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2025 | OriginalPaper | Chapter

Quantifying Transportation Risk from Slow-Moving Landslides

Authors : Michael Porter, Mark Vessely, Scott Anderson, Martin Devonald, Owen Bunce

Published in: Proceedings of the 5th International Conference on Transportation Geotechnics (ICTG) 2024, Volume 2

Publisher: Springer Nature Singapore

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Abstract

Transportation infrastructure often crosses large, slow-moving landslides. Full stabilization of these landslides can be prohibitively expensive, but measures to reduce landslide movement rates combined with regular monitoring and maintenance activities can often maintain an acceptable level of infrastructure performance. A general relationship between infrastructure condition state and landslide movement rate can be established from an operator’s experience with known active landslides but predicting the future probabilities of different landslide movement rates occurring over the infrastructure design life can be particularly challenging. This paper describes an approach to estimate annual landslide displacements and associated impacts on infrastructure performance and cost using Markov Chain models and Monte Carlo Simulation. Order-of-magnitude landslide displacement rate categories are treated as landslide condition states. Markov models provide future landslide velocity class probability distributions when combined with knowledge of the current state of the landslide. Monte Carlo simulation samples from the Markov model outputs and compares against infrastructure condition state criteria to generate annual estimates of infrastructure condition state probability. These are combined with estimates of associated owner and user costs to generate estimates of risk and lifecycle cost.

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Literature
1.
go back to reference Porter M, Anderson S, Vessely M, Devonald M (2022) Reliability models for roads crossing slow-moving landslides. In: Proceedings of the 71st highway geology symposium, Asheville, NC, USA Porter M, Anderson S, Vessely M, Devonald M (2022) Reliability models for roads crossing slow-moving landslides. In: Proceedings of the 71st highway geology symposium, Asheville, NC, USA
2.
go back to reference Cruden DM, Varnes DJ (1996) Landslide types and processes. In: Turner & Schuster (eds) Landslides, investigation and mitigation, vol 3. Special Report 247, Transportation Research Board, National Research Council. National Academy Press, Washington, USA, pp 36–75 Cruden DM, Varnes DJ (1996) Landslide types and processes. In: Turner & Schuster (eds) Landslides, investigation and mitigation, vol 3. Special Report 247, Transportation Research Board, National Research Council. National Academy Press, Washington, USA, pp 36–75
3.
go back to reference Howard R (2007) Dynamic probabilistic systems. In: Markov models, vol 1. Dover Publications, New York Howard R (2007) Dynamic probabilistic systems. In: Markov models, vol 1. Dover Publications, New York
Metadata
Title
Quantifying Transportation Risk from Slow-Moving Landslides
Authors
Michael Porter
Mark Vessely
Scott Anderson
Martin Devonald
Owen Bunce
Copyright Year
2025
Publisher
Springer Nature Singapore
DOI
https://doi.org/10.1007/978-981-97-8217-8_21