  • 1 International Programme on Landslides-IPL
  • 2 Global Promotion Committee (GPC)
  • 2.1 Global Promotion Committee of the International Programme on Landslides (GPC/IPL)
  • 2.2 Global Promotion Committee of the International Programme on Landslides and Kyoto Landslide Commitment 2020 (GPC/IPL-KLC)
  • 3 IPL Projects
  • 3.1 The Initial Stage of IPL Projects (2002-2008)
  • 3.2 The IPL Projects (Since 2008)
  • 3.3 The IPL Award for Success
  • 4 World Landslide Forum (WLF)
  • 5 World Centre of Excellence (WCoE) in Landslide Risk Reduction
  • 5.1 WCoE Guidelines and Evaluation Procedure
  • 5.2 WCoEs From 2008 till 2023
  • 6 ICL-IPL Conference
  • Acknowledgements
  • Appendices
  • References
  • Original Articles
  • 4 Understanding and Reducing the Disaster Risk of Landslide-Induced Tsunamis: Outcome of the Panel Discussion and the World Tsunami Awareness Day Special Event of the Fifth World Landslide Forum
  • Abstract
  • 1 Introduction
  • 2 Review of the World Tsunami Awareness Day Special Event
  • 3 Outcome of the Panel Discussion
  • 3.1 Essential Content from each Panelist
  • 3.2 Summary of the Panel Discussion
  • 4 Conclusion
  • References
  • 5 Natural-Hazard-Related Web Observatory as a Sustainable Development Tool
  • Abstract
  • 1 Introduction
  • 2 A Data-Driven Global Observatory
  • 2.1 Methodology
  • 2.2 An Observatory for Water Events
  • 2.3 Addressing Other Landslides Problems
  • 3 Conclusions and Further Work
  • Acknowledgements
  • References
  • 6 Mapping Post-fire Monthly Erosion Rates at the Catchment Scale Using Empirical Models Implemented in GIS. A Case Study in Northern Italy
  • Abstract
  • 1 Introduction
  • 2 Study Area
  • 3 Materials and Methods
  • 3.1 Burn Severity
  • 4 Results
  • 5 Discussion
  • 6 Conclusions
  • Acknowledgements.
  • References
  • 7 Mechanisms of Shallow Rainfall-Induced Landslides from Australia: Insights into Field and Laboratory Investigations
  • Abstract
  • 1 Rainfall-Induced Landslides in Australia
  • 2 Factors Causing Landslides
  • 2.1 General Characteristics of Landslides
  • 2.2 Geology and Rock Weathering
  • 2.3 Rock Mass Discontinuities and Strength of Jointed Rock
  • 2.4 Rainfall Patterns Prior to Landslides
  • 2.5 Characteristics of Soils from Landslide Sites
  • 3 Mechanisms of Shallow Rainfall-Induced Landslides
  • 3.1 Discussion
  • 4 Concluding Remarks
  • References
  • 8 Design Protection Barriers Against Flow-Like Landslides
  • Abstract
  • 1 Introduction
  • 2 Methodological Approach
  • 3 Alternatives for Design
  • 3.1 Design Approach No. 1: Empirical
  • 3.2 Design Approach No. 2: Analytical
  • 3.3 Design Approach No. 3: Numerical
  • 4 Design Examples
  • 4.1 Landslide and Barrier Schemes
  • 4.2 The (Empirical) Method No. 1: Results
  • 4.3 The (Analytical) Method No. 2: Results
  • 4.4 The (Numerical) Method No. 3: Results
  • 5 Comparison and Discussion
  • 6 Conclusions
  • Acknowledgements
  • References
  • 9 Landslide Warning Systems in Low-And Lower-Middle-Income Countries: Future Challenges and Societal Impact
  • Abstract
  • 1 Introduction
  • 2 Early Warning Systems (EWSs)
  • 3 Methodology
  • 4 Results
  • 4.1 Description of Operational LEWSs from Publications
  • 4.2 Hazard Analysis for LEWSs
  • 4.3 Technical Developments for Potential LEWSs
  • 4.4 Models and Prototypes for LEWSs
  • 4.5 Implementation of LEWSs: An Urgent Task
  • 4.6 Scientific Collaborations
  • 5 Discussion
  • 6 Concluding Remarks
  • Acknowledgements
  • References
  • 10 The Role of Translational Landslides in the Evolution of Cuesta Topography
  • Abstract
  • 1 Introduction
  • 2 Methodology
  • 3 Results
  • 3.1 Descriptions of Featured Landslides.
  • 3.1.1 Cuesta Landslides Triggered by Rainfalls and Snowmelt Landslides in the Hijiori Region, Japan
  • 3.1.2 Landslides in the Higashi-Naruse Region, Japan
  • 3.1.3 The Goldau Landslide, Swiss Alps
  • 3.1.4 Landslides along the Tamakoshi River, Nepal
  • 3.2 Earthquake-Induced Landslides
  • 3.2.1 The Yokowatashi Landslide, Japan
  • 3.2.2 The Hijirigahana Landslide, Japan
  • 3.2.3 The Nunomata Landslide, Japan
  • 3.2.4 The Chiu-Fen-Erh-Shan Landslide and the Tsaoling Landslide, Taiwan
  • 4 Discussion
  • 4.1 Geological Properties and Geomorphic Features of Cuesta Landslides
  • 4.2 Behaviors of Landslides, Dips of Strata, and Orientations of Rock Cracks
  • 4.3 The Behavior of Pore Water Pressure in a Landslide with a Laterally Asymmetrical Slide Surface
  • 4.4 Mechanical Behavior of a Landslide on the Cuesta's Back Slope at the Time of an Earthquake
  • 4.5 Movement of Landslides and the Cuesta Landscape
  • 5 Conclusions
  • Acknowledgements
  • References
  • 11 Application of Spectral Element Method (SEM) in Slope Instability Analysis
  • Abstract
  • 1 Introduction
  • 2 SEM Approach
  • 3 Model Tests
  • 3.1 H-Refinement
  • 3.2 P-Refinement
  • 3.3 Partitioning
  • 4 Modeling with Specfem3D_Geotech
  • 4.1 System Requirement
  • 4.2 Model Preparation
  • 4.3 2D Models
  • 4.4 3D Models
  • 4.5 Models in Cubit/Trelis
  • 5 Inputs for Specfem3D_Geotech
  • 5.1 Material Properties
  • 5.2 Ground Water Table (GWT)
  • 5.3 Seismic Input
  • 5.4 Output Visualization
  • 6 Conclusions
  • Acknowledgements
  • References
  • 12 Climate Change-Induced Regional Landslide Hazard and Exposure Assessment for Aiding Climate Resilient Road Infrastructure Planning: A Case Study in Bagmati and Madhesh Provinces, Nepal
  • Abstract
  • 1 Introduction
  • 2 Description of the Study Area
  • 3 Analysis Input Data
  • 3.1 Landslide Inventory Map
  • 3.2 Landslide Controlling Factors Map.
  • 3.3 Rainfall Datasets and Projected Scenarios
  • 4 Analysis Methods
  • 4.1 Frequency Ratio Method
  • 4.2 Analytical Hierarchy Process (AHP) Method
  • 4.3 Integrated Weighted Index Method
  • 4.4 Validation Method
  • 4.5 Exposure Assessment Method
  • 5 Results
  • 5.1 Regional Landslide Hazard Maps
  • 5.2 Validation of Landslide Hazard Maps
  • 5.3 Exposure Assessment Results
  • 6 Discussion
  • 7 Conclusions
  • Acknowledgements
  • References
  • 13 Using Experimental Models to Calibrate Numerical Models for Slope Stability and Deformation Analysis
  • Abstract
  • 1 Background
  • 2 Methodology
  • 2.1 Experimental Modeling
  • 2.2 Numerical Modeling
  • 3 Results and Discussion
  • 3.1 Laboratory Experiments
  • 4 Summary and Conclusion
  • Acknowledgements
  • References
  • 14 Sustainability of Geosynthetics-Based Landslide Stabilization Solutions
  • Abstract
  • 1 Introduction
  • 2 Geosynthetics for Landslide Prevention
  • 3 Sustainability
  • 3.1 Sustainability Assessment: MIVES Methodology for the Case of Slope Stability Remediation Alternatives. General Approach
  • 3.2 Sustainability Requirements Definition
  • 4 MIVES in Brief
  • 5 Evaluation Process: The Value Functions
  • 6 Conclusion
  • References
  • Review Articles
  • 15 Establishment of the Disaster Risk Reduction Unit in UNESCO and UNESCO's Contribution to Global Resilience
  • Abstract
  • 1 The Impact of Natural Hazards
  • 2 Disaster Risk Reduction and the Sendai Framework
  • 3 UNESCO and the Establishment of the Disaster Risk Reduction Unit
  • 4 UNESCO's Approach on Disaster Risk Reduction
  • 5 UNESCO's Contribution to Major Global Challenges
  • 6 UNESCO's Partnership with ICL
  • References
  • IPL Projects, World Centres of Excellence on Landslide Risk Reduction, and Kyoto Landslide Commitment 2020
  • 16 Early Warning System Against Rainfall-Induced Landslide in Sri Lanka
  • Abstract
  • 1 Introduction.
  • 2 Background Story.

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