› Consequences of the Ingard-Myers coupling condition in the case of a low frequency guided acoustic wave convected and coupled with a yielding wall - Virgile Meyer, Institut Jean Le Rond d'Alembert
09:00-09:20 (20min)
› Linear stability analysis of in-duct deep cavities - Mikael Karlsson, Royal Institute of Technology, Competence center for gas exchange
09:20-09:40 (20min)
› Acoustic scattering and one-way propagation in purely reacting lined duct with flow - Yves Aurégan, Laboratoire d'acoustique de l'université du Maine
09:40-10:00 (20min)
9:00 - 10:00 (1h)
EH: Energy Harvesting
Laurea I
› Modelling of drive-train using a piezoelectric energy harvesting device integrated with a rotational vibration absorber - Francesco Infante, Fraunhofer Institute for Structural Durability and System Reliability LBF
09:00-09:20 (20min)
› Vibration energy harvesting and optimal control theory: an investigation on physical limitations in capturing the environmental energy - Rafael Rojas, Sapienza Università di Roma
09:20-09:40 (20min)
› An analytical model of a piezoelectric energy harvesting device integrated with a rotational vibration absorber - Sara Perfetto, Fraunhofer Institute for Structural Durability and System Reliability LBF
09:40-10:00 (20min)
9:00 - 10:00 (1h)
VF: Vibration Friction
Laurea II
› A Tangential Microslip Model for Circularly and Elliptically Loaded Structures - Charles Lord, Department of Mechanical Engineering [Sheffield]
09:00-09:20 (20min)
› An active vibration control strategy to stabilize the friction induced vibration using h-infinite methodology - Yao Liang, Tokyo Institute of Technology
09:20-09:40 (20min)
› Instability analysis of friction oscillators with uncertainty in friction law distribution - Joseph Lai, The University of New South Wales
09:40-10:00 (20min)
› Supersonic acoustic intensity and non-negative intensity for prediction of radiated sound - Steffen Marburg, Universität der Bundeswehr München
14:40-15:00 (20min)
› Hybrid Finite Element-Transfer Matrix method for vibroacoustic applications - Luca Alimonti, Department of Mechanical Engineering, Université de Sherbrooke
15:00-15:20 (20min)
› A comparison of acoustic radiation modes and frequency-independent normal modes in acoustic exterior problems - Lennart Moheit, Universität der Bundeswehr München
15:20-15:40 (20min)
› The interpolated time-domain equivalent source method for modeling transient sound propagation in half space - Weikang Jiang, Shanghai Jiao Tong University [Shanghai]
15:40-16:00 (20min)
14:40 - 16:00 (1h20)
SD: Structure-borne vibration Damping
Laurea II
› On Decoupled Shape-Parameterization of Damping Layers using Polygons - Gesche Fender, Technische Universtät München
14:40-15:00 (20min)
› Efficient damping treatment for structure-borne noise reduction in vehicles - Mariam Jaber, BMW Group
15:00-15:20 (20min)
› Semi-passive Control of the Acoustic Vibrations and Radiation Waves with a Periodic Lattice of Piezoelectric Patches - Charlie Bricault, Institue de Recherche Technologique Jules Verne / Laboratoire d'Acoustisque Université du Maine
15:20-15:40 (20min)
› Model selection in inverse acoustic problems - Mathilde Griveaux, Institut Jean Le Rond d'Alembert, Laboratoire de Mécanique et d'Acoustique
14:40-15:00 (20min)
› Characterization of materials and flaw detection using force analysis technique - Thibault Wassereau, Laboratoire d'acoustique de l'université du Maine, Institut de Recherche Technologique Jules Verne
15:00-15:20 (20min)
› Investigations into the use of exact and distorted structural similitudes for the frequency response of plates - Viviana Meruane, Department of Mechanical Engineering, Universidad de Chile
15:20-15:40 (20min)
› A multi-sine sweep method for the characterization of weak non-linearities; plant noise and variability estimation - Kerem Ege, Laboratoire Vibrations Acoustique
15:40-16:00 (20min)
› Statistical energy analysis: from the understanding of its assumptions to its practical use - Thibault Lafont, Laboratoire de Tribologie et Dynamique des Systèmes
16:40-17:00 (20min)
› Computation of modal energy transmission paths in SmEdA using graph theory algorithms - Angels Aragonès, La Salle, Universitat Ramon llull
17:00-17:20 (20min)
› Investigation for obtaining a modal coupling scheme in agreement with the SmEdA/SEA models for multi-subsystems connected at a junction - Laurent Maxit, Laboratoire Vibrations Acoustique
17:20-17:40 (20min)
› Coupling loss factor calculation through Lorentzian-weighted frequency averaging of the direct field dynamic stiffness. - Hendrik Devriendt, Department of Mechanical Engineering, KU Leuven
17:40-18:00 (20min)
› Mechanical characterisation of a bio-based composite panel - Viviana Meruane, Department of Mechanical Engineering, Universidad de Chile
17:00-17:20 (20min)
› Characterisation of viscoelastic layers in sandwich lightweight panels through inverse techniques - Lucie Rouleau, Laboratoire de Mécanique des Structures et des Systèmes Couplés, Cnam Paris, Department of Mechanical Engineering, KU Leuven
17:20-17:40 (20min)
› Stochastic vibroacoustic analysis of FRP composite plates with random spatial parameters - Kheirollah Sepahvand, Institute for Mechanics, Universität der Bundeswehr Munich
17:40-18:00 (20min)
16:40 - 18:00 (1h20)
ST: Sound Transmission
Lavandula II
› Transmission loss of one-dimensional systems with frequency-dependent complex masses - Waldemar Maysenhölder, Fraunhofer Institute for Building Physics, Department of Acoustics
16:40-17:00 (20min)
› Evaluation of the sound transmission loss using an impedance tube – The effect of sample's support conditions - Paulo Amado-Mendes, ITeCons / CICC, Dept. Eng. Civil, Universidade de Coimbra
17:00-17:20 (20min)
› Transmission loss of aluminum extruded panel - Jeung Tae Kim, Hongik University, SEOUL
17:20-17:40 (20min)
› The forced sound transmission of finite ribbed plates, investigating the influence of point connections and periodicity - Jonas Brunskog, Technical University of Denmark
17:40-18:00 (20min)
› Stochastic radiated sound power of structures with uncertain parameters - Christian Geweth, Universität der Bundeswehr München
08:20-08:40 (20min)
› Simple vibroacoustic systems – Influence of uncertainties in simulation and experiment - Patrick Langer, M. Krause, Steffen Marburg, Kheirollah Sepahvand
08:40-09:00 (20min)
› Uncertainty propagation in random coupled structures applied to the wave finite element method - Olivier Bareille, Laboratoire de Tribologie et Dynamique des Systèmes
09:00-09:20 (20min)
› A model of mechanical contacts in hearing aids for uncertainty analysis - Ester Creixell-Mediante, Oticon A/S
09:20-09:40 (20min)
› Variability analysis of vibrational responses in a passenger car considering uncertainties of elastomers - Dooho Lee, Dongeui Unversity
09:40-10:00 (20min)
8:20 - 10:00 (1h40)
VS: Vibroacoustics of Structures
Lavandula II
› Modal estimation of a cantilever using video images - Soo Il Lee, University of Seoul
08:20-08:40 (20min)
› Piano soundboard vibro-acoustic modeling through decomposition on the basis of orthotropic simply supported unribbed plate modes - Benjamin Trévisan, Laboratoire Vibrations Acoustique
08:40-09:00 (20min)
› Opportunities and limitations on vibro-acoustic design of vehicle structures by means of energy flow-based numerical simulation - Johannes Ebert, BMW Group, Department of Structural Dynamics, Structure-borne Sound and Vibrations
09:00-09:20 (20min)
› Energy flow in structures built up of plates and beams - Anders Nilsson, University of Brescia, Dept. Mechanical and Industrial Engineering
09:20-09:40 (20min)
› Experimental modal based vibro-acoustic analysis of sandwich panels - Stephen Hambric, ARL/Penn State
09:40-10:00 (20min)
8:40 - 10:00 (1h20)
SI: Source Identification
Laurea I
› Resolution improvement of noise sources in high-speed trains by inverse problem optimization - Hee-Min Noh, Korea Railroad Research Institute
08:40-09:00 (20min)
› A microphone clustering approach for improved Generalized Inverse Beamforming formulation - Claudio Colangeli, Siemens Industry Software NV
09:00-09:20 (20min)
› CIBNAH: a new Near-field Acoustic Holography method with no requirement for reference signals - Armand Nejade, Institut national de recherche et de sécurité
09:20-09:40 (20min)
› Source identification by Vibratory Holography - Corentin Chesnais, Laboratoire Vibrations Acoustique de Lyon
09:40-10:00 (20min)
8:40 - 10:00 (1h20)
CM: Modelling for N&V Control
Laurea II
› Acoustic performance of sonic crystal noise barriers using a quasi-periodic boundary element technique - Nicole Kessissoglou, UNSW Australia
08:40-09:00 (20min)
› Resonant lattices for low-frequency vibro-acoustic control - Flaviano Tateo, Technische Universiteit Eindhoven
09:00-09:20 (20min)
› Design and verification of vibration isolation of buildings against structure-borne noise, generated by trains - Fülöp Augusztinovicz, Budapest University of Technology and Economics, Dept. of Networked Systems and Services
09:20-09:40 (20min)
› Prediction of noise from vibroacoustic sources in industrial conditions - Goran Pavić, Laboratoire Vibrations Acoustique
09:40-10:00 (20min)
› Analysis of excitations from the wavenumber point of view - Fabien Chevillotte, Matelys
14:40-15:00 (20min)
› Source fields reconstruction on a 3D structure in noisy environment - Sandra Forget, Centre Technique Renault de Lardy
15:00-15:20 (20min)
› Identification of vibration sources from measurements of transverse displacement, from a Bayesian point of view. - Charly Faure, Laboratoire d'acoustique de l'université du Maine
15:20-15:40 (20min)
› Reconstruction of deterministic and random excitations on a bending plate using the virtual fields method - Alain Berry, Groupe d'Acoustique de l'Université de Sherbrooke
15:40-16:00 (20min)
14:40 - 16:00 (1h20)
CD: Design for N&V control
Laurea II
› Muffler design by sub-chamber optimization: with application to a mining truck muffler - Li Cheng, The Hong Kong Polytechnic University [Hong Kong]
14:40-15:00 (20min)
› Numerical modeling of fan noise in electronics - Sergey Timushev, Moscow Aviation Institute
15:00-15:20 (20min)
› Optimisation and implementation of a hybrid passive silencer for improved sound quality - Hugh Hopper, Dyson Ltd
15:20-15:40 (20min)
› Design relation and end correction formula for multi-orifice intruded Helmholtz resonators - Chandramouli Padmanabhan, Indian Institute of Technology Madras
15:40-16:00 (20min)
14:40 - 16:00 (1h20)
VW: Vibration Waves
Lavandula II
› Transmission and reflection of waves in joined plates - Giannoula Mitrou, ISVR, University of Southampton
14:40-15:00 (20min)
› Numerical tools for efficient simulations of wave propagation in damped periodic structures - Kevin Billon, Département de Mécanique Appliquée R. Chaléat
15:00-15:20 (20min)
› Predicting noise and vibration band gaps in flexible rings via a SEM/BEM formulation - Danilo Beli, Universidade Estadual de Campinas
15:20-15:40 (20min)
› A waveguide approach to the vibrational power flow in pipes with bends - Andrea Ricci, University of Southampton (Southampton, UK)
15:40-16:00 (20min)
› Characterisation of sound sources by plane surface harmonics - Liangfen Du, Laboratoire Vibrations Acoustique
16:40-17:00 (20min)
› Characterisation of air-borne noise by a dummy-source approach - Anders Lindberg, Laboratoire Vibrations Acoustique
17:00-17:20 (20min)
› In-situ determination of dynamic stiffness for resilient elements - Meggitt Joshua, University of Salford
17:20-17:40 (20min)
› Detailed directivity measurements of aerodynamic sound sources - Andrew Elliott, University of Salford
17:40-18:00 (20min)
16:40 - 18:00 (1h20)
VP: analysis of Vibroacoustical Properties
Laurea II
› Transfer Path Analysis methods applied to diagnostic testing of sound insulation performance of cavity constructions. - Nikhilesh Patil, University of Salford - Andy Elliott, University of Salford
16:40-17:00 (20min)
› Effects of macro porosity in poroelastic materials on noise control of acoustic cavity - Shantanu Kore, Department of Mechanical Engineering, India
17:00-17:20 (20min)
› Bayesian inversion from Sabine absorption coefficients to flow resistivity values for porous absorbers - Cheol-Ho Jeong, Acoustic Technology, Department of Electrical Engineering, Technical University of Denmark
17:20-17:40 (20min)
› A lightweight vibro-acoustic metamaterial demonstrator: Numerical and experimental investigation. - Claus Claeys, KU Leuven
17:40-18:00 (20min)
16:40 - 18:00 (1h20)
SV: Shell Vibration
Lavandula II
› Bi-orthogonality conditions for power flow analysis in fluid-loaded elastic cylindrical shells: theory and applications - Lasse Ledet, Department of Mechanical and Manufacturing Engineering, Aalborg University
16:40-17:00 (20min)
› Tracking vibrational energy on curved shell structures in the mid-high frequency limit - a ray-tracing approach - Gregor Tanner, University of Nottingham
17:00-17:20 (20min)
› Extensions of the variational theory of complex rays in the general shell theory framework - Alessandro Cattabiani, LMT-Cachan (ENS Cachan/CNRS/Paris-Saclay-University)
17:20-17:40 (20min)
› On the use of the wave finite element method for passive vibration control of periodic structures - José Roberto Arruda, Departamento de Mecânica Computacional, Faculdade de Engenharia Mecânica, Universidade Estadual de Campinas
17:40-18:00 (20min)
› Response of a Deterministic and Stochastically Excited Nonlinear Oscillator - David Hawes, Department of Engineering [Cambridge]
08:40-09:00 (20min)
› Passive suppression of helicopter ground resonance instability by means of a strongly nonlinear absorber - baptiste bergeot, Ecole Centrale de Marseille / Laboratoire de Mécanique et d'Acoustique [Marseille]
09:00-09:20 (20min)
› Modelling of a complex, nonlinear rotor system using 3D solid finite elements - Theo Kiesel, Universitat der Bundeswehr Munich, Germany
09:20-09:40 (20min)
› Numerical and experimental study of the energy pumping of the first vibration modes of a mechanical system using bi-stable attachment - Pierre-Olivier Mattei, Laboratoire de Mécanique et d'Acoustique
09:40-10:00 (20min)
8:40 - 10:00 (1h20)
IM: Innovative Modelling approaches
Laurea II
› Robust source array configuration for minimizing the effect of reflection in an interior space - Wan-Ho Cho, Korea Research Institute of Standards and Science
08:40-09:00 (20min)
› A Condensed Transfer Function Method as a Tool for Solving Vibroacoustic Problems - Valentin Meyer, DCNS Research, Laboratoire Vibrations Acoustique
09:00-09:20 (20min)
› A scaling approach for the vibro-acoustic analysis of a complex system in the mid-frequency region - Xianhui Li, Beijing Key Laboratory of Environmental Noise and Vibration, Beijing Municipal Institute of Labor Protection
09:00-09:20 (20min)
› Stabilized finite element formulation for the mixed convected wave equation in domains with driven flexible boundaries - Oriol Guasch, La Salle, Universitat Ramon llull
09:40-10:00 (20min)
8:40 - 10:00 (1h20)
FM: Flow acoustics Modelling
Lavandula II
› Comparison of compressible and incompressible CFD methods for the acoustic analysis of flow induced noise in confined flows - Natalie Witkowski, Technical University of Vienna
08:40-09:00 (20min)
› Damping identification of an elastic panel coupled to a fluid: model-scale and full-scale investigations for ships - Daniele Dessi, National Research Council - Marine Technology Research Institute
09:00-09:20 (20min)
› Aeroacoustic response of a T-junction with bias flow - Lin Du, KTH-CCGEx, The Marcus Wallenberg Laboratory for Sound and Vibration Research - Mats Åbom, KTH-CCGEx, The Marcus Wallenberg Laboratory for Sound and Vibration Research
09:20-09:40 (20min)
› Low frequency control of the response of composite material panels to turbulent boundary layer excitation - Elena Ciappi, National Research Council of Italy, Marine Technology Research Institute, Rome, Italy
09:40-10:00 (20min)
› VFC-variational feedback control applied to semi-active car suspensions - Gianluca Pepe, Sapienza Università di Roma
14:00-14:20 (20min)
› Semi-active vibration control via VFC-variational feedback by piezoelectric actuation - Gianluca Pepe, Sapienza Università di Roma
14:20-14:40 (20min)
› Effect of eccentricity and gain control for high speed rigid rotor supported by hybrid foil-magnetic bearing - Yong-Bok Lee, Korea Institute of Science and Technology
14:40-15:00 (20min)
14:00 - 15:20 (1h20)
TA: Tools for vibroacoustics Analysis
Laurea II
› Novel architecture of MEMS microphone with piezoresistive nano gauges detection - Emmanuel Redon, Laboratoire Vibrations Acoustique
14:00-14:20 (20min)
› Recent simulation techniques of viscous and thermal losses of sound waves in fluids and their applications in the micro-scale - Vicente Cutanda Henriquez, University of Southern Denmark
14:20-14:40 (20min)
› Indicators of real gear transmission defects using sound perception - Nacer Hamzaoui, INSA Lyon , Laboratoire Vibration Acoustique
14:40-15:00 (20min)
14:00 - 15:20 (1h20)
FE: Flow acoustics Measurement
Lavandula II
› Flow-induced interior noise from a turbulent boundary layer of a towed body - Jan Abshagen, Research Department for Underwater Acoustics and Marine Geophysics, Bundeswehr Technical Center WTD 71
14:00-14:20 (20min)
› Flow-Induced Noise of a Moderate Reynolds Number Jet Interacting with a Tangential Flat Plate - Alessandro Di Marco, Università degli Studi ROMA TRE
14:20-14:40 (20min)
› Extraction of the acoustic part of a turbulent boundary layer from wall pressure and vibration measurements - Quentin Leclère, Laboratoire Vibrations Acoustique
14:40-15:00 (20min)
Laurea I
