POSTER SESSION 1
20
P 1.1
Development of landslide susceptibility map for rain-induced landslide by introducing the factor of safety model in Sri Lanka
P 1.2
Observation of slope deformation around the landslide in Athwelthota in Sri Lanka
P 1.3
EXPERIMENTS ON SUBMARINE GRAVITY FLOWS OF LIQUEFIED SAND IN A DRUM CENTRIFUGE
P 1.4
Landslide Research and Technology in Patents and International Standards.
P 1.5
Different perceptions and actions of landslide-prone communities with established early-warning systems in the Philippines
P 1.6
Critically reflecting on engaging communities for establishing community-based early warning systems for landslides
P 1.7
The search for Little Ice Age landslides in Britain
P 1.8
Landslides in popular culture in the British Isles: Examples from fiction
P 1.9
LANDSLIDES AND RISKS TO CULTURAL HERITAGE. Arcos de la Frontera and its tangible, landscape and intangible heritage.
P 1.10
Adopting behavioural theories for landslide risk reduction studies: and overview and future challenges
P 1.12
Catastrophic landslides and Victimology. Comparative legal responde in Spain and Italy.
P 1.13
Sensitivity analysis of shallow landslide predisposing factors on terraced slopes in the Douro Valley
P 1.14
An open-source workflow for the classification and monitoring of river embankments: a case study from the Arno River (Florence, Italy)
P 1.15
Complex monitoring system for the protection of rock-cut cultural monuments of Georgia affected by geo-hydrological hazards
P 1.16
30 years of Cultural Heritage Landslides and block movements risk assessment: Case studies from Egypt
P 1.17
High-energy rockfall impact anticipation at the Mortuary Temple of Hatshepsut, Luxor, Egypt
P 1.18
Integrated InSAR monitoring of ground displacement on archaeological structures at the ancient Port of Classe (Ravenna, Italy)
P 1.19
Multi-scale protection and conservation of UNESCO cultural heritage affected by geo-hydrological hazards
P 1.20
Mapping ground instability in medieval villages using combined technologies for the definition of potential landslides scenarios
P 1.21
Multisensor remote surveys for the study of landslides affecting the UNESCO World Heritage "Tempio di Giunone" slopes ("Valle dei Templi", Sicily)
POSTER SESSION 2
60
P 2.1
Fully integrated UAV LIDAR for the monitoring of landslides in Emilia-Romagna region
P 2.2
An integrated approach for the study of a large landslide in the Emilia Apennines
P 2.3
Long-term monitoring and early-warning of the Sifangbei landslide in the Three Gorges Reservoir Area
P 2.4
Comparison of C-, X- and L-band differential interferometry response: Dobkovičky landslide case study
P 2.5
Smart Boulders for Monitoring Landslides - A case Study from Nepal
P 2.6
Complex slope deformation and displacement patterns in a fjord setting (Vestland county, Norway)
P 2.7
Multidisciplinary Monitoring of Active Landslide - Case Study of Ruska Nova Ves Landslide, Eastern Slovakia
P 2.8
Analysis of landslide kinematics through Satellite Interferometry: a case study of the Mendatica landslide, western Liguria, Italy
P 2.9
Landslide monitoring in the town of Seyðisfjörður in the aftermath of the destructive landslide cycle in 2020
P 2.10
Applying LoRa Technology on a Wide-stream Monitoring for Landslide
P 2.11
Structural effect of geological setting on slow-moving landslide displacement pattern
P 2.12
Rapid SAR-based landslide detection and mapping
P 2.13
Monitoring and early warning of landslides in the Philippines: a case study of rainfall-triggered landslides in Iloilo Province during 2022 Severe Tropical Storm Nalgae
P 2.14
Determination of landslide kinematics based on UAV photogrammetry with natural field details
P 2.15
Application of statistical clustering technique to diagnose sub-zone activities in potential deep-seated landslide sites
P 2.16
Subsurface fracture ventilation and gas emission and their relation to rock slope deformation
P 2.17
Understanding and reconstruction of the evolution process of the slow-moving landslides in steep canyon
P 2.18
Retrieving two-dimensional kinematics of landslides in Tena Valley using ascending and descending Sentinel-1 datasets
P 2.19
Integrated groundwater and slope movements monitoring for the characterization of complex hydrogeoloical processes in deep-seated landslides: an example in the Northern Apennines (Italy)
P 2.20
A slope stability analysis of Yusui Stream in Southern Taiwan with mulit-stage remote sensing data
P 2.21
Deep-seated landslide activity monitoring of coastal highway in eastern Taiwan using adaptive time-series InSAR with integrating Sentinel-1 and remote sensing data
P 2.22
Seismic monitoring of karst hydrostructures for geological risk management: preliminary findings from Le Capore and Peschiera springs in the Central Apennines, Italy
P 2.23
Field monitoring and kinematic behavior of a multi-sliding zones landslide in the Three Gorges Reservoir area
P 2.24
Updating landslides' inventory maps in mining areas by integrating InSAR with LiDAR datasets
P 2.25
Aerial photogrammetry and infrared thermography for the non-contact characterization of rock masses
P 2.26
Analysing multi-temporal 3D point clouds from a permanent terrestrial laser scanner: an application for slow-moving landslides monitoring
P 2.27
A study on the morphological evolution of Hongye Landslide after the 2016 Morantis typhoon event using the airborne LiDAR derived DEM and MT-InSAR techniques
P 2.28
Measuring slow-moving landslide modifications in bi-temporal Digital Surface Models obtained from historical aerial photographs
P 2.29
Ambient-noise shear-wave tomography for landslide structural models retrieval from dense seismological arrays.
P 2.30
Sparse Gradient array: a new approach to Self-Potential landslide monitoring
P 2.31
A prediction method for initiation locations of landslides and slope failures by the earthquakes and intense rainfalls
P 2.32
Multiparameter geophysical surveys for the site characterization of landslides along the Hockai Fault Zone, East Belgium
P 2.33
Mobile applications of L-band Synthetic Aperture Radar in alpine environments
P 2.34
Regional characterization of periglacial features in alpine environment based on DInSAR phase and permafrost extent
P 2.35
Analysis of the unstable slope above Portage Glacier (Alaska) through conventional and remote sensing approaches
P 2.36
Global inventory of landslides mobilising ice-cemented ground and their associated landforms
P 2.38
Erosion dynamics and debris flow hazard in a changing climate: the case of the Dar river, an alpine torrent in Switzerland
P 2.39
Dynamics and connectivity of slow-moving landslides in changing tropical landscapes
P 2.40
The capability of county-level ground motion interferometric services of detecting and monitoring landslides in Alpine regions: the case of Switzerland
P 2.41
Multi-temporal SAR interferometry technique for studying slope instability phenomena and their evolution.
P 2.42
Evaluating unsupervised analysis of large satellite InSAR dataset in the Italian Alpine and Apennine mountain regions
P 2.43
InSAR-based monthly updated ground motion Time Series for detecting velocity changes on active landslides
P 2.44
Analysis of different operational rainfall datasets and their impact on slope stability
P 2.45
Surface Soil Moisture Estimate by Integration of Remote Sensing and Low-Cost Field Sensor Network
P 2.46
A near-real-time and dynamic landslide hazard forecasting framework for the Lower Mekong Region
P 2.47
Attempts to determine ground surface displacement using inclinometers on deep-seated landslides risk areas-The case of Nagano Prefecture, Japan, in the Jurassic accretionary prism area-
P 2.48
Cell Size Effect on Landslide Susceptibility Map of Tasikmalaya Regency, West Java Province, Indonesia
P 2.49
Variable suction and its effect on stability at the Ripley Landslide near Ashcroft, British Columbia, Canada
P 2.50
Estimation Method of Long-term Landslide Movement based on Combining Tank Model and Lumped Mass Damper Model
P 2.51
Numerical modeling of limestone cliffs at a site of high touristic value
P 2.52
A catalog for landslide early warning systems
P 2.53
Hydrologic soil monitoring stations installed in Puerto Rico motivated by landsliding during Hurricane Maria
P 2.54
A nation-wide prototype warning system for Italy combining rainfall thresholds and landslide risk indicators
P 2.55
Prediction of rainfall-induced shallow landslides in pyroclastic deposits through hydrologic controls of slope response to precipitations
P 2.56
Near-real-time seismic monitoring improves deep-seated landslides early warning, Jiuxianping, China
P 2.57
Application of Empirical Approaches for Fast Landslide Hazard Management: The Case Study of Theilly (Italy)
P 2.58
Developing a spatiotemporal model to integrate landslide susceptibility and critical rainfall conditions. A practical model applied to Rio de Janeiro municipality.
P 2.59
Implementation of an operational Landslide Early Warning System tool for variable antecedent soil hydrological conditions in Campania region (Italy)
P 2.60
Thresholds definition for site-specific landslide with intermittent deformation in reservoir area: A case study at the Shuiwenzhan landslide (China)
P 2.61
Improving the operational effectiveness of physically based models for landslide forecasting through a multi-criterial parametrization of soil properties and evaluation of slope stability risk scenarios: the Florence case study
POSTER SESSION 3
19
P 3.1
Simulating effects of catch pits by analyzing groundwater and slope displacement
P 3.2
On the rheological properties of sedimentary and volcanic soils involved in landslide runout processes
P 3.4
Accuracy of soil mechanics laboratory tests and its influence on the results of slope stability analysis
P 3.5
Analysis of the infiltration processes on the stability of pyriclastic soil
P 3.6
Požáry rock field laboratory in Central Czechia - new insights on rock behaviour from multiparametric monitoring
P 3.3
A 4D photogrammetric system for laboratory investigation of flow-like landslides
P 3.7
Deformation characteristics and failure mechanism of a cut slope in Butuo County, China
P 3.8
study on design and calculation method of double row piles without coupling beam in binary slope
P 3.9
Paraglacial rock slope failures conditioned by repeated seismicity in Prince William Sound, Alaska
P 3.10
A resistance model considering sliding-flow transformation for rock avalanche dynamics
P 3.11
A coupled discrete element and Peridynamic model for the rock slope failure simulation
P 3.12
Detection of dynamic fragmentation in rockfalls: importance of small fragments in fragmentation patterns and deposit distribution
P 3.13
The Spitze Stei rock instability in Switzerland: Modeling and danger assessment using a novel Material Point Method tool
P 3.14
Rockfall hazard mitigation on infrastructures in volcanic slopes using statistical back-analysis. The case study of Gran Canaria, Spain
P 3.15
Experimental and numerical study on the impact force excerted by dry granular flow
P 3.16
Weakening mechanism of elastic wave-induced grain vibration in rock avalanche
P 3.17
Delimiting rockfall runout zones using reach probability values simulated with Rockyfor3D
P 3.18
Dynamics of Erosion and Entrainment of the Rock Avalanche Boundary: A Large-Scale Experimental and Modeling Study
P 3.19
Landslide in urbanised, data-scarce locations under climate change: how can we quantify the uncertainty in their assessment to support hazard mitigation?
POSTER SESSION 4
57
P 4.55
A spatio-temporal approach to evaluate rockfall exposure in Mallorca (Balearic Islands, Spain)
P 4.56
Efficient Intensity Measure for Landslide Vulnerability Assessment of Hillside Buildings
P 4.57
A nonstationary extreme value approach to estimating the temporal probability of rainfall induced shallow landslides under climate change
P 4.1
Landslide evolution in the upper most watershed of Ohmigawa river, central Japan, based on inventory mapping and precise radio carbon dating
P 4.2
Databases of rock slope failures; setup and experiences from Norway
P 4.3
The Landslide Counteracting System as a tool for landslide risk reduction and support for public administration in Poland
P 4.4
Landslides triggered by an extraordinary rainfall event in Central Italy on September 15, 2022
P 4.5
Distribution of shallow landslides in tropical mountains based on high-resolution satellite data and UAV surveys: examples from Caldas and Risaralda Departments, Andes, Colombia
P 4.6
Assessment Method to the Potential Landslide Barrier Lake Based on the Goemorphological Characteristics in Kaoping River, Southern Taiwan
P 4.7
Landslide susceptibility evaluation using the integration approach of physically based analysis results and data-driven method
P 4.8
Detecting landslides and flash flood events in data-scarce regional contexts: a methodology developed over the East-African tropics
P 4.9
GIS tools for debris flows runout assessment through geometric approach
P 4.10
Debris flow modelling for Flood Risk Management Plans
P 4.11
Using Python to automatically draw the landslide susceptibility map of earthquake-induced landslides - A case study of the Chi-Chi Earthquake landslide inventory
P 4.12
Proposing A Top-Down Data-Driven Framework to Improve NASA's Landslide Situational Awareness System
P 4.13
Improvement of existing landslide susceptibility map by introducing the Factor of Safety model in Sri Lanka
P 4.14
The national IdroGEO web platform for landslide data collection and sharing
P 4.15
Mapping release and propagation areas of permafrost-related rockslope failures in the French Alps to identify hot spots for hazard assessment.
P 4.16
Study of estimation methods and development of a system for estimating areas at high risk of sediment transport.
P 4.17
Update landslide susceptibility modelling - A new framework to compare and update a regional scale landslide susceptibility model
P 4.18
Upscaling and downscaling landslide susceptibility maps
P 4.19
Exploring functional regression for dynamic modeling of shallow landslides in South Tyrol, Italy
P 4.20
Deep Learning-based Landslide Mapping using Multi-Sensor Satellite Imagery
P 4.21
Role of baseline landslide inventory on the sensitivity of susceptibility models
P 4.22
Influence of geo-environmental factors on shallow landslide susceptibility in different environments
P 4.23
How to gain knowledge about unconsolidated hillslope material for regional landslide susceptibility studies?
P 4.24
Definition of Rainfall Thresholds for Shallow Landslides in Colombian Tropical Mountainous Catchments Acopling Physically-Based Model TRIGRS and Probability Density Function
P 4.25
CALIBRATION AND VALIDATION OF PHYSICALLY BASED DISTRIBUTED MODELS FOR SHALLOW LANDSLIDES PREDICTION
P 4.26
Data-driven susceptibility assessment integrating predisposing factors derived from engineering geological mapping
P 4.27
Release Areas for Shallow Landslides on Open Slope in Norwegian Landscape: Method Development for Landslide Risk Assessment.
P 4.28
The use of rockfall data in statistical analysis and for the validation of rockfall hazard zoning
P 4.29
Importance of discontinuity trace mapping in rockfall susceptibility assessments using high-resolution 3D point cloud analysis
P 4.30
Investigation of the rockfall triggering mechanisms in Slovenia, Europe
P 4.31
Source area definition and rockfall modelling in El Hierro (Canary Islands, Spain)
P 4.32
Using multi-temporal digital twins of Navagio beach (Zakynthos Island, Greece) for the detection of rock displacements after the 8.9.2022 earthquake
P 4.33
Technical-economic feasibility study for the reduction of rockfall risk in the locality of St. Magdalena, municipality of Bolzano (Autonomous Province of Bolzano - South Tyrol)
P 4.34
Active landslide mapping in urban mountainous settings through Advanced-Differential Interferometry Synthetic-Aperture Radar time series.
P 4.35
Debris flows in urban environments: combining hazard and exposure toward a tailored emergency evacuation response
P 4.36
Qualitative hazard assessment as first step for landslide consideration in urban planning
P 4.37
Gestión del riesgo por deslizamientos por lluvias extremas en la ciudad de Arequipa en Perú
P 4.38
Risk management for landslides caused by extreme rains in the city of Arequipa in Peru
P 4.39
Establishment of mountain disaster prevention countermeasures through landslide risk assessment around mountain wind power generation site
P 4.40
Debris flows risk analysis in the Giampilieri and Briga river basins (SIcily, Italy)
P 4.41
Physical Vulnerability Mapping of Debris Flow in Urban Areas of Busan, Korea: A Hazard Level-Based Rainfall Approach Using Rainfall Thresholds, Suscepbility Maps, and Vulnerability Curves
P 4.42
Semi-quantitative Vulnerability of Slope-units in terms of Building Aggregation for Potential Landslide Runout
P 4.43
Landslide distribution on Nepalese hill roads: role of existing construction practices and challenge for sustainable development
P 4.44
The rising risk of settlements on large slow-moving landslides
P 4.45
Landslide Hazard mapping in Dui Pui Village, Chiang Mai, Thailand
P 4.46
Multidisciplinary approach in evaluating hydrogeological risk affecting linear infrastructures: strategies for risk definition and mitigation
P 4.47
A nation-wide evaluation of the indirect impacts of hydro-geological events on local economies
P 4.48
A web application for field data collection aimed at landslide-induced damage assessment
P 4.49
Seamount instabilities of the Mallorca Channel (Western Mediterránean)
P 4.50
Grasp Submarine landslides: combining geomorphological parameters and geostatistical analyses to assess geohazards in the Italian seas.
P 4.51
Geohazard assessment of submarine landslides along the Squillace canyon headwalls, offshore Calabria (Ionian Sea)
P 4.52
SUBMARINE SEDIMENTARY INSTABILITIES ON THE PALOMARES CONTINENTAL MARGIN (W MEDITERRANEAN)
P 4.53
Landslides on Mid-Ocean ridges: The Bight Fracture Zone (N Atlantic)
P 4.54
Characterization of the submarine S- Eufemia slide (Calabro-Tyrrhenian margin, Italy) through the analysis of morpho-bathymetric and seismic data
POSTER SESSION 5
26
P 5.18
A Study on Preventive Measures for Earthquake-Induced Landslides in Republic of Korea
P 5.19
Regional scale landslide activity intensification inferred from satellite SAR interferometry after triggering events and preparation of following landslide scenario
P 5.20
Risk assessment and prediction of debris flow disaster in Bailong River Basin,China
P 5.21
Using multi-temporal airborne LiDAR digital elevation model for the post-landslide evolution of a deep-seated landslide
P 5.22
Field experiment on the spatial - temporal evolution of soil moisture of a rainfall induced loess landslide: implication for early warning
P 5.23
Causes of Creeping Landslide under Long-Term Disturbances: A case Study of the Likan Highway Landslide
P 5.24
Effect of strength attenuation on failure during slope failure evolution
P 5.25
Geomorphological features, evolution process and hazard of potential landslides in complex mountaious landscapes
P 5.26
Climate crisis and influence on snowfall in the Italian physical territory in the last thirty years - CLINO1991-202
P 5.1
Interconnection of Landslides' activation with Mediterranean Cyclones. The case of Cephalonia Island, Greece
P 5.2
Potential Instability of gas hydrate vs climate change: Chilean margin case study
P 5.3
Effect of warming surface temperature on the occurrence of soil landslides
P 5.4
Impact of extreme events related to climate change in montain areas: preliminary results from the Abruzzo region (central Italy)
P 5.5
Estimating landslide hazard at the regional scale considering distinct climate change scenarios
P 5.6
Rock slope spatio-temporal strain evolution: from field data to numerical modeling.
P 5.7
Extreme debris flows events recorded on Roya River triburaties : what challenges does this type of event pose for risk management ?
P 5.8
Reconstructing changes in debris flow activity on alluvial fans at Plansee (Tyrol, AT) using amphibious methods
P 5.9
Projections of landslide hazard across High Mountain Asia
P 5.10
Characterise thermal properties and quantify non-conductive heat fluxes in mountain permafrost
P 5.11
Can Long Runout Landslides with Longitudinal Ridges be used as paleoclimatic marker in Iceland and on Mars?
P 5.12
Flow behaviors and basal normal stresses of rock-ice avalanches in rotating drum expriments
P 5.13
Insights from monsoon-triggered landslide timing information derived from Sentinel-1
P 5.14
Numerical Calculations and Scenario Reconstruction of the February 7th, 2021, Chamoli Event
P 5.15
Investigating the influence of wildfire on the geotechnical properties of sloping pyroclastic soils
P 5.16
Reconstructing landslide history in tephra-mantled hillslopes: an examination of links between seismotectonic activity and landslide frequency
P 5.17
Estimation of seismic parameters of historical earthquakes based on a back-analysis of the Güevéjar landslide, Granada (Spain)
POSTER SESSION 6
27
P 6.1
A preliminary study on 3D elastic dislocation inversion using high density surface displacement data
P 6.2
Basal pore water pressure evolution of rapid fine-grained material flows
P 6.3
Exploring different numerical methods to improve the understanding of slow-moving landslides dynamics in Lower Austria
P 6.4
The rock-tower failure mechanism of the Mt. Catiello rock avalanche (Amalfi Peninunsula, southern Italy)
P 6.5
Integrated approach for the investigation of slow kinematic landslides: the Vicari case study (Southern Italy)
P 6.6
Numerical modelling of a retrogressive failure in the source area of the Montaguto landslide
P 6.8
Machine-learning for detection and prediction of cliff failures on the Baltic Sea coast in Mecklenburg–Western Pomerania (Federal Republic of Germany)
P 6.9
Does Random Forest outperform the Generalized Additive Model? An evaluation based on rainfall-triggered landslides in the Styrian Basin, Austria
P 6.10
Deep Learning-based Landslide Occurrence Time Detection using SAR
P 6.11
Detection of precursors to the triggering of gravitational instabilities: multi-parameter chronicles, artificial intelligence and modelling
P 6.12
Shallow landslide multi-temporal digital mapping in north-western Italy: A Machine Learning approach.
P 6.13
Applying Extreme Gradient Boosting model for landslide susceptibility assessments
P 6.14
Constructing Real-time Monitoring System for Roadside Landslide Prone Slope through Seismic Spectrograms by Deep Neural Network
P 6.15
A coupled hydrological and hydrodynamic modelling approach for estimating the rainfall thresholds of debris flows occurrence
P 6.16
Hydrological characteristics triggering a landslide in a natural forested headwater in Taiwan
P 6.17
Estimation of Landslide Aquifer Permeability Changes using Water Level response to Atmospheric Loading
P 6.18
Stability Analysis of the 2019 Brumadinho Dam Failure
P 6.19
Case study on the impact of vegetation on a landslide initiation under torrential storms
P 6.20
Bioclastesis as triggering factor for rockfalls and rockslides
P 6.21
Effect of Chrysopogon zizanioides growth on hill slope stability
P 6.22
Volcanic debris avalanche propagation mechanisms and dynamics: field evidence and analogue experiments
P 6.23
The case study of the big landslide of Pomarico (Basilicata, southern Italy)
P 6.24
FABRE Consortium activity on landslide risk for bridges according to the Italian guidelines for the risk evaluation and the management for bridges
P 6.25
The Montaguto earth flow: review of the achievements in the last 16-year period (2006-2022) and insights for predicting future activities
P 6.26
Remote Sensing monitoring of earth-flows: insights and lessons learned from the Pietrafitta case study (Southern Italy)
P 6.27
The peculiar case study of Pietracamela, Italy, a village simultaneously affected by rockfalls and deep seated phenomena
P 6.28