Structural Health Monitoring (SHM) is an emerging technology, dealing with the development and implementation of techniques and systems where monitoring, inspection and damage detection become an integral part of structures and thus a matter of automation. It further merges with a variety of techniques related to diagnostics and prognostics of structures such as aircrafts, bridges, buildings, power-plants, etc.
The European Workshop on Structural Health Monitoring (EWSHM) was first successfully run in 2002 in Cachan near Paris/France, followed by events held in Munich/Germany (2004), Granada/Spain (2006), Krakow/Poland (2008), Sorrento/Italy (2010), Dresden/Germany (2012) and Nantes/France (2014). It has grown over the years significantly and has become the strong counterpart to the International Workshop on SHM (IWSHM) held in Stanford/CA every odd year.
EWSHM addresses a fairly wide field in science including subjects such as:
- Physical monitoring principles in general (visual, mechanical, acoustic, electrical, thermal, etc.)
- Signal processing (FFT, wavelet, PCA, feature extraction, pattern recognition, etc.)
- Structural simulation (stress & strain, modal, acoustics, electromagnetics, thermal, neural networks, etc.)
- Sensors and sensor systems (network, wireless and smart sensors piezoelectric, fibre optic, electromagnetic, MEMS, nano agents, etc.)
- Principles of SHM-based structural monitoring, design, and maintenance
- SHM applications (aerospace, marine, railway, automotive, pipelines, civil engineering, energy generation and distribution, production, etc.)
The proceedings are also available in the Open Access NDT Database : NDT.net
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After the conference, update and corrections will be possible throught the HAL site
(contact : archive-ouverte@inria.fr)
Tuesday July 8, 2014
- TuAT1 : Aeronautics I
- TuAT2 : Guided Waves I
- TuAT3 : Thermal Methods and Modeling
- TuAT4 : SHM for Railroads
- TuAT5 : Sensors I
- TuAT6 : Wind Energy I
- TuBT1 : Aeronautics II
- TuBT2 : Guided Waves II
- TuBT3 : Environmental Effects
- TuBT4 : Bridge Monitoring
- TuBT5 : Sensors II
- TuBT6 : Wind Energy II
- TuCT1 : Composites I
- TuCT2 : Guided Waves III
- TuCT3 : SHM Applications I
- TuCT4 : Image Processing
- TuCT5 : Piezoelecric Sensing
- TuCT6 : Signal Processing for Monitoring of Wind Turbines
- TuDoster : Poster Session
Wednesday July 9, 2014
- WeAT1 : OFS-4-SHM (Optical Fiber Sensors for Structural Health Monitoring)
- WeAT2 : Probabilistic SHM 1
- WeAT3 : Sensors III
- WeAT4 : Pattern Recognition I
- WeAT5 : Structural Simulation
- WeAT6 : Acoustic Emission
- WeBT1 : Fiber Optics I
- WeBT2 : Probabilistic SHM 2
- WeBT3 : Sensors IV
- WeBT4 : Pattern Recognition II
- WeBT5 : FEM Methods and SHM
- WeBT6 : Advances in Monitoring with Ultrasonic Coda Waves
- WeCT1 : Fiber Optics II
- WeCT2 : Life Cycle Analysis
- WeCT3 : Realtime Methods
- WeCT4 : Pattern Recognition III
- WeCT5 : Modal Analysis
- WeCT6 : Nonlinear Acoustics
Thursday July 10, 2014
- ThAT1 : Strain Monitoring I
- ThAT2 : Statistical Approaches I
- ThAT3 : Achievements and Prospects for Nanotechnologies and Nanosensors in SHM
- ThAT4 : Electromagnetic SHM
- ThAT5 : Civil Engineering SHM
- ThAT6 : Damage I
- ThBT1 : Strain Monitoring II
- ThBT2 : Statistical Approaches II
- ThBT3 : SHM Applications II
- ThBT4 : Guided Waves IV
- ThBT5 : Structural Health Monitoring of Civil Engineering Structures
- ThBT6 : Damage II
Friday July 11, 2014
- FrAT1 : Structural Identification and Damage Detection Using Vibration Measurements
- FrAT2 : Composites II
- FrAT3 : SHM Applications III
- FrAT5 : Signal Processing
- FrAT6 : SHM Methodologies
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Keynote