Overview

Preliminary program overview

IOMAC 2025 takes place from Tuesday to Friday, May 20th – 23rd, 2025, with the following program:

Tuesday, May 20th

  • 08:00 – 17:00 Pre-conference courses
  • 18:30 – 20:30 Welcome reception & Registration

Wednesday, May 21st

  • 08:00 – 08:30 Registration & Welcome coffee
  • 08:30 – 09:00 Opening Ceremony
  • 09:00 – 10:00 Keynote Lecture by Prof Eleni Chatzi
  • 10:00 – 10:20 Coffee Break
  • 10:20 – 12:20 Parallel Sessions
  • 12:20 – 13:30 Lunch Break
  • 13:30 – 15:10 Parallel Sessions
  • 15:10 – 15:30 Coffee Break
  • 15:30 – 16:50 Parallel Sessions
  • 16:50 – 18:00 PhD Pitch Competition
  • 19:00 Wine & Cheese tasting

Thursday, May 22nd

  • 08:00 – 08:30 Registration & Welcome coffee
  • 08:30 – 09:30 Lecture of Honor by Prof Spilios Fassois
  • 09:30 – 10:30 Parallel Sessions
  • 10:30 – 10:50 Coffee Break
  • 10:50 – 12:50 Parallel Sessions
  • 12:50 – 14:00 Lunch Break
  • 14:00 – 23:30 Departure to Mont St Michel followed by the Gala Dinner

Friday, May 23rd

  • 08:30 – 09:00 Registration & Welcome coffee
  • 09:00 – 10:20 Industrial Keynote Lectures by Dr Fabien Ayme & Dr Frédéric Batlle
  • 10:20 – 10:40 Coffee Break
  • 10:40 – 11:40 Parallel Sessions
  • 11:45 – 12:45 Industrial session
  • 12:45 – 14:00 Lunch Break
  • 14:00 – 15:40 Parallel Sessions
  • 15:45 – 16:00 Closing Ceremony
  • 16:00 Farewell coffee & Open discussion on the theme “OMA and beyond”
  • 18:00 End of the conference

Topics

Contributions referring to the following main topics of IOMAC – though not limited to – are strongly encouraged:

  • AI for modal analysis and monitoring
  • Automatic modal parameter estimation
  • Data fusion
  • Digital twinning
  • Dynamic characterization of materials, structures and systems
  • Dynamics of diverse structures and systems (aerospace structures, cables, civil structures, lightweight structures, mechatronic systems, rotating machinery, railways, wind turbines, …)
  • Earthquake engineering applications
  • Experimental analysis of vehicle-bridge interaction
  • Fatigue estimation
  • Harmonics in OMA
  • Influence of environmental and operational conditions
  • Innovative sensing solutions and measurement techniques
  • Inverse methods – Load reconstruction
  • Modal based structural health monitoring – damage detection and condition monitoring
  • Modal mass estimation
  • Modal testing: methods, instrumentation and case studies
  • Multi-layout tests
  • Non-linearities: identification and processing
  • Non-stationarities: identification and processing
  • Optimization techniques for inverse problem solution, model correlation and updating
  • Substructuring and coupling methods
  • Uncertainty quantification

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