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Estimating S-Wave intensity for early earthquake warning in New Zealand: Leveraging the first 3 seconds of P-wave intensity
C. Chandrakumar, M.L. Tan, C. Holden, M.Stephens, A.Punchihewa, R. Prasanna 2024 Estimating S-Wave intensity for early earthquake warning in New Zealand: Leveraging the first 3…
Impact of variable fault geometries and slip rates on earthquake catalogues from physics-based simulators for the Cape Egmont Fault, New Zealand.
Using an exceptionally well-defined 3D geometry of an active normal fault to test the impact of detailed input data on synthetic seismicity simulations.
A Novel Method to Determine Probabilistic Tsunami Hazard using a Physics-based Synthetic Earthquake Catalog: a New Zealand Case Study
For the first time, this study uses a physics-based synthetic earthquake catalogue to assess probabilistic tsunami hazard in a local region.
Using simulated earthquakes to prepare for the next ‘big one’
'Synthetic' earthquakes are helping scientists understand Aotearoa's full earthquake cycle, and what the next big damaging quake might look like.
Physics to Resilience: Next Generation Earthquake and Tsunami Response.
An update on the development and evaluation of the usefulness of earthquake models for application to some of Aotearoa New Zealand's biggest earthquake challenges.
The New Zealand Community Fault Model – version 10: An improved geological foundation for seismic hazard modelling
This article summarises the New Zealand Community Fault Model - a publicly available representation of fault zones with the potential to produce damaging earthquakes.
The role of heterogeneous stress in earthquake cycle models of the Hikurangi-Kermadec subduction zone
This study tests the role of spatial heterogeneity in the distribution of the initial stresses and frictional properties on earthquake cycle simulations, focusing on the Hikurangi–Kermadec subduction zone.
Earthquake early warning systems based on low-cost ground motion sensors: A systematic literature review
Low-cost ground motion sensors are becoming a promising solution for constructing an affordable yet reliable and robust earthquake early warning system.
Seismic constraint on heterogeneous deformation and stress state in the forearc of the Hikurangi subduction zone, New Zealand
Differences in the nature of crustal deformation (and stress state) along the Hikurangi margin.
A review of approaches for submarine landslide-tsunami hazard identification and assessment
J.H.M. Roger, S.Bull, S.J. Watson, C. Mueller, J.I.T. Hillman, A.Wolter, G. Lamarche, W.Power, E. Lane, S.Woelz, S.Davidson 2024 A review of approaches for submarine landslide-tsunami…
Performance analysis of P-wave detection algorithms for a community-engaged earthquake early warning system – a case study of the 2022 M5.8 Cook Strait earthquake
Which algorithm is best for detecting P-waves generated by earthquakes and generating earthquake early warnings?
Algorithms for detecting P-waves and earthquake magnitude estimation: Initial literature review findings.
This Work in Progress paper presents the initial findings from an ongoing literature review exploring the algorithms used for P-wave detection and earthquake magnitude estimation.