› The crossing rates, exceedance probabilities, and maximum values of a random frequency response function - Robin Langley, University of Cambridge
09:40-10:00 (20min)
› A Piece-wise Calculation Scheme for the Mid-to-high Frequency Vibro-acoustic Simulations - Li Cheng, Department of Mechanical Engineering, The Hong Kong Polytechnic University
10:00-10:20 (20min)
9:40 - 10:20 (40min)
SRT 1: Sound Radiation and Transmission 1
C1
› Superposition of frequency-independent normal modes in exterior acoustics - Lennart Moheit, Chair of Vibroacoustics of Vehicles and Machines, Technical University of Munich
09:40-10:00 (20min)
› A study on the focusing performance of acoustic Luneburg lens in air and water condition - GUNN HWANG, Electronics and Telecommunications Research Institute
10:00-10:20 (20min)
9:40 - 10:20 (40min)
NVC 1: Noise and Vibration Control 1
C2
› Experimental validation of the statistics of a structural-acoustic system for active noise control applications in vehicles - Luis Andrade, Department of Engineering [Cambridge]
09:40-10:00 (20min)
› Pulse Drive and Inertial Motors with Piezoelectrics - Kenji Uchino, The Pennsylvania State University
10:00-10:20 (20min)
FORUM I: Optical measurement of continuous vibration and sound fields. Presentations + Discussion.
AUDITORIUM
Chair: Prof. Francesco Franco; Keynote speakers: Prof. Fabrice Pierron, Prof. Pascal Picart, Dr. Alex Nila
› Deflectometry: a tool to measure full-field slopes - Fabrice Pierron, University of Southampton (Southampton, UK)
11:00-11:30 (30min)
› Full-field investigation of traveling acoustic waves with digital holography - Pascal PICART, Laboratoire d'Acoustisque Université du Maine
11:30-12:00 (30min)
› Application of 3D Digital Image Correlation for Full-Field Vibration Measurements - Alex Nila, LaVision UK Ltd
12:00-12:30 (30min)
› Transient SEA: Mean and Variance Predictions - David Hawes, Department of Engineering [Cambridge]
14:20-14:40 (20min)
› Band-averaged variance prediction in hybrid finite element-statistical energy analysis - Edwin Reynders, KU Leuven Department of Civil Engineering
14:40-15:00 (20min)
› Development of a hybrid FE-SEA-Experimental model: Theoretical formulation - Arnau Clot, Department of Engineering, University of Cambridge
15:00-15:20 (20min)
› Development of a Hybrid FE-SEA-Experimental Model: Experimental Subsystem Characterisation - Joshua Meggitt, University of Salford
15:20-15:40 (20min)
› On the influence of the condition number on the resolution of an ESEA model - Francisco Simón Hidalgo, Consejo Superior de Investigaciones Científicas, ITEFI
15:40-16:00 (20min)
› Topology optimization for vibroacoustic problems - Ester Creixell-Mediante, Danmarks Tekniske Universitet, Oticon A/S
16:00-16:20 (20min)
14:20 - 16:20 (2h)
CHI 1: Characterization and Identification 1
C1
› Characterisation of local homogenized complex Young's Modulus of curved beam in composite material by using an inverse method and a finite element operator - Paul BOTTOIS, Laboratoire d'acoustique de l'université du Maine
14:20-14:40 (20min)
› Comparison of Johnson Champoux Allard and size distribution model for characterisation of rigid frame porous materials - Ferina Saati, Chair of Vibroacoustics of Vehicles and Machines
14:40-15:00 (20min)
› Identification of Coupled Degrees of Freedom at the Interface between Sub-Structures - andrew elliott, University of Salford
15:00-15:20 (20min)
› Identification of rail contribution to pass-by noise by a modified wave signature extraction (WSE) method - Ines Lopez Arteaga, Department of Mechanical Engineering, Eindhoven University of Technology, The Marcus Wallenberg Laboratory for Sound and Vibration Research (MWL), KTH Royal Institute of Technology (MWL)
15:20-15:40 (20min)
› Identification of sources through a probabilistic approach: application to vehicles in real usage conditions - Gianluigi Brogna, Laboratoire Vibrations Acoustique
15:40-16:00 (20min)
› Predicting the vibration response of panels under a turbulent boundary layer excitation from their measured sensitivity functions - Laurent MAXIT, Université de Lyon - INSA Lyon
16:00-16:20 (20min)
14:20 - 16:20 (2h)
NVC 2: Noise and Vibration Control 2
C2
› Bending waves in a checkerboard phononic crystal - Bart Van Damme, Empa, Laboratory for Acoustics/Noise Control
14:20-14:40 (20min)
› Low frequency resonant bandgaps in platonic crystals made of N-beam resonators - Penglin Gao, Wave Phenomena Group, Department of Electronic Engineering, Universitat Politècnica de València, Camino de vera s.n. (Building 7F), ES-46022 Valencia, Spain, Center for Composite Materials, Harbin Institute of Technology, Harbin 150001, China
14:40-15:00 (20min)
› Validation of shifted cell approach for the modelling of acoustic properties of porous materials embedding periodic inclusions - Dario Magliacano, Università degli Studi di Napoli "Federico II", Université de Franche-Comté
15:00-15:20 (20min)
› Bandgap capability of hybrid kirigami inspired cellular structures - Simone Del Broccolo, Advanced Composites Centre for Innovation and Science
15:20-15:40 (20min)
› Vibro-acoustic metamaterials for increased STL in acoustic resonance driven environments - Claus Claeys, DMMS lab, Flanders Make, Department of Mechanical Engineering, KU Leuven
15:40-16:00 (20min)
› Multi-Frequency Ultrasonic Sensors with Locally Distributed Resonators - Johannes Henneberg, Chair of Vibroacoustics of Vehicles and Machines, Robert Bosch GmbH, Corporate Research
16:00-16:20 (20min)
› A fully automated high-speed optical rig for in vacuo, full field, non-contact vibration measurements for viscoelastic, anisotropic materials - Luca Manzari, KTH Royal Institute of Technology, Department of Aeronautical and Vehicle Engineering
17:00-17:20 (20min)
› Sparse holography from iterated Bayesian focusing - Laurent GILQUIN, Institut national des sciences appliquées de Lyon
17:20-17:40 (20min)
› Implementation of a Sound Measurement System Based on an Optical Method for the Primary Free-field Microphone Calibration and the Realisation of the Acoustic Pascal - Wan-Ho Cho, Korea Research Institute of Standards and Science
17:40-18:00 (20min)
› Damage assessment of a sandwich composite panel by means of digital image correlation - Giuseppe Petrone, University of Naples Federico II – Aerospace Division
18:00-18:20 (20min)
17:00 - 18:20 (1h20)
MNM 1: Modelling and Numerical Methods 1
C1
› Computational method of the non-stationary random responses for non-viscously damped structure systems - Qimao Liu, ABB Corporate Research Center
17:00-17:20 (20min)
› On the modeling of multilayer systems with mechanical links - Fabien Chevillotte, Matelys - Research Lab
17:20-17:40 (20min)
› Wave scattering in coupled composite plates - Nurkanat Aimakov, University of Nottingham
17:00-17:20 (20min)
› Assessment of a contour integral method for the nonlinear eigenvalue problem arising from the wave finite element description of two-dimensional periodic waveguides involving dissipative and frequency dependent properties media - luca alimonti, ESI US R&D
17:20-17:40 (20min)
› A wave finite element technique for the calculation of the flow-induced vibrations of periodic and axial-symmetric structures - Fabrizio ERRICO, Laboratoire de Tribologie et Dynamique des Systèmes
17:40-18:00 (20min)
› Prediction of Noise Transmission through Honeycomb Sandwich Panels Using a Wave and Finite Element Method - Yi Yang, Faculty of Engineering [Auckland] - Brian Mace, Faculty of Engineering [Auckland] - Michael Kingan, Faculty of Engineering [Auckland]
18:00-18:20 (20min)
› Energy exchange between two sub-systems coupled with a nonlinear elastic path - Osman Taha Sen, Istanbul Technical University
09:00-09:20 (20min)
› A pragmatic approach to estimate the dynamic loads of components with nonlinear uncertain interfaces - Edoardo MENGA, Airbus Operations SL - Loads and Aeroelasticity Department
09:20-09:40 (20min)
› Metal-plastic composites with amplitude dependent damping - Matthias Klaerner, Technische Universität Chemnitz
09:40-10:00 (20min)
9:00 - 10:20 (1h20)
MNM 2: Modelling and Numerical Methods 2
C1
› Always on Safe Ground: On constructing and validating of 3D Finite Element Models for Power Train Vibration Simulation - Patrick Langer, Chair of Vibroacoustics of Vehicles and Machines
09:00-09:20 (20min)
› A FEM/BEM based topology optimization of submerged bi-material shell structures under harmonic excitations - Wenchang Zhao, CAS Key Laboratory of Mechanical Behavior and Design of Materials, Department of Modern Mechanics, University of Science and Technology of China
09:20-09:40 (20min)
› Investigation of acoustic radiation damping by means of coupled numerical analysis - Suhaib Koji Baydoun, Chair of Vibroacoustics of Vehicles and Machines
09:40-10:00 (20min)
› Iterative Solution Schemes for the Acoustic Boundary Element Method - Christopher Jelich, Chair of Vibroacoustics of Vehicles and Machines
10:00-10:20 (20min)
9:00 - 10:20 (1h20)
NVC 3: Noise and Vibration Control 3
C2
› Finite element simulations of the acoustic black hole effect in duct terminations - Davide Ghilardi, La Salle, Universitat Ramon Llull
09:00-09:20 (20min)
› Tunability of the resonant modes of an Acoustic Black Hole -
09:20-09:40 (20min)
› Exploration of admissible shape functions in semi-analytical model to characterize one-dimensional acoustic black hole beams - Jie Deng, The State Key Laboratory of Mechanical Transmission, College of Automotive Engineering, Chongqing University, Chongqing 400044, P. R. China
09:40-10:00 (20min)
› Perfect absorption of flexural waves by applying the critical coupling conditions - Vicente Romero-García, LAUM, UMR 6613 CNRS
10:00-10:20 (20min)
FORUM II: Non-linear vibration and noise. Presentations + Discussion.
AUDITORIUM
Chair: Prof. Rajendra Singh; Keynote speakers: Prof. Gaetan Kerschen, Dr. Sebastian Oberst, Prof. Kon-Well Wang
› Nonlinear Dynamics: Towards a paradigm change via evidence-based complex dynamics modelling - Sebastian Oberst, University of Technology Sydney, Centre for Audio, Acoustics and Vibration (CAAV), Faculty of Engineering and Information Technology
11:00-11:30 (30min)
› Resonances of nonlinear mechanical systems: a nonlinear normal mode perspective - Gaëtan Kerschen, Aerospace and Mechanical Engineering Department
11:30-12:00 (30min)
› Harnessing Nonlinear Multistable Dynamics – An Emerging Approach for Vibration Engineering - Kon-Well Wang, Department of Mechanical Engineering, University of Michigan
12:00-12:30 (30min)
› A hybrid numerical approach in the medium frequency range for vibroacoustic analysis - Juan Pedro Palacios Domingo, ESI Group
14:20-14:40 (20min)
› Transient acoustic predictions using an equivalent source technique coupled to a nonlinear finite element solver - Robert Campbell, Applied Research Laboratory/Penn State University
14:40-15:00 (20min)
› Assessment of Statistical Sampling Methods and Approximation Models Applied to Aeroacoustic and Vibroacoustic Problems - Till Biedermann, University of Applied Sciences Duesseldorf
15:00-15:20 (20min)
› An experimental investigation of vibrating plates in similitude and the possibility to replicate the responses using sensitivity-based scaling laws - Christian Adams, Technische Universität Darmstadt
15:20-15:40 (20min)
› Scaling laws for flat plate vibroacoustic response induced by deterministic and random excitations - Francesco Franco, PastaLab - Università degli Studi di Napoli "Federico II"
15:40-16:00 (20min)
› Time-Space Identification of Mechanical Impacts and Distributed Random Excitations on Plates and Membranes - Alain Berry, Groupe d'Acoustique de l'Université de Sherbrooke
16:00-16:20 (20min)
14:20 - 16:20 (2h)
SRT 2: Sound Radiation and Transmission 2
C1
› Vibration rendering for generating double radiators and baffle on a plate - Jung-Han Woo, Korea Advanced Institute of Science and Technology
14:20-14:40 (20min)
› Transmission loss simulations for floor systems with composites of scrap tire rubber particles and adhesive mortar - Andrea Carolina Corredor Bedoya, School of Mechanical Engineering, University of Campinas
14:40-15:00 (20min)
› Modeling tyre/road noise in FE simulations for pass-by noise predictions - Thibault Lafont, Autoneum Management AG
15:00-15:20 (20min)
› Methodology to evaluate the uncertainty of train exterior noise predictions - Eduardo Latorre Iglesias, Alstom
15:20-15:40 (20min)
› Construction and characterization of an omnidirectional parametric loudspeaker consisting of ultrasound transducers set on a sphere - Marc Arnela, La Salle, Universitat Ramon Llull
15:40-16:00 (20min)
14:20 - 16:20 (2h)
FAC: Flow Acoustics
C2
› A computationally efficient approach to predict the acoustic fields from a cylinder in cross flow - Paul Croaker, School of Mechanical and Manufacturing Engineering, UNSW Australia, Sydney, Australia
14:20-14:40 (20min)
› Noise induced in a cylindrical towed model from separated/reattached turbulent flows - Jan Abshagen, Bundeswehr Technical Center WTD 71
14:40-15:00 (20min)
› An insight into the nature of the valve self-excited oscillation noise from a 1D simulation - Atsushi Itoh, Mitsubishi Motors Ltd
15:00-15:20 (20min)
› Recommendations on Dynamic Pressure Sensor Placement for Transonic Wind Tunnel Tests - Michael Yang, ATA Engineering, Inc.
15:20-15:40 (20min)
› Numerical prediction of pipe flow noise and vibration at low Mach number - florian hugues, University of Compiègne
15:40-16:00 (20min)
› Wavenumber Analyses of Panel Vibrations Induced by Supersonic Wall-Bounded Jet Flow from an Upstream High Aspect Ratio Rectangular Nozzle - Stephen Hambric, ARL/Penn State
16:00-16:20 (20min)
› Early Stage Design of Quiet Structures Based on Statistical Energy Analysis - Hiroki Nakamura, Kanagawa University
17:00-17:20 (20min)
› High-frequency vibro-acoustics simulation for an agricultural tractor using combined DEA/SEA analysis - Gregor Tanner, University of Nottingham
17:20-17:40 (20min)
› A hybrid transfer matrix–statistical energy analysis approach to robust sound transmission modelling - Carolina Decraene, KU Leuven, Department of Civil Engineering, Structural Mechanics Section
17:40-18:00 (20min)
› Uncertainty bounds of energies predicted by MODal ENergy Analysis method - Nicolas TOTARO, Laboratoire Vibrations Acoustique
18:00-18:20 (20min)
17:00 - 18:00 (1h)
AEA 2: Advanced Experimental Analysis 2
C1
› Monitoring of residual stresses in composite pressure vessels via modal analysis - Sebastian John, Bundesanstalt für Materialforschung und –prüfung
17:00-17:20 (20min)
› Verification of underwater radation efficiency using FE/BE coupled model and measurements - Dooho Lee, Dongeui Unversity
17:20-17:40 (20min)
› Experimental Investigation of Water-Cooled Centrifugal Chiller Sound Radiation - Stephen Wells, ARL/Penn State
17:40-18:00 (20min)
17:00 - 18:20 (1h20)
NVC 4: Noise and Vibration Control 4
C2
› Visco-thermal effects on an acoustic cloak based on scattering cancellation - Peter Risby Andersen, Centre for Acoustic-Mechanical Micro Systems, Technical University of Denmark
17:00-17:20 (20min)
› Energy propagation control by changing contact parts interposed between double-walled cylindrical structures - Yoshitake Kamijo, Toshiba corporation
17:20-17:40 (20min)
› Improving Ride Comfort and Trackwear of Two-Axle Railway Vehicles Using Inerter-Based Lateral Suspension Layouts - Timothy Lewis, Faculty of Engineering [Bristol]
17:40-18:00 (20min)
› Using topological modes to enhance energy harvesting from elastic waves - José Roberto Arruda, School of Mechanical Engineering, State University of Campinas
18:00-18:20 (20min)
› Turbulent Boundary Layer Noise Analysis using Energy Flow Analysis - Suk-Yoon Hong, Seoul National University, Center for Naval Ship Engineering
09:00-09:20 (20min)
› Structural Design Implementation by Structural Intensity Analysis - Takeshi Miyama, Kanagawa University
09:20-09:40 (20min)
› Investigation of non-conservative Fluid-Structure-Junctions using the Energy Flow Method - Mark Teschner, Airbus Group Innovations
09:40-10:00 (20min)
› Parametric uncertainty quantification of sound transmission measurement procedures with a maximum entropy approach - Cédric Van hoorickx, KU Leuven, Department of Civil Engineering, Structural Mechanics Section
10:00-10:20 (20min)
9:00 - 10:20 (1h20)
CHI 2: Characterization and Identification 2
C1
› Time-reversed infinite elements and their application to scatterer and source identification - Sjoerd van Ophem, KU Leuven, Department of Mechanical Engineering, DMMS lab, Flanders Make
09:00-09:20 (20min)
› Sound source localization using multiple microphones attached on the wearable glasses - Kang-Ho Park, Electronics and Telecommunications Research Institute (ETRI)
09:20-09:40 (20min)
› A stationary iterated multiplicative regularization for force reconstruction problems - Mathieu Aucejo, Structural Mechanics and Coupled Systems Laboratory
09:40-10:00 (20min)
› Localisation and identification of sources on laminated structures: extension of CFAT method - Fabien Marchetti, Laboratoire Vibrations Acoustique
10:00-10:20 (20min)
9:00 - 10:20 (1h20)
DAC: Duct Acoustics
C2
› Flow induced noise of resonators on the charged air side – arguing from theory, test stand measurements and simulations to solutions - Ralf Buck, Ralf Buck
09:00-09:20 (20min)
› Attenuating sound in large ductwork using reactive and dissipative silencers - Ray Kirby, University of Technology Sydney
09:40-10:00 (20min)
› System resonance control with microperforations in the wall of an open ended duct - Ignacio Perez, Dyson Technology Ltd
10:00-10:20 (20min)
› Structural Health Monitoring of a plate by Continuous Wavelet Transform - Silvia Milana, University of Rome La Sapienza - Department of Mechanical and Aerospace Engineering
14:20-14:40 (20min)
› Vibroacoustic analysis of double-wall sandwich panels with viscoelastic core: finite element reduced order model - walid larbi, Conservatoire National des Arts et Métiers
14:40-15:00 (20min)
› Vibro-acoustic response of a flat plate under turbulent boundary layer excitation - Mahmoud Karimi, School of Mechanical and Manufacturing Engineering, UNSW, Sydney, Australia
15:00-15:20 (20min)
› Emerging dynamic stiffness modelling of physical and chemical ageing rubber vibration isolators in the audible frequency range - Leif Kari, The Marcus Wallenberg Laboratory for Sound and Vibration Research (MWL), KTH Royal Institute of Technology
15:20-15:40 (20min)
14:20 - 15:40 (1h20)
MNM 3: Modelling and Numerical Methods 3
C1
› Two new implementations of viscous and thermal losses using the Boundary Element Method - Vicente Cutanda Henriquez, Centre for Acoustic-Mechanical Micro Systems, Technical University of Denmark
14:20-14:40 (20min)
› An extended transfer matrix model for the sound insulation of dual leaf structures with corrugated panels and structural connections - James Massaglia, University of Salford
14:40-15:00 (20min)
› An investigation of the suitability of an alternative boundary condition for an impedance eduction technique - Cheng Yang, Institute of Vibration, Shock and Noise, School of Mechanical Engineering, Shanghai Jiao Tong University, Shanghai, China
15:00-15:20 (20min)
› Validation of a FEM structure-borne sound radiation model for railway rolling noise - Gwenael Hannema, Laboratory for Acoustics/Noise Control, Empa - Swiss Federal Laboratories for Materials Science and Technology
15:20-15:40 (20min)
14:20 - 15:40 (1h20)
NVC 5: Noise and Vibration Control 5
C2
› On damping enhancement of vibrating elastic structures - Goran Pavić, Laboratoire Vibrations Acoustique
14:20-14:40 (20min)
› Influence of differnet measurement settings and methods on obtained damping values - Christian Geweth, TU Munich - Chair of Vibroacoustics of Vehicles and Machines
14:40-15:00 (20min)
› Hybrid model for rail fasteners stiffness optimization in railway-induced ground-borne vibration problems - Robert Arcos, Institute of Sound and Vibration Research, University of Southampton, Acoustical and Mechanical Engineering Laboratory, Universitat Politècnica de Catalunya
15:00-15:20 (20min)
› Attenuation of turbulent boundary layer induced vibration using water-repellent coatings - Elena Ciappi, National Research Council of Italy, Marine Technology Research Institute, Rome, Italy
15:20-15:40 (20min)
AUDITORIUM
