PhD Candidate

Lukas Stefan Schild

Department of Civil Engineering and Environmental Sciences

Field of work

I am engaged in research at the intersection of geoscience, data science, and artificial intelligence. My primary focus revolves around Early Warning Systems for Rock Falls and Landslides, employing innovative approaches to enhance predictive capabilities and improve understanding of unstable rock slopes.

Research Objectives:

Develop advanced Early Warning Systems that incorporate multi-disciplinary data sources.
Explore the potential of data science in analyzing geological and environmental data for improved hazard prediction.
Investigate the integration of sensor networks to enhance our understanding of inaccessible rock slopes.
Advance the application of Explainable Artificial Intelligence for transparent and comprehensible forecasting models.

Courses taught

Computer Architecture and Operating Systems (Bachelor)

Research areas

eXplainable Artificial Intelligence (XAI)
Sensor Data Fusion
Early Warning Systems for Rock Slope Failures

Research groups

DAT103, Computers and Operating Systems, Fall 2024
DAT103, Computers and Operating Systems, Spring 2025

Publications

Autonomous UAVs for Monitoring Glacier Dynamics and Hazards: A Case Study from Jostedalsbreen, Norway

Alexander Maschler, Paula Snook, Thomas Scheiber, Lukas Schild, Sarah Langes (2025)
Multistage 54,000 m3 rockfall (Stampa, Western Norway): Insights from comprehensive monitoring and failure analysis

Alexander Maschler, Paula Snook, Lukas Schild, Stig Frode Samnøy, Lene Kristensen, Halgeir Dahle (2025)

Landslides. Journal of the International Consortium on Landslides 2025
Forstå Ustabile Fjellsider med Kunstig og Naturlig Intelligens

Lukas Stefan Schild (2025)

geoforskning.no 2025
Data for: Multistage 54,000 m3 Rockfall (Stampa, Western Norway): Insights from Comprehensive Monitoring and Failure Analysis

Alexander Maschler, Paula Snook, Lukas Stefan Schild, Stig Frode Samnøy, Lene Kristensen, Halgeir Dahle (2025)
A Fine Line: Explaining Landslide Forecasting with Dynamic Rainfall Thresholds

Lukas Stefan Schild, Thomas Scheiber, Paula Snook, Reza Arghandeh, Ascanio Rosi, Filippo Catani (2025)
Explainable Artificial Intelligence for Rainfall Induced Landslide Forecasting using Kolmogorov-Arnold Networks and Dynamic Rainfall Thresholds

Lukas Stefan Schild, Ascanio Rosi, Filippo Catani (2025)
eXplainable AI‐based causal discovery for analysing unstable rock slopes

Lukas Stefan Schild, Thomas Scheiber, Paula Snook, Alexander Maschler, Reza Arghandeh (2025)
Explainable Artificial Intelligence Based Displacement Analysis and Forecasting for Unstable Rock Slopes

Lukas Schild, Thomas Scheiber, Paula Snook, Alexander Maschler, Reza Arghandeh (2025)
4D Monitoring of Geohazards Using Autonomous UAV Systems: First Case Studies on Complex Unstable Rock Slopes and Glacier Icefalls in Norway

Alexander Maschler, Paula Snook, Thomas Scheiber, Lukas Stefan Schild, Sarah Langes (2024)
Monitoring displacement patterns, acceleration and failure (July 2023) at the unstable rock slope Stampa, Western Norway

Thomas Scheiber, Alexander Maschler, Lukas Stefan Schild, Paula Snook, Stig Frode Samnøy, Lene Kristensen (2024)
Decoding Unstable Rock Slopes - Causal Discovery for Natural Hazard Mitigation

Lukas Stefan Schild, Thomas Scheiber, Paula Snook, Alexander Maschler, Reza Arghandeh (2024)
Displacement patterns, acceleration and failure from the unstable rock slope Stampa, Western Norway

Paula Snook, Alexander Maschler, Lukas Stefan Schild, Thomas Scheiber, Stig Frode Samnøy, Lene Kristensen (2023)
Acceleration in a rock column within the unstable rock slope ‘Stampa’ Aurland municipality, Vestland county

Paula Snook, Thomas Scheiber, Lukas Stefan Schild, Stig Frode Samnøy, Helge Henriksen, Lene Kristensen (2023)
Sensor Data Fusion for Monitoring Unstable Rock Slopes

Lukas Stefan Schild, Thomas Scheiber, Paula Snook, Reza Arghandeh, Stig Frode Samnøy, Alexander Maschler (2023)
July 2023 failure from the unstable rock slope Stampa, Western Norway

Alexander Maschler, Thomas Scheiber, Paula Snook, Lukas Stefan Schild, Stig Frode Samnøy, Lene Kristensen (2023)
Subsurface fracture ventilation and gas emission and their relation to rock slope deformation

Alexander Maschler, Thomas Scheiber, Paula Snook, Lukas Stefan Schild, Hallvard Haanes, Stig Frode Samnøy (2023)
Multimodal Asynchronous Kalman Filter for monitoring unstable rock slopes

Lukas Schild, Thomas Scheiber, Paula Snook, Reza Arghandeh, Stig Frode Samnøy, Alexander Maschler (2023)

Geomatics, Natural Hazards and Risk 2023 ;Volum 14.(1)
Sensor Fusion for Monitoring Unstable Rock Slopes-A Case Study from the Stampa Instability, Norway

Lukas Schild, Thomas Scheiber, Paula Snook, Stig Frode Samnøy, Lene Kristensen, Alexander Maschler (2023)
Natural ventilation through open bedrock fracture systems and its influence on rock slope stability

Thomas Scheiber, Paula Snook, Hallvard Haanes, Alexander Maschler, Lukas Schild (2023)

Lukas Stefan Schild

Field of work

Publications

A Fine Line: Explaining Landslide Forecasting with Dynamic Rainfall Thresholds

4D Monitoring of Geohazards Using Autonomous UAV Systems: First Case Studies on Complex Unstable Rock Slopes and Glacier Icefalls in Norway

Monitoring displacement patterns, acceleration and failure (July 2023) at the unstable rock slope Stampa, Western Norway

Decoding Unstable Rock Slopes - Causal Discovery for Natural Hazard Mitigation

Displacement patterns, acceleration and failure from the unstable rock slope Stampa, Western Norway

Acceleration in a rock column within the unstable rock slope ‘Stampa’ Aurland municipality, Vestland county

Sensor Data Fusion for Monitoring Unstable Rock Slopes

July 2023 failure from the unstable rock slope Stampa, Western Norway

Subsurface fracture ventilation and gas emission and their relation to rock slope deformation

Sensor Fusion for Monitoring Unstable Rock Slopes-A Case Study from the Stampa Instability, Norway

Natural ventilation through open bedrock fracture systems and its influence on rock slope stability