(TA1-44-1) Svelvik CO2 Field Lab:

  • (C1-TA1-44-1-1) Increasing the geotechnical information from DAS data by using conventional seismic sources (P-, SH- and SV-waves)
  • (C3_TA1-44-1-3) Svelvik Borehole Electromagnetic Monitoring
  • (C3-TA1-44-1-4) Surface-deployed fibre optic sensing for sub-surface gas monitoring

(TA1-44-2) PITOP Borehole Geophysical Test Site:

  • (C3-TA1-44-2-2) Evaluation of distributed acoustic sensing (DAS) signals in cross-well and surface seismic applications for high resolution imaging of the subsurface

(TA1-44-5) MobSeis Mobile Seismic Array:

  • (C3-TA1-44-5-2) Site Characterization of Liquefaction and Critical Infrastructure using Seismic Array

(TA2-531-1) SeisSol-ExaHyPE - Earthquake simulation, wave simulation and hyperbolic PDE systems (LMU, Germany):

(TA2-531-2) OpenFOAM Applications in Volcanology:

  • (C1-TA2-531-2-1) Multiscale Simulation of Pyroclastic Density Currents (PDCs) Across Complex Topography Using OpenPDAC 
  • (C1-TA2-531-2-2) Investigating MultiPhase Analysis of Current Transport
  • (C2-TA2-531-2-2) Simulating flow focusing and solidification in basaltic fissure eruptions
  • (C3-TA2-531-2-1) 4D modelling volcanic plume on Venus

(TA2-531-3) HySEA - Earthquake and landslide generated tsunami simulations (UMA, Spain and CINECA, Italy): 

  • (C1-TA2-531-3-1) Tsunami Risk Understanding and Simulation for Israeli Coastal Inundation (Ran Novitsky Nof, Geological Survey of Israel, Israel)
  • (C1-TA2-531-3-6) Impact Analysis of the Landslide-Generated Tsunami in Lake Rupanco, Chile, 1960 (Juan Pablo Quiroga Quezada, Universidad Católica de la Santísima Concepción, Chile)
  • (C1-TA2-531-3-7) Impact of tsunami generation models in flooding (Alice Abbate, University of Trieste, Italy)

(TA2-532-1) BingClaw - Model for simulating dynamics of cohesive landslides):

  • (C2-TA2-532-1_1) Seismic response and multi-scale cohesive landslide dynamics with BingClaw
  • (C2_TA2-532-1_2) Tsunami hazards posed by the Santa Cruz Basin submarine landslide complex, southern California
  • (C2-TA2-532-1-3) Rainfall-Induced Landslide-Tsunami Modelling for Coastal Barangays of Southeastern Leyte Island, Philippines
  • (C2-TA2-532-1-6) Source-to-coast model for landslide-generated tsunamis in the SW Iberia Margin

(TA2-541-1/TA2-541-2) PVHA - Probabilistic Volcanic Hazard Assessment:

  • (C1-TA2-541-1-1) Probabilistic tephra fall hazard assessment for New Zealand’s most active onshore volcano
  • (C1-TA2-541-1-2) Long-term Probabilistic Volcanic Hazard Assessment of the North Atlantic–European Region: application to tephra hazard from the Azores

(TA2-541-3/TA2-541-4/TA2-541-5) PTHA - Probabilistic Tsunami Hazard Assessment:

  • (C1-TA2-541-3-1) PTHA at local in scale: Application in Cádiz, Spain
  • (C1-TA2-541-3-3) Cross-Border Hazard Assessment: PTHA in Pilot Areas of Pakistan and Iran

(TA2-541-6/TA2-541-7/TA2-541-8) PTHA - Probabilistic Tsunami Hazard Assessment:

  • (C1-TA2-541-6-1) Chilean Tsunami Hazard Assessment
  • (C1-TA2-541-6-2) Probabilistic Tsunami Hazard Assessment for Agadir city, Morocco: A High-Performance Computing Approach

(TA2-541-9) Cyber-PSHA - Probabilistic Seismic Hazard Analysis:

  • (C2-TA2-541-9-2) A closer look at CyberShake finite fault rupture modeling for improved near-fault ground motion simulation (up to 1Hz) of strong earthquakes in Southwest Iceland

(TA2-541-10) Cyber-PSHA - Probabilistic Seismic Hazard Analysis:

  • (C1-TA2-541-10-4) CyberShake physics-Based damage Evaluation for NorthEastern Italy - CYBERNEI

(TA2-541-11) MP-PSHA - Towards Physics-based Probabilistic Seismic Hazard Analysis:

  • (C3-TA2-541-11-1) Towards physics-based seismic hazard assessment: validating finite-fault models of the 2011 Tohoku-Oki earthquake with ensembles of dynamic rupture simulations

(TA2-542-1) EF-PSHA - Probabilistic Seismic Hazard Analysis:

  • (C1-TA2-542-1-1) Seismogenic source model for seismic hazard assessment in North Macedonia
  • (C1-TA2-542-1-2) Open Ground Motion Greece 
  • (C1-TA2-542-1-3) Non-ergodic Ground Motion Models for Vrancea intermediate-depth source (Romania) and their implications to ESHM20

(TA3-82-1) BedrettoLab testbed:

  • (C3-TA3-82-1-3) Testing and Benchmarking ML Pickers at the BedrettoLab Testbed
  • (C3-TA3-82-1-4) Testing a periodic injection protocol at the BedrettoLab Testbed
  • (C3-TA3-82-1-5) Electric Self-Potential and Fiber-Optic Monitoring of Fluid-Driven Fault Dynamics in the FEAR Experiment

(TA3-83-1) Eastern Sicily - Pool Instruments:

  • (C1-TA3-83-1-1) Gravimetric 3D structural model of Etna summit
  • (C3-TA3-83-1-2) Investigating RayleIGH Waves Using a ROTATIONAL Seismometer at ETna’s Southern Flank

(TA3-83-5) Eastern Sicily - INFN-LNS submarine FO cable:

  • C3-TA3-83-5-2 Optimizing DAS data selection for Microseisms Analysis offshore Catania

(TA3-83-6) Eastern Sicily - Distributed Acoustic Sensing:

  • C3-TA3-83-6-2 Distributed acoustic sensing for acoustic modelling and evaluation of marine mammal response before, during, and after sparker emissions

(TA3-83-4) Eastern Sicily - Lithotheque:

  • (C3-TA3-83-4-2) The excess gas paradox at volcanoes: does CO2 favor gas accumulation in mafic magmas?
  • (C3-TA3-83-4-3) Deciphering Cycles of Activity over Decades at Mt. Etna

(TA3-83-6) Eastern Sicily - Distributed Acoustic Sensing:

  • (C3-TA3-83-6-2) Distributed acoustic sensing for acoustic modelling and evaluation of marine mammal response before, during, and after sparker emissions

(TA3-84-1) Irpinia Near Fault Observatory:

  • (C1-TA3-84-1-1) Feasibility of an impact-based Early Warning System for Ibero-Magrebian Region
  • (C1-TA3-84-1-2) AI-based back-azimuth for EEWS
  • (C1-TA3-84-1-3) Optimising Seismic Detection through Advanced 
  • (C2-TA3-84-1-2) Strong Motion Assessment with DAS

(TA3-88-1) Corinth Rift Laboratory - Optic Instruments:

  • (C3-TA3-88-1-2) Evaluation of distributed acoustic sensing (DAS) signals in cross-well and surface seismic applications for high resolution imaging of the subsurface