Accepted papers

 

Keynote speakers:

  • P.O. Sturesson, Driving Dynamics & Noise & Vibration Centre – Volvo Car Group.
  • E. Balmes, Ecole Nationale Supérieure d’Arts et Métiers – Laboratoire Procédés et Ingénierie en Mécanique et Matériaux (PIMM).

 

List of accepted papers:

Authors in bold are the submission’s presenting author.
List is sorted by first author:
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

A

  • Abboud, D., Marnissi, Y., and El-badaoui, M., ‘Semi-blind wiener filtering of mechanical source vibrations: theory and application to aircraft gearbox surveillance’, Safran Tech.
  • Abolfathi, A., and Park, M., ‘Developing and analysing an electromechanical model of a bio-inspired flapping wing mini uav’, University College London.
  • Aboulfotoh, N., and Twiefel, J.‘A study on important criteria for the effectiveness of piezoelectric energy harvesters under a constant volume’, Leibniz University Hannover.
  • Adamson, L. J., Fichera, S., and Mottershead, J. E., ‘Minimisation of the effect of aleatory uncertainties on dynamic systems by active control using the method of receptances’, University of Liverpool.
  • Adhikari, S., and Friswell, M., ‘A stochastic multidomain approach for mid-frequency vibration problems’, Swansea University.
  • Ahsani, S., Boukadia, R., Deckers, E., Claeys, C., and Droz, C., ‘Diffusion based homogenization method for one dimensional locally resonant system’, KU Leuven.
  • Aimakov, N., Tanner, G., and Chronopoulos, D., ‘Wave scattering in coupled composite plates’, University of Nottingham.
  • Akkaoui, Q., Capiez-Lernout, E., Soize, C., and Ohayon, R., ‘Nonlinear dynamical analysis of a fluid-structure computational model with sloshing and capillarity’, Laboratoire Modélisation et Simulation Multi Echelle (MSME).
  • Alessio, C., Park, D., Mundo, D., and Tamarozzi, T., ‘Modal behavior and transient dynamic analysis of a planetary gear train with time-varying gear mesh stiffness using a multibody model’, University of Calabria.
  • Alkam, F., and Lahmer, T., ‘Detecting changes in the dynamic behavior of catenary poles using signal processing, ssi, and parameter identification’, Bauhaus University Weimar.
  • Alkmim, M. H., Cuenca, J., De Ryck, L., and Göransson, P., ‘Model-based acoustic characterisation of duct components and extrapolation to inhomogeneous thermal conditions’, Siemens Industry Software.
  • Allemang, R. J., Phillips, A. W., and Brown, D. L., ‘Impact testing lightweight structures’, UC-SDRL.
  • Alujević, N., Ćatipović, I., Senjanović, I., Vladimir, N., and Malenica, Š., ‘Ship roll control and energy harvesting using an anti-roll tank’, University of Zagreb.
  • Alvarez Blanco, M., Csurcsia, P. Z., Janssens, K., Peeters, B., and Desmet, W., ‘Nonlinearity assessment of mimo electroacoustic systems for direct field environmental acoustic testing’, Siemens Industry Software NV.
  • Álvarez-Briceceño, R. P., and de Oliveira, L. P. R.‘Random force identification via kalman filtering on a cantilevered structure’, EESC-USP.
  • Amador, S. D. R., Andersen, S., Friis, T., Katsanos, E., and Brincker, R., ‘On the application of one-step fe model updating technique for actual stress estimation in an off-shore platform model’, Technical University of Denmark.
  • Anastasopoulos, D., De Roeck, G., and Reynders, E. P. B., ‘Modal strain identification using sub-microstrain fiber-optic bragg grating data for damage detection of prestressed concrete structures’, KU Leuven.
  • Antonelli, D., Nesi, L., Pepe, G., and Carcaterra, A., ‘Mechatronic control of the car response based on vfc’, Sapienza università di Roma.
  • Antoni, J., Borghesani, P., Kass, S., Raad, A., and Gryllias, K., ‘Methodologies for designing new condition indicators’, University of Lyon.
  • Antoniadis, I., and Paradeisiotis, A.‘A periodic acoustic meta-material concept incorporating negative stiffness elements for low-frequency acoustic insulation/absorption’, National Technical University of Athens.
  • Aravanis, T.-C. I., Sakellariou, J. S., and Fassois, S. D.‘A stochastic functional model based method for vibration based fault detection under variable non-measurable operating conditions with application to railway vehicle suspensions’, University of Patras.
  • Asrih, K., Naets, F., and Desmet, W., ‘Inertia optimization of a high-speed cutting mechanism under dynamic displacement constraints’, Ku Leuven.
  • Assis, G. F. C. A., Miranda Jr., E. J. P., Camino, J. F., dos Santos, J. M. C., and Arruda, J. R. F.‘Computing the dispersion diagram and the forced response of periodic elastic structures using a state-space formulation’, University of Campinas.

B

  • Balaji, N. N., and Brake, M. R. W.‘The surrogate system hypothesis for joint mechanics: statement and evaluation through empirical parameter estimation’, Rice University.
  • Balla, V. K., Greco, F., Deckers, E., Pluymers, B., Desmet, W., and Vadakkel, G., ‘Damping enhancement of sheet-metal through shot peening process to improve vibro-acoustic performance’, KU Leuven.
  • Barbeau, R., Weisser, T., Aubry, E., Dupuis, R., and Baudu, S., ‘A robust design approach to optimize the vibrational comfort of automotive seats’, Université de Haute-Alsace.
  • Barnard, A.‘Active noise control in pipes and ducts using carbon nanotube thermophones’, Michigan Technological University.
  • Bartel, T., Atzrodt, H., and Wilczynski, D., ‘Active vibration reduction on a quadrocopter’, Fraunhofer LBF.
  • Battarra, M., and Mucchi, E., ‘Detecting cavitation inception in external gear pumps by means of vibro-acoustic measurements’, University of Ferrara.
  • Battiato, G., and Firrone, C. M., ‘Reduced order modeling for forced response predictions of structures with large contact interfaces’, Politecnico di Torino.
  • Battista, G., Chiariotti, P., Martarelli, M., and Castellini, P., ‘Inverse methods in aeroacoustic three-dimensional volumetric noise source localization’, Università Politecnica delle Marche.
  • Bayani, M., Al Hanna, N., Székely, A. P., Söderberg, R., Wickman, C., and Viktorsson, H., ‘Nonlinear modelling and simulation of impact events and validation with experimental data’, Chalmers University of Technology / Volvo Car Corporation.
  • Beberniss, T.‘Full field random dynamic strain measurement of a panel subjected to mach 2 flow’, United States Air Force Research Lab.
  • Becht, P., Deckers, E., Claeys, C., Pluymers, B., and Desmet, W., ‘Efficiently assessing changes in boundary conditions using vibro-acoustic information’, KU Leuven.
  • Becker, W. E., and Worden, K., ‘Probabilistic identification of system nonlinearities using gaussian process narx models’, European Commission – Joint Research Centre.
  • Beneš, P., Neusser, Z., Šika, Z., and Valášek, M., ‘Wave-based control of a planar mechanical structure by piezoelectric actuators’, CTU in Prague, Faculty of Mechanical Engineering.
  • Benzoni, L., Braghin, F., Tramaglia, F., and Marchetti, L., ‘Uneven vane spacing design for reducing noise emission in a variable displacement vane oil pump’, Politecnico di Milano.
  • Berardengo, M., Manzoni, S., Vanali, M., and Conti, A. M., ‘Passive multi-mode piezoelectric shunt damping: an approach based on matrix inequalities’, Università degli Studi di Parma.
  • Bergeot, B., Berger, S., and Bellizzi, S., ‘Mitigation of friction-induced vibrations in braking systems: prediction of the mitigation limit’, INSA Centre Val de Loire.
  • Bhowmik, B., Hazra, B., and Pakrashi, V., ‘Recursive first order eigen perturbation towards real time structural health monitoring’, Indian Institute of Technology Guwahati.
  • BI, S., Broggi, M., Beer, M., and Zhang, Y., ‘Bayesian model updating using stochastic distances as uncertainty quantification metrics’, Leibniz University Hannover.
  • Biedermann, J., Winter, R., Norambuena, M., and Böswald, M., ‘A hybrid numerical and experimental approach for structural intensity analysis of stiffened lightweight structures’, DLR – German Aerospace Center.
  • Bigelow, H., Hoffmeister, B., and Feldmann, M., ‘Simplified design of filler beam railway bridges for high-speed traffic’, RWTH Aachen University.
  • Blachowski, B., Swiercz, A., and Jankowski, L., ‘Virtual distortion method based optimal sensor placement for damage identification’, Institute of Fundamental Technological Research.
  • Blanco, B., Kari, L., Gil-Negrete, N., and Alonso, A., ‘Modelling of the track supports with elements over elastic foundation together with dynamic internal degrees of freedom’, Ceit.
  • Blondeel, P., Robbe, P., Van hoorickx, C., Lombaert, G., and Vandewalle, S., ‘The multilevel monte carlo method applied to structural engineering problems with uncertainty in the young’s modulus’, KULeuven.
  • Bolien, M., and du Bois, J. L., ‘Real-time hybrid testing of non-linear systems’, University of Bath.
  • Bonisoli, E., Lisitano, D., and Dimauro, L., ‘Experimental and numerical mode shape tracing from components to whole motorbike chassis’, Politecnico di Torino.
  • Bonney, M. S., and Zabiego, M., ‘Model validation for the rbc-type control rods in astrid during seismic activities’, CEA Cadarache.
  • Borello, G., and Gagliardini, L., ‘Narrow band analysis of structure borne noise in complex dynamical systems using energy methods’, InterAC.
  • Borges, R. A., Rodovalho, L. F. F., and Rade, D. A.‘Stochastic analysis of the modal characteristics of rectangular plates under random temperature variations’, Aeronautics Institute of Technology.
  • Böswald, M., and Tang, M., ‘Hardware-in-the-loop testing using a hydraulic shaking table’, DLR – German Aerospace Center.
  • Böswald, M., Gröhlich, M., Biedermann, J., and Winter, R., ‘Analysis and simulation of structures with local visco-elastic damping from elastomers’, DLR – German Aerospace Center.
  • Boucher, M., Stroobants, J., Jonckheere, S., van Poppel, S., and Pluymers, B., ‘Multi-attribute evaluation of concept variants for lightweight structures’, Katholieke Universiteit Leuven.
  • Boukadia, R. F., Deckers, E., Claeys, C., Droz, C., and Ichchou, M., ‘Model order reduction in unit cell modeling and its application to complex structures’, KU Leuven.
  • Bourgana, T., Deckers, E., Jonckheere, S., Boukadia, R., Chevallier, G., and Ouisse, M., ‘Viscoelastic parameter identification using iwc method and reduced wave finite element method’, KU Leuven.
  • Brecher, C., Chavan, P. S., and Fey, M., ‘An approach for in situ identification of joint dynamics in machine tools using inverse receptance substructuring’, RWTH Aachen University.
  • Brizard, D.‘Experimental measurement and associated uncertainty of wave velocity in hopkinson bars with an accurate and robust method’, Ifsttar.
  • Brøns, M., Thomsen, J. J., Sah, S. M., Tcherniak, D., and Fidlin, A., ‘Modal impact testing for estimating bolted joint tightness’, Technical University of Denmark.
  • Brown, A. K. M., Hill, T. L., and Neild, S. A., ‘Investigating a mechanism which causes divergence of a resonant decay from the backbone curve’, University of Bristol.
  • Brunetti, J., D’Ambrogio, W., Fregolent, A., and Lacerra, G., ‘Transmission of vibrations between towed and towing agricultural machines’, Università di Roma La Sapienza.
  • Brunetti, J., D’Ambrogio, W., and Fregolent, A., ‘Contact problems in the framework of dynamic substructuring’, Università dell’Aquila.
  • Brunetti, J., D’Ambrogio, W., Hoffmann, N., and Massi, F., ‘Investigating the bi-stable behavior of a lumped system with frictional contact’, Università dell’Aquila.
  • Bucher, I.‘Contactless 3d manipulation of silicon wafers using acoustic levitation’, Technion.
  • Buck, F., Hetzler, H., Fruend, E., and Oexl, S., ‘Energy dissipation during sloshing in baffled fuel tanks’, University of Kassel.
  • Bui, T. A., Lardeur, P., and Oudjene, M., ‘Experimental study of vibration uncertainty of multilayered timber beams assembled through compressed wood dowels’, Université de Lorraine.
  • Burgert, J., Moilanen, C., Seemann, W., Montonen, J., Miettinen, J., and Saarenrinne, P., ‘Pneumatic single hit test rig for analysis of the stress wave profile of non-uniform impacting rods’, Karlsruhe Institute of Technology (KIT).
  • Buzzoni, M., Soave, E., D’Elia, G., Mucchi, E., and Dalpiaz, G., ‘A diagnostic protocol for the monitoring of bearing fault evolution based on blind deconvolution algorithms’, University of Ferrara.
  • Byrtus, M., Hajzman, M., Pesek, L., and Pust, L., ‘Influence of internal friction dampers on global dynamics of discrete cyclic structure’, University of West Bohemia.

C

  • Camino, J. F., and Santos, I. F., ‘A periodic h2 state feedback controller for a rotor-blade system’, University of Campinas.
  • Campana, M.-A., Scarpa, F., Ouisse, M., and Sadoulet-Reboul, E., ‘Wave propagation in an auxetic core embedding resonators’, University of Bristol.
  • Camperi, S., Ghandchi-Tehrani, M., and Elliott, S., ‘Experimental decentralised control of vibration on a plate with inertial actuators’, ISVR – University of Southampton.
  • Campos, N. B. F., and Dos Santos, J. M. C., ‘A domain load formulation for a beam spectral element’, Federal Institute of Education, Science and Technology of Sao Paulo.
  • Capiez-Lernout, E., and Soize, C., ‘Uncertain quantification in nonlinear dynamics with an high-dimensional computational model’, Universite Paris-Est.
  • Carassale, L., Bruzzone, S., Cavicchi, A., and Marrè Brunenghi, M., ‘Effects of geometric uncertainties in the dynamic properties of rotor blades’, University of Genova.
  • Carcaterra, A., Roveri, N., and Akay, A., ‘Connectivity in waves and vibrations: one-to-six, one-to-all, all-to-all and random connections’, Sapienza, University of Rome.
  • Carniel, X., Champain, J., Gardin, T., and Pavic, G., ‘Characterization of dynamic forces generated by an active component: experimental validation of the block sensor method’, CETIM.
  • Carvalho de Sousa, A., Bartczak Camargo, M., Lenzi, A., Claey, C., and Deckers, E., ‘Optimisation and testing of dead-end pore structure for sub-wavelength sound absorption’, KU Leuven.
  • Castellani, F., Astolfi, D., Becchetti, M., and Berno, F., ‘Experimental damage detection on small wind turbines through vibration and acoustic analysis’, University of Perugia.
  • Chauvicourt, F., Faria, C., Gyselinck, J., and Desmet, W., ‘Alternative lamination stacking technique of stator cores for improved structural damping of electric machines’, Siemens Industry Software NV.
  • Chen, J., Melling, J., and Joseph, P., ‘Experimental evaluation of a new two-microphone method for the mode detection and radiation of broadband noise in ducts’, University of Southampton.
  • Chen, Z., Li, W., and Gryllias, K., ‘Gearbox fault diagnosis based on convolutional neural networks’, KU Leuven.
  • Chi, X., Di Maio, D., and Lieven, N. A. J., ‘Dynamic response and energy loss in jointed structures using finite element methods: application to an aero-engine casing assembly’, University of Bristol.
  • Chipato, E. T., Shaw, A. D., and Friswell, M. I., ‘Frictional effects on the synchronisation of partial contact in rotating machinery’, Swansea University.
  • Christensen, S. S., and Brandt, A., ‘Automatic operational modal analysis using statistical modelling of pole locations’, University of Southern Denmark.
  • Cieslak, M. P., Kanarachos, S., Blundell, M., and Burnett, M., ‘Subjective vehicle ride comfort evaluation using machine learning: a case study’, Coventry University.
  • Clasing Villanueva, M. E. S., Claeys, C., Rocha de Melo Filho, N. G., Geurts, K., Van de Weyenberg, I., Campestrini, P., Deckers, E., and Pluymers, B., ‘Design tool for practically feasible metamaterials based on their nvh performance’, KU Leuven.
  • Cocconcelli, M., Cavalaglio Camargo Molano, J., and Rubini, R., ‘Experimental validation of a bearing fault model for an independent cart conveyor’, University of Modena and Reggio Emilia.
  • Cofré, S., Kobrich, P., López Droguett, E., and Meruane, V.‘Transmissibility based structural assessment using deep convolutional neural network’, Universidad de Chile.
  • Colangeli, C., Lanslots, J., Paillasseur, S., Janssens, K., and Lamotte, L., ‘Angle domain sound source localization for powertrain noise analysis’, Siemens Industry Software NV.
  • Cool, V., Naets, F., Rottiers, W., and Desmet, W., ‘Parametric model order reduction for efficient frequency response evaluation’, KU Leuven.
  • Cooper, J.‘Flutter testing using ambient responses’, University of Bristol.
  • Coppo, F., Rezaei, A. S., Mezzani, F., Pensalfini, S., and Carcaterra, A., ‘Waves path in an elastic membrane with selective nonlocality’, Sapienza universita` di Roma.
  • Costa, N. C., Camargo, E. A., and Pirk, R., ‘Identification and comparison of modal parameter in a structure during the vibration test using operational modal analysis’, B&K.
  • Criscuolo, L., Denayer, H., De Roeck, W., and Desmet, W., ‘Experimental analysis of aeroacoustic instabilities in helmholtz resonators’, KU Leuven.
  • Crispin, C., Mertens, C., and Dijckmans, A., ‘Empirical formula for the vibration reduction index of junctions with different coplanar walls’, BBRI.
  • Csurcsia, P. Z., Peeters, B., and Schoukens, J., ‘Regularized time-varying operational modal analysis illustrated on a wind tunnel testing measurement’, Vrije Universiteit Brussel.
  • Csurcsia, P. Z., Peeters, B., and Schoukens, J., ‘The best linear approximation of mimo systems: first results on simplified nonlinearity assessment’, Vrije Universiteit Brussel.
  • Cuenca, J., Göransson, P., De Ryck, L., and Lähivaara, T., ‘Inverse parameter estimation in resonant, coupled fluid-structure interaction problems’, Siemens Industry Software.
  • Cumbo, R., Tamarozzi, T., Janssens, K., and Desmet, W., ‘Investigation of virtual sensing techniques on a rear twistbeam suspension by performing multiple-input/state estimation’, Siemens Industry Software.

D

  • Dal Borgo, M., Ghandchi Tehrani, M., and Elliott, S. J., ‘Nonlinear feedback control of a stroke limited inertial actuator using a state estimation approach’, University of Southampton.
  • Dannemann, M., Kucher, M., Weber, M.-T., and Modler, N., ‘An experimental investigation of the three-dimensional vibration characteristics of ultrasonic irrigation files’, Technische Universität Dresden, Institute of Lightweight Engineering and Polymer Technology (ILK).
  • DARLEUX, R., LOSSOUARN, B., and DEÜ, J.-F., ‘Effect of temperature on the tuning of a piezoelectric resonant shunt composed of variable inductance and capacitance’, Laboratoire de Mécanique des Structures et des Systèmes Couplés (LMSSC).
  • De Avillez, J.‘Examining the impact of critical building structural elements on the building’s vibration responsiveness’, WSP.
  • De Bono, E., Collet, M., and Karkar, S., ‘Numerical investigation on the performances of the distributed impedance control concept’, Ecole Centrale de Lyon.
  • de Gooijer, B. M., Hazrati-Marangalou, J., Geijselaers, H. J. M., and van den Boogaard, A. H., ‘An efficient strategy to describe the propagation of uncertainty through multi-stage metal forming processes’, University of Twente.
  • De Gregoriis, D., Naets, F., Kindt, P., and Desmet, W., ‘Towards a high-fidelity simulation approach for predicting coarse road dynamic tire/road contact forces using an ale-formulation and a-priori nonlinear hyper-reduction’, Goodyear SA Luxembourg/KU Leuven.
  • De Munter, W., Delabie, T., and Vandepitte, D., ‘Characterisation of small reaction wheel micro-vibrations’, KU Leuven.
  • de Ryck, L., Cuenca, J., Jambrosic, K., Glorieux, C., Rychtarikova, M., Romero-Garcia, V., Cebrecos, A., Jiménez, N., and Groby, J.-P., ‘Perceptual evaluation of metamaterials as insulation partitions: a listening test within the cost action denorms (ca15125)’, Siemens Industry Software NV.
  • Deckers, E., Van Belle, L., Zielinski, T. G., Jankowski, L., and Claeys, C., ‘Absorption enhancement using mass inclusions in poro-elastic materials: the influence of inclusion size’, KU Leuven.
  • Decraene, C., and Reynders, E., ‘Robust sound transmission modelling of finite-sized built-up walls and floors’, KU Leuven.
  • Decuyper, J., De Troyer, T., Runacres, M. C., Tiels, K., and Schoukens, J., ‘On selecting appropriate training data for black box modelling of an autonomous oscillator’, Vrije Universiteit Brussel.
  • Dekemele, K., Van Torre, P., and Loccufier, M., ‘Optimization of multi-modal targeted energy transfer performance of nonlinear passive vibration absorbers’, Ghent university.
  • Del Broccolo, S., Ouisse, M., Foltete, E., and Scarpa, F., ‘Interlocked hybrid-cell kirigami inspired cellular structures and their vibroacoustic performances’, FEMTO – ST UBFC.
  • del Val Puente, L., and López Arteaga, I., ‘Diagnostics based on acoustic array measurements and machine learning’, University of Valladolid.
  • Delhez, E. J., Golinval, J.-C., and Denoël, V., ‘Experimental evidence of the existence of different first passage time regimes in forced and parametrically excited systems’, Université de Liège.
  • D’Elia, G., Musella, U., Mucchi, E., Peeters, B., and Guillaume, P., ‘Drive power reduction procedure to fill in the multiple-input multiple-output random control reference matrix’, University of Ferrara.
  • Deng, T., Sheng, X., Ma, Y., and Li, J., ‘Simulations and experiments for vibro-acoustic behaviours of circular multi-layered plates’, Southwest Jiaotong University.
  • Denis, V., and Mencik, J.-M., ‘A wave-based optimization strategy of curved joints for improved defect detection in coupled waveguides’, INSA Centre-Val de Loire.
  • Devriendt, H., Vandepitte, D., and Desmet, W., ‘An efficient complex residue theorem based technique for the calculation of the response of dynamic systems with a single probabilistic parameter’, KU Leuven.
  • Di Maio, D.‘Modal analysis of an isolated nonlinear response mode using the nyquist circle properties: numerical study case’, University of Twente.
  • Ding, B., Watchi, J., and Collette, C., ‘Development of a high q factor pendulum for optical inertial sensor’, Université Libre de Bruxelles.
  • Dogančić, B., Alujević, N., Jokić, M., and Wolf, H., ‘Unstructured uncertainty modeling for coupled vibration systems’, Faculty of Mechanical Engineering and Naval Architecture.
  • Dolev, A., and Tresser, S., ‘Balancing rotating structures using slow-speed data via optimized parametric excitation and nonlinear feedback’, Technion – Israel Institute of Technology.
  • dos Santos, C. R., da Silva, M. M., and Marques, F. D., ‘Metamodel-based optimization of an energy harvester from stall-induced pitching oscillations of airfoils’, University of São Paulo.
  • Dowling, L., Flanagan, L., Rice, H., Trimble, D., and Kennedy, J.‘The use of a benchmark periodic metamaterial to inform numerical modelling and additive manufacturing approaches’, Trinity College Dublin.
  • Dowling, L., Mao, H., Flanigan, L., Kennedy, J., Rice, H., Trimble, D., and Goransson, P., ‘A combined design-manufacturing-testing investigation of micro- to macro-scale tailoring of open poroelastic materials based on perturbed kelvin cell micro-geometries’, KTH Royal Institute of Technology.
  • Drichel, P., Hudak, R., Berroth, J., and Jacobs, G., ‘Efficient uncertainty quantification for complex nvh drivetrain models with application to the interior sound prediction of an electric vehicle’, RWTH Aachen University.
  • Droz, C., Boukadia, R., Ichchou, M., and Desmet, W., ‘Diffusion-based design of locally resonant sub-systems using a reduced wave finite element framework’, Ecole Centrale de Lyon, LTDS.
  • Du, B., Liu, X., Wu, X., and Wang, Z.‘Microphone random arrangements for near-field acoustic holography based on compressive sampling’, Kunming University of Science and Technology.
  • Du, F., Wu, G., Ren, H., Yan, C., and Xu, C., ‘A multi-bolt loosening detection method of l-shaped bolt joint based on time reversal guided waves’, Northwestern Polytechnical University.

E

  • Ehrhardt, D. A., Gockel, B., and Beberniss, T., ‘Nonlinear response of a curved panel subjected to local thermal and distributed acoustic loading’, Ehrhardt Engineering LLC.
  • Elliott, A. J., Tartaruga, I., Cammarano, A., Dobson, P. S., and Neild, S. A., ‘Investigating reduced order models for nanoscale nonlinear structures’, University of Glasgow.
  • Errico, F., Ichchou, M., De Rosa, S., Bareille, O., and Franco, F., ‘A load approximation for the vibroacoustic analysis of periodic structures to fluid excitation’, Ecole Centrale Lyon.
  • Ertarla, S., Karadag, C. V., and Topaloglu, N.‘Analytical modeling of a cantilever beam type vibration energy harvester with a lever mechanism’, Yeditepe University.

F

  • Fabbrocino, F., Cecchini, F., Pepe, G., and Carcaterra, A., ‘Waves propagation in assembled pentamode modules’, Pegaso University.
  • Fabro, A., and Mencik, J.-M., ‘On the non-parametric modelling of uncertain elastic joints in periodic structures’, Universityof Brasília.
  • Faes, M., and Moens, D., ‘Quantification of cross-dependent interval fields based on modal data’, KU Leuven.
  • Faria, C.‘Relationships between modal and state-space second-order dynamic model realizations’, Siemens Industry Software.
  • Fazzolari, F. A., and Langley, R. S., ‘The statistical energy analysis of systems with nonlinear joints’, University of Liverpool.
  • Fernandes, J. C. M., and Silveira, M., ‘Optimising geometry and asymmetrical damping ratio to reduce vehicle vertical acceleration under stochastic road profile’, São Paulo State University (UNESP), School of Engineering, Bauru.
  • Ferreira, A. H. R., Dos Santos, J. M. C., Junior, E. J. M., Nóbrega, E. D., and Da Silva, R. R., ‘Low frequency noise reduction using acoustic metamaterial thick plate’, University State of Campinas.
  • Fezai, A., Sharma, A., and Zimmermann, A., ‘Inverse dynamic characterization of viscoelastic layers from experimental and operational modal analysis’, Robert Bosch GmbH.
  • Freund, J., Vöhringer, T., Bischof, T., and Michael, S., ‘Use cases for vehicle tpa: from shock absorbers to electric drive’, ZF Friedrichshafen AG.
  • Friis, T., Katsanos, E., Tarpø, M., Amador, S., and Brincker, R., ‘Output-only damping estimation of friction systems subjected to ambient loads’, Technical University of Denmark.
  • Friskney, B., Alevras, P., McFarland, D. M., Mohammad-Pour, M., and Theodossiades, S., ‘Experimental nonlinear energy sink for reducing vibrations of drivetrain components’, Loughborough University.
  • Fritzen, C.-P., Ginsberg, D., and Loffeld, O., ‘Vibration-based structural damage identification using sparsity constrained extended kalman filter concept’, University of Siegen.
  • Fuentes, R., Cross, E. J., Dervilis, N., and Worden, K., ‘On a probabilistic framework for outlier analysis’, University of Sheffield.
  • FUKUI, K., and NODA, T., ‘Electromagnetic vibration analysis of main transformer for railway’, mitsubishi eleceric corporation.
  • Furlich, J. E., Blough, J. R., and Robinette, D. L., ‘Application of stft and wavelet analysis to mt clunk data: a case study’, Michigan Technological University.
  • Furtmüller, T., Adam, C., and Veit-Egerer, R., ‘Mass loading and temperature compensation for long-term ambient measurement data of a highway bridge’, University of Innsbruck.

G

  • Gaborit, M., Göransson, P., and Dazel, O., ‘Simplification of the transfer matrix model for acoustic screens’, Le Mans Université & KTH Royal Institute of Technology.
  • Garcia, D., Tcherniak, D., Rufffini, V., and Branner, K., ‘Virtual prototyping of an actuator-based structural health monitoring system of wind turbine blades’, Univeristy of Strathclyde.
  • Gardner, P., Lord, C., and Barthorpe, R. J., ‘A multi-level uncertainty integration strategy for forward model driven shm’, University of Sheffield.
  • Gastaldi, C., and Gola, M. M., ‘Extension of pre-optimization concepts from solid to flexible dampers’, Politecnico di Torino.
  • Gastaldi, C., and Berruti, T. M., ‘Experimental verification of the dynamic model of turbine blades coupled by a sealing strip’, Politecnico di Torino.
  • Gaudin, A.‘Active damping of automotive driveline oscillations and its interactions with engine suspension’, Groupe PSA.
  • Germonpré, M., Papadopoulos, M., Degrande, G., and Lombaert, G., ‘The influence of the uncertainty on dynamic soil properties on the prediction of railway induced vibration’, KU Leuven.
  • Ghandchi Tehrani, M., and Pumhoessel, T., ‘Active vibration control of a system subject to random excitation using parametric impulsive damping’, University of Southampton.
  • Ghosh Dastidar, S., Faes, M., and Moens, D., ‘A twin mesh approach for interval field analysis in high dimensional dynamic models’, KU Leuven.
  • Giannelis, N. F., and Vio, G. A., ‘Frequency synchronisation of pitch-plunge aeroelastic systems experiencing autonomous shock oscillations’, The University of Sydney.
  • Giannini, O.‘Unstable forced response of gyroscopic systems with stable eigenvalues’, Università Niccolò Cusano.
  • Gibanica, M., Abrahamsson, T. J. S., and Bylin, A., ‘Experimental-analytical state-space synthesis of automotive components’, Chalmers university of Technology/Volvo Car Corporation.
  • Gibbons, T. J., Ozturk, E., Xu, L., and Sims, N. D., ‘Structural modification of tool holder geometry as a chatter avoidance method’, University of Sheffield.
  • Gil-Negrete, N., Nieto, J., Gonzalez-Prada, J., and Pradera-Mallabiabarrena, A., ‘On the dynamic stiffness of air-prings at medium-high frequencies’, University of Navarra.
  • Gioia, N., Peeters, C., Daems, P. J., Guillaume, P., and Helsen, J., ‘Dealing with harmonics in continuous modal analysis’, Vrije Universiteit Brussel.
  • Giunta, F., Muscolino, G., and Sofi, A., ‘A sensitivity-based approach for the dynamic analysis of structures with uncertain-but-bounded parameters’, University “Mediterranea” of Reggio Calabria.
  • Giunta, F., Muscolino, G., and Sofi, A.‘Fatigue analysis of wind excited structures with structural parameters affected by uncertainties described by interval variables’, University “Mediterranea” of Reggio Calabria.
  • Godinho, L., Albino, C., Alves-Costa, P., Amado-Mendes, P., and Pinto, A., ‘A numerical study on the shielding performance of a periodic vibration protection device’, University of Coimbra.
  • Gomez, E. R.‘Multiple order excitation and response of centrifugal pendulum vibration absorbers’, Scania CV AB / The Royal Institute of Technology.
  • Gonzalez Anaya, J. A., and Dunne, J. F., ‘Catastrophic event prediction associated with road vehicle dynamic responses and randomly uncertain suspension parameters’, University of Sussex.
  • González, D., and López-Valcarce, R., ‘Spectral and statistical evaluation of the properties of the vibration measured at the base of an automotive seat for non-gaussian random noise synthesis’, CTAG.
  • Gonzalez, M., Salgado, O., Croes, J., Pluymers, B., and Desmet, W., ‘Object-oriented model-based condition monitoring’, IK4-Ikerlan.
  • Gordon, V., Pilipenko, O., and Trifonov, V., ‘Dynamic effects at sudden structural rebuilding of the “beam- foundation” system’, Orel State University.
  • Goth, Y.‘Comparison of finite-element methods to compute the transmission error to noise transfer function of a simple gear box’, CETIM.
  • Gour, G., Jing, Z., Tjahjowidodo, T., Swee Hock, Y., and Castagne, S., ‘Experimental and numerical modelling of vibratory surface finishing trough’, Nanyang Technological University.
  • Govers, Y., Meddaikar, M. Y., and Sinha, K., ‘Model validation of an aeroelastically-tailored forward swept wing using fibre-optical strain measurements’, DLR – German Aerospace Center.
  • Goyder, H. G., and Lancereau, D., ‘Extracting natural frequency and damping from time histories. better than the frequency domain?’, Cranfield University.
  • Graczykowski, C., Orlowska, A., and Galezia, A., ‘Numerical and experimental investigation of prestress effect on natural frequencies of composite beams’, Institute of Fundamental Technological Research.
  • Graczykowski, C., and Faraj, R., ‘Self-adaptive fluid-based absorbers for impact mitigation and vibration damping’, Institute of Fundamental Technological Research.
  • Grasso, G., Jaiswal, P., and Moreau, S., ‘Monte-carlo computation of wall-pressure spectra under turbulent boundary layers for trailing-edge noise prediction’, Ecole Centrale de Lyon.
  • Greco, F., Deckers, E., Stroobants, J., Van Poppel, S., and Maurin, F., ‘Accurate product model development for the simulation of the dynamic behavior of deep drawn components’, KU Leuven.
  • Green, P. L., Chodora, E., and Atamturktur, S., ‘On the identification of model error through observations of time-varying parameters’, University of Liverpool.
  • Gres, S., Döhler, M., Andersen, P., and Mevel, L., ‘Variance computation of two popular modal indicator estimates from subspace identification’, Aalborg University.
  • Grigat, E.‘Sound propagation and immission model of a noise footprint calculation program for high performance military aircraft’, Airbus Defence and Space.
  • Guenfoud, N., Droz, C., Ichchou, M., Bareille, O., Pluymers, B., and Deckers, E., ‘Modelling and experimental measurements of the sound transmission loss for multi-layer core topology systems’, Ecole Centrale de Lyon.
  • Guimarães, G. P., and Ribeiro, I. T., ‘Experimental investigation on the acoustic impedance of helmholtz resonators using an accelerometer for the volume velocity source’, UFOP – Federal University of Ouro Preto.
  • Gundlach, J., and Govers, Y., ‘Approximation of displacement mode shapes from strain measurements with regard to variable boundary conditions’, German Aerospace Center (DLR).
  • Guo, N., Wang, T., Xu, C., Ren, H., and Yan, C., ‘Stochastic dynamic analysis of viscoelastic sandwich structures considering uncertainties’, Northwestern Polytechnical University.

H

  • Habtour, E., Di Maio, D., Homborg, A., and Tinga, T., ‘Damage precursor detection–control methodology using the interplay between local and global nonlinearities’, us army research laboratory.
  • Haeussler, M., Klaassen, S., and Rixen, D. J., ‘Comparison of substructuring based techniques for dynamic property identification of rubber isolators’, Technical University of Munich.
  • Hahn, E. J., Feng, N., and Yu, M., ‘Identification of the modal parameters of systems with general damping’, The University of New South Wales.
  • Hallez, R., Colangeli, C., Cuenca, J., Di Lorenzo, E., Musella, U., and Debille, J., ‘Assessment of the vibro-acoustic performance of an all-electric light aircraft based on ground and in-flight measurements’, Siemens Industry Software.
  • Hamiche, K., Bériot, H., Vansant, K., Atak, O., and Donders, S., ‘Efficient and accurate broadband fem-based vibro-acoustics’, Siemens Industry Software NV.
  • Hanford, A., Kerrian, P., Beck, B., and Capone, D., ‘Metamaterial characterization for acoustic cloaking applications’, The Pennsylvania State University.
  • Helsen, J., Peeters, C., Verstraeten, T., Verbeke, J., Gioia, N., and Nowé, A., ‘Fleet-wide condition monitoring combining vibration signal processing and machine learning rolled out in a cloud-computing environment’, Vrije Universiteit Brussel.
  • Henneberg, J., Gomez Nieto, J. S., Sepahvand, K., Gerlach, A., Cebulla, H., and Marburg, S., ‘The influence of uncertainties in periodic structures for vibro-acoustic problems’, Technical University of Munich.
  • Herrera, E.‘Acoustic metamaterial manufacturing via acoustic material conformance’, The Boeing Company.
  • Hoffait, S., Moschini, S., Ligot, J., and Simon, D., ‘Modal analysis tools at v2i: improved pre- and post-postprocessing with modified plsf algorithm’, V2i.
  • Hook, K., Cheer, J., and Daley, S., ‘A parametric study and modal analysis of an acoustic black hole on a beam’, The University of Southampton.
  • Hoppe, K.-A. H., Langer, P., and Marburg, S., ‘Efficient bolted joint modeling for industrial applications – empirical and analytical approaches’, Technical University of Munich.
  • Hose, D., and Hanss, M., ‘On inverse fuzzy arithmetical problems in uncertainty analysis’, University of Stuttgart.
  • House, C., Cheer, J., and Daley, S., ‘The effect of active vibration control on the sound field scattered from a flexible structure’, University of Southampton.
  • Hu, G., Zhao, B., Tang, L., Liang, J., and Das, R., ‘Optimization of cantilevered piezoelectric energy harvester with standard dc interface circuit’, The University of Auckland.

I

  • Imholz, M., Vandepitte, D., and Moens, D., ‘Identification and modelling of spatial uncertainty in resonance wood using non-deterministic fields’, KU Leuven.

J

  • Jackson, S.‘Statistical analysis of cup-horn ultrasonic proximity sensor output’, University of Bristol.
  • Jacobsen, N.-J., Gres, S., and Andersen, P., ‘Removal of harmonic components in operational modal analysis using a time domain orthogonal projection technique’, Brüel & Kjær Sound & Vibration Measurement.
  • JACQUIER, B.‘On-line tracking of aircraft aeroelastic modes during flutter flight tests’, ONERA.
  • Jahn, M., Tatzko, S., Panning-von Scheidt, L., and Wallaschek, J., ‘Computation of stationary and transient system responses using nonlinear modes of mechanical systems’, Leibniz Universität Hannover – Institute of Dynamics and Vibration Research.
  • Jalali, H., Haddad Khodaparast, H., and Friswell, M. I., ‘Identification of a stochastic model for bolted joints’, Swansea University.
  • JAMIA, N., FRISWELL, M. I., El-BORGI, S., and RAJENDRAN, P., ‘Blade tip timing based condition monitoring of bladed disks in rotating machines’, Swansea University.
  • Jiffri, S., Haddad Khodaparast, H., and Fichera, S., ‘Active control of a flexible wing in the presence of gust loads’, Swansea University.
  • JIN, C., and ZHANG, T., ‘Composite phononic crystals modelling and its application in vehicle noise control’, TONGJI UNIVERSITY.

K

  • Kaewunruen, S., Ngamkhanong, C., and Gota, K., ‘Dynamic responses of railway sleepers with under sleeper pads to high-intensity impact loads’, University of Birmingham.
  • Kanarachos, S., Kalliris, M., Blundell, M., and Kotsakis, R., ‘Wet road surface detection using acoustic measurements and anomaly detection’, Coventry University.
  • Kang, J., Liu, L., Zhou, S.-D., and Yu, L., ‘Operational modal analysis based on time-domain expansion of transmissibility’, Beijing Institute of Technology.
  • Kappauf, J., and Hetzler, H., ‘Bifurcations and limit cycles due to self-excitation in non-linear systems with joint friction – phenomena and approximation schemes’, University of Kassel.
  • Kapsalas, C. N., Fassois, S. D., and Sakellariou, J. S., ‘Non – stationary random vibration modeling and analysis: kernel tar and adaptable functional series tar methods’, University of Patras.
  • Karamooz Mahdiabadi, M., Gebhart, R., and Rixen, D. J., ‘Non-intrusive dynamic substructuring of geometrically nonlinear finite elements: enhancement with modal derivatives’, Technical University of Munich.
  • Karlos, A., and Elliott, S., ‘Reflections from elastic wedges of different thickness profiles’, University of Southampton.
  • Kasper, T., Tatzko, S., and Wallaschek, J., ‘Nonlinear time series analysis of drillstring lateral vibrations’, Leibniz University Hannover.
  • KEHR-CANDILLE, V.‘Identification of hysteretic systems for damping modelization’, ONERA.
  • Khalil, M., Heinrich, C., Wüchner, R., and Bletzinger, K.-U., ‘Robust algorithm for optimal configuration of a multi-type network of sensors’, Technical University in Munich.
  • Kill, N. C., and d’Ambrosio, F., ‘Extension of the multi-stage cyclic symmetry methodology and application to modal and dynamic response analyses’, SAMTECH S.A..
  • Kirchner, M., Croes, J., Cosco, F., and Desmet, W., ‘Compressive sensing-moving horizon estimator for periodic loads: experimental validation in structural dynamics with video-based measurements’, KU Leuven.
  • Komada, M., Matsumura, Y., Kido, I., Nakatsugawa, E., and Ozaki, H., ‘Real-time assignment method of resonance frequency by change of coupling stiffness for improving road-induced noise’, Vehicle Engineering Development Div. Advanced R&D and Engineering Company, Toyota Motor Corporation.
  • Kournoutos, N., and Cheer, J., ‘The design of a low-cost directional warning sound system for electric vehicles’, University of Southampton.
  • Kras, A., and Gardonio, P., ‘Experimental tests of a flywheel proof mass actuator for velocity feedback control’, University of Udine.
  • Kreider, M., and Schwingshackl, C. W., ‘Experimental evaluation of pressure dependent tangential contact stiffness’, Imperial College London.
  • Kruczek, P., Wodecki, J., Wyłomańska, A., Zimroz, R., and Gryllias, K., ‘Multi-fault diagnosis based on bi-frequency cyclostationary maps clustering’, KGHM CUPRUM.
  • Kuether, R. J., and Najera, D. A., ‘Response predictions of reduced models with whole joints’, Sandia National Laboratories.
  • Kullaa, J.‘Robust damage detection using bayesian virtual sensing with noise reduction and environmental effect elimination capabilities’, Metropolia University of Applied Sciences.
  • Kurka, P., Paiva, V., Teixeira, L., Izuka, J., and Ramos, P., ‘Dynamic behavior and vibration analysis of tensegrity-membrane structures’, University of Campinas.

L

  • Lafarga Nebot, V. A., Collette, C., and Rodrigues, G., ‘Hybrid isolator for space applications’, Université Libre de Bruxelles.
  • Lagerblad, U., and Kulachenko, A., ‘Experimental validation of smoothed state estimation algorithms’, KTH / Scania CV AB.
  • Lai, V. V., Chiello, O., Brunel, J.-F., and Dufrénoy, P., ‘Dynamic fem simulation of wheel-rail rolling contact with friction in an eulerian frame – application to curve squeal’, Laboratoire de mécanique de Lille.
  • Lancereau, D. P. T., Goyder, H. G. D., Ind, P., and Brown, D., ‘Experimental investigations of the influence of bending moments and shear forces on the vibration damping of bolted lap joints’, Cranfield University.
  • Lancini, M., Bodini, I., Petrogalli, C., Faccoli, M., Sansoni, G., Solazzi, L., and Mazzù, A., ‘Damage phenomena characterization in rcf tests using image analysis and vibration-based machine learning’, University of Brescia.
  • Lapiccirella, G., and Rohlfing, J., ‘Stability, performance and power consumption of a centralised and decentralised active vibration control system’, Fraunhofer LBF.
  • Le Magueresse, T., and Antoni, J., ‘Experimental applications of bayesian focusing in an industrial context’, MicrodB.
  • LECLERE, Q., ANTONI, J., JULLIARD, E., and PINTADO-PENO, A., ‘Consideration of estimation error in multiple coherence approaches: application to the inside-outside coherence analysis of airplane flight tests’, INSA Lyon.
  • Lee, J., Detroux, T., and Kerschen, G., ‘Passive design of a force-displacement curve using topology optimization’, University of Liege.
  • Lewis, T. D., Li, Y., Tucker, G., Jiang, J. Z., Neild, S., Iwnicki, S., Smith, M., and Goodall, R., ‘Enabling the optimisation of the primary suspension with passive components for an industrial railway vehicle model’, University of Bristol.
  • Li, S., Mace, B. R., and Dhupia, J. S., ‘Dynamic analysis of structures having attachments at uncertain locations based on a krylov subspaces technique’, the university of Auckland.
  • Li, Y.-Y., Zhang, S. Y., Jiang, J. Z., and Neild, S., ‘Passive vibration control of offshore wind turbines using the structure-immittance approach’, University of Bristol.
  • Lisitano, D., Bonisoli, E., and Mottershead, J., ‘Stabilised layer method for linear and nonlinear spatial non classical damping identification’, Politecnico di Torino.
  • Liu, H., Zhou, D., and Wang, Y., ‘A nonlinear vibration energy harvester for spacecraft: theoretical study’, Beijing Institute of Spacecraft System Engineering.
  • LIZOUL, K., ANDRE, H., and GUILLET, F., ‘Comparative study of instantaneous angular speed acquisition methods for the diagnosis of cyclic impulsive faults in non stationary conditions’, Laboratoire d’Analyse des Signaux et Processus Industriels, IUT de Roanne.
  • Lu, Y., Reynaerts, D., and Al-Bender, F., ‘Stabilizing of high-speed air bearings with piezoelectric shunts’, KU Leuven.
  • Luczak, M. M., Peeters, B., Di Lorenzo, E., Manzato, S., Berring, P., Haselbach, P. U., Branner, K., Semenov, S., Madsen, S. H., Belloni, F., Chen, X., Ruffini, V., Castro Ardila, O. G., and Crespo Montanes, C., ‘Integrated dynamic testing and analysis approach for model validation of an innovative wind turbine blade design’, Technical University of Denmark.
  • Ludwig, C. E., Wever, U., and Junge, O., ‘Online fault identification for rotating machinery’, Siemens AG.
  • Lukeš, V., and Rohan, E., ‘Optimization of perforated plates in interaction with acoustic waves’, University of West Bohemia.

M

  • Ma, Z.-S., Ding, Q., and Wang, B., ‘Output-only recursive identification of time-varying structures subject to gross errors’, Tianjin University.
  • Mäck, M., and Hanss, M., ‘A multi-fidelity approach for possibilistic uncertainty analysis’, Universtity of Stuttgart.
  • Madar, E., Klein, R., and Bortman, J., ‘Manifestation of fault severity in the vibration signature of a bearing’, Ben-Gurion University of the Negev.
  • Magliacano, D., Ouisse, M., Khelif, A., De Rosa, S., Franco, F., and Atalla, N., ‘Computation of wave dispersion characteristics in periodic porous materials modeled as equivalent fluids’, Université de Franche-Comté.
  • Magyar, B., Csernak, G., Zana, R., Wohlfart, R., and Stepan, G., ‘Experimental and numerical modal analysis of dry friction-induced contact damping in assembled structures’, Budapest University of Technology and Economics.
  • Mahdavi, S. H., Rahimzadeh Rofooei, F., Xu, C., and Yu, Z., ‘Joint-stiffness identification of truss bridges using an enhanced water cycle optimization algorithm’, Sharif University of Technology.
  • Maia, N., Neves, M., and Silva, T., ‘Transmissibility versus damage detection’, IDMEC/Instituto Superior Técnico.
  • Malik, M. K., Chronopoulos, D., Tanner, G., Essa, Y., and de la Escalera Cutillas, F., ‘A fast and efficient approach for simulating ultrasonic waves and their interaction with defects in periodic structures’, University of Nottingham.
  • Manson, G.‘Predicting nonlinear system responses without a single simulation’, University of Sheffield.
  • Manzari, L., Goransson, P., Cuenca, J., and Lopez Arteaga, I., ‘Experimental-numerical methods for inverse characterisation of the anisotropic-anelastic properties of porous materials, based on dynamic digital image correlation’, KTH Royal Institute of Technology.
  • MARINUS, B. G., BONTEA, D., HALIMI, A., and PIRE, A., ‘Broadband noise from serrated uas propellers: validation of a lattice boltzmann approach’, Royal Military Academy.
  • MARINUS, B. G., and HARRI, K., ‘Prediction of outdoor sound propagation from firearms shooting ranges: a comparison’, Royal Military Academy.
  • Marques dos Santos, F. L., Mas, P., and Van der Auweraer, H., ‘Application of deep neural networks for nvh analysis’, Siemens Industry Software NV.
  • Marrongelli, G., Magalhães, F., Gentile, C., and Cunha, Á., ‘Automated modal identification in operational conditions using 3d stabilization diagrams’, Politecnico di Milano.
  • Martin, G., Balmes, E., Vermot des Roches, G., and Chancelier, T., ‘Squeal measurement with 3d scanning laser doppler vibrometer : handling of the time varying system behavior and analysis improvement using fem expansion’, SDTools.
  • Martínez-Rodrigo, M. D., Moliner Cabedo, E., Romero Rodóñez, A., and Galvín Barrera, P., ‘Resonant behaviour in existing high-speed railway bridges: resonance and cancellation mechanisms’, Universitat Jaume I.
  • Marwitz, S., and Zabel, V., ‘Relations between the quality of identified modal parameters and measured data obtained by structural monitoring’, Bauhaus-Universität Weimar.
  • Mathes, S., and Werner, U., ‘Numerical and experimental vibration analysis of a 2-pole induction motor mounted on an elastic machine test bed’, University of Applied Sciences Georg Simon Ohm Nuremberg.
  • Mathis, A. T., Brink, A. R., and Quinn, D. D., ‘Implementation and comparison of advanced friction representations within finite element models’, The University of Akron.
  • Mauricio, A., Smith, W., Randall, R., Antoni, J., and Gryllias, K., ‘Cyclostationary-based tools for bearing diagnostics’, KU Leuven.
  • Mencik, J.-M., Denis, V., Caliez, M., and Méo, S., ‘Application of the wave finite element method to the analysis of locally resonant band gaps in periodic structures with viscoelastic properties’, INSA Centre Val de Loire.
  • MENGA, E., HERNANDEZ, S., and ROMERO, I., ‘A methodology to estimate the dynamic response of assembled structures with nonlinear uncertain interfaces’, AIRBUS OPERATIONS SL.
  • Meyrand, L., Sarrouy, E., Cochelin, B., and Ricciardi, G., ‘A full pgd/hbm-based algorithm for a low-dimensional nnm continuation with modal enrichment’, Aix Marseille Univ., LMA.
  • Mezzani, F., Coppo, F., and Carcaterra, A., ‘Long-range coupling of waveguides’, University of Rome Sapienza.
  • Michalak, A., Wyłomańska, A., Wodecki, J., Zimroz, R., and Gryllias, K., ‘Optimal frequency band selection via stationarity statistical testing in time frequency domain for gearbox diagnostics’, KGHM CUPRUM Ltd. R&D.
  • Miguez, D., Farrell, O., Bannister, M. O., Arbabi, R., Moorhouse, A. T., and Elliott, A. S., ‘Substructuring approach and blocked forces method: application for structure-borne vibration prediction in heavy weight assemblies’, Farrat Isolevel.
  • Mikułowski, G., Popławski, B., Mróz, A., and Jankowski, Ł., ‘An investigation on a semi-active damping of forced structural vibrations by means of controllable structural nodes’, Institute of Fundamental Technological Research.
  • Mikułowski, G.‘Semi-active damping of forced vibrations by means of pneumatic supports’, Institute of Fundamental Technological Research.
  • Milana, S., Acunzo, G., Gabriele, S., and Culla, A., ‘Multi-level damage identification in operational condition’, University of Rome La Sapienza.
  • Milana, S., Roveri, N., Carcaterra, A., and Culla, A., ‘Continuous wavelet transform for structural health monitoring of a pipe’, University of Rome “La Sapienza”.
  • Millitzer, J., Rohlfing, J., and Döhring, A., ‘Simulation of active control systems considering different levels of detail in the signal processing chain’, Fraunhofer Institute LBF.
  • Mohammed, N. M., Creagh, S., Tanner, G., and Jain, S., ‘Tunnelling corrections to wave transmissions on shell structures’, University of Nottingham.
  • Mokrani, B., Fichera, S., Adamson, L., and Mottershead, J., ‘Multi-input multi-output aeroelastic control using the receptance method’, University of Liverpool.
  • Molina-Viedma, Á. J., López-Alba, E., Felipe-Sesé, L., and Díaz, F., ‘Full-field experimental modal analysis in an automotive lighting system’, Universidad de Jaén.
  • Molina-Viedma, Á. J., López-Alba, E., Felipe-Sesé, L., and Díaz, F., ‘Effect of in-flight differential pressure in modal behaviour of an aircraft demonstrator using hs 3d-dic’, Universidad de Jaén.
  • Mollet, Y., Sarrazin, M., Pelletier, J., Chauvicourt, F., Faria, C., Van der Auweraer, H., and Gyselinck, J., ‘Investigation of the influence of dc-bus voltage on switched reluctance machines regarding noise and vibrations’, Université Libre de Bruxelles.
  • Mora, A., and Bianchi, G.‘Dynamic optimization of an electrospindle for robotic machining’, Istituto di Tecnologie Industriali e Automazione CNR.
  • Mora, A., Gasparini, I., and Bianchi, G., ‘Tlcd with air nozzle damping: numerical non-linear simulations and experimental validation’, University of Applied Sciences of Southern Switzerland.
  • Morita, S., Hartmann, T., and Tanner, G., ‘Dynamical energy analysis modelling by using transfer path analysis’, YANMAR R&D EUROPE.
  • Mosquera Sanchez, J. A., Sarrazin, M., Janssens, K., de Oliveira, L. P. R., and Desmet, W., ‘Enhancing interior hybrid electric powertrain noise for multiple listeners’, Federal University of Santa Maria.
  • Mrak, B., Driesen, W., and Desmet, W., ‘Phase fixed torque ripple absorber for improved nvh performance of a wind turbine gearbox’, KU Leuven/ Flanders Make.
  • Musella, U., Longo, A., Vettori, S., Waimer, S., Di Lorenzo, E., Peeters, B., Marulo, F., and Guillaume, P., ‘Recent advances in swept sine controlled excitation and processing for multi-input multi-output frfs estimation’, Vrije Universiteit of Brussels.

N

  • Nabuco, B., Friis, T., Amador, S., and Brincker, R., ‘Oma based hydrodynamic coefficients of an offshore structure’, DTU.
  • Naets, F., Tamarozzi, T., Rottiers, W., Donders, S., Van der Auweraer, H., and Desmet, W., ‘Model order reduction for nonlinear dynamics engineering applications’, KU Leuven.
  • Najera-Flores, D. A., and Brink, A. R., ‘Efficient random vibration analysis of nonlinear systems with long-short-term memory networks for uncertainty quantification’, Sandia National Laboratories.
  • Nalliah, P., Lewis, A., Hawkins, C., and Lomax, C., ‘A methodology using health and usage monitoring system data for payload life prediction’, University of Hertfordshire.
  • Nascimento, L. A. P., Rodrigues, G. K., and de Oliveira, L. P. R.‘Revisited impedance tube for standard and metamaterial testing’, EESC-USP.
  • Navarro, L. C., and Goes, L. C. S., ‘Antiskid brake system modeling and fault detection’, ITA.
  • Nerubenko, G., Bograd, A., and Kolomier, P., ‘Tuned mass dampers as energy harvesters for railways’, NERMAR Limited.
  • Nikolaev, S., Kiselev, I., and Kuts, V., ‘Simulation and experimental validation of gas-engine blade dynamics during milling’, Skolkovo Institute of Science and Technology.
  • Nobrega, E. D., Gobert, M.-L., Dos Santos, J. M. C., and Mencik, J.-M., ‘Investigating simple designs of phononic crystal plates and their influence on the wave propagation properties’, INSA Centre Val de Loire.
  • Nóbrega, E. D., Gobert, M.-L., Dos Santos, J. M. C., and Mencik, J.-M., ‘Investigating simple designs of periodic structures and their influence on the wave propagation properties’, Universidade Federal do Maranhão.
  • Noppe, N., Tatsis, K., Chatzi, E., Devriendt, C., and Weijtjens, W., ‘Fatigue stress estimation of offshore wind turbine using a kalman filter in combination with 1s scada data and accelerometers’, Vrije Universiteit Brussel.
  • Norambuena, M., Winter, R., and Biedermann, J., ‘Accurate structural excitation through adaptive control’, DLR – German Aerospace Center.

O

  • Ogawa, A., and Adachi, K.‘Vibration analysis of the damped torsional vibration system with a planetary gear type inerter’, Chubu University.
  • Oltmann, J., Hartwich, T., and Krause, D., ‘Design of particle dampers for lightweight structures using frequency based substructuring’, Hamburg University of Technology.
  • Ondra, V., Dibble, R. P., and Titurus, B., ‘A numerical and experimental study of coupled bending and torsion free vibrations of a viscoelastic beam subjected to an eccentric compressive axial force’, University of Bristol.
  • Opiela, K. C., and Zielinski, T. G., ‘A concept demonstrator of adaptive sound absorber/insulator involving microstructure-based modelling and 3d printing’, Institute of Fundamental Technological Research of the Polish Academy of Sciences.
  • Ortega Almirón, J., Bianciardi, F., and Corbeels, P., ‘Predicting vibration levels on experimental test case by using invariant loads (e.g. blocked forces) as source characterization’, Siemens.

P

  • Paifelman, E., Pepe, G., La Gala, F., and Carcaterra, A., ‘Control of fluctuations of a tethered unmanned-underwater-vehicle’, Sapienza University of Rome.
  • Paiman, C., and Boon, P., ‘The effect of ditches on vibrations from railroads’, Movares Nederland B.V..
  • Paiman, C., and Boon, P., ‘An empirical model for the effect of railroad geometry on vibrations from railroads’, Movares Nederland B.V..
  • Palumbo, R., Ivanov, D., Droz, C., Bareille, O., Ichchou, M., and Scarpa, F., ‘Out-of-plane vibration transmissibility of multi-scale-reinforced natural fiber sandwich panels’, ACCIS, University of Bristol.
  • Pandiya, N., Allemang, R., and Phillips, A., ‘Design and validation of a nonlinear test rig with hardening stiffness in multiple degrees of freedom’, Robert Bosch GmbH.
  • Papaioannou, A., Elliott, S., and Cheer, J., ‘Approaches to the mapping of the vehicle pass-by noise sources in a reverberant environment with use of the near field sound properties’, University of Southampton.
  • Papaioannou, G., and Koulocheris, D., ‘Optimization of semi-active suspension systems under random road profile’, National Technical University of Athens.
  • Papatheou, E., Manson, G., and Worden, K., ‘Pseudo-faults (or damage metaphors) for shm: a discussion on their practical use’, University of Exeter.
  • Paradeisiotis, A., Yiakopoulos, C., and Antoniadis, I., ‘A compact and light acoustic transducer using dielectric elastomer films for low frequency active noise cancellation’, National Technical University of Athens.
  • Park, Y. J., Bartel, T., Röglin, T., Stoll, G., Zech, P., Plöger, D., and Rinderknecht, S., ‘Simulink-pspice co-simulation of power amplifier for driving piezoelectric actuators’, Fraunhofer Institute for Structural Durability and System Reliability LBF.
  • Pasma, E., Klaassen, S., Nieuwenhuijse, L., van der Seijs, M., and Lennström, D., ‘Application of system equivalent model mixing (semm) to model the structural dynamic properties of a complex vehicle component using numerical and experimental data’, VIBES.technology.
  • PASSOS, S., SAUVAGE, O., MANIN, L., REMOND, D., ROTA, L., and BESNIER, E., ‘Experimental investigation on timing belt drive dynamics with non-circular pulley’, PSA Groupe.
  • Pavic, G.‘Vibration response of a solid volume of arbitrary shape using the boundary forming approach’, INSA.
  • Peeters, C., Antoni, J., Gioia, N., Guillaume, P., and Helsen, J., ‘A novel multi-harmonic demodulation technique for instantaneous speed estimation’, Vrije Universiteit Brussel.
  • Pendse, V., Ghazwani, M., and Naghshineh, K.‘Investigation of the effect of stamping process on dimpled beams’, Western Michigan University.
  • Pennacchi, P., Cazzulani, G., Chieppi, M., and Colombo, A., ‘Optimal positioning of continuous optical fiber sensors for the modal analysis of turbine blades with optical backscatter reflectometer technology’, Politecnico di Milano.
  • Pennacchi, P., Chatterton, S., and Vania, A., ‘Development and testing of health monitoring of the bearings of traction system of a regional train locomotive during commercial service’, Politecnico di Milano.
  • Pepe, G., Antonelli, D., Nesi, L., and Carcaterra, A., ‘Vfc-optimal control of the inverse pendulum oscillations’, Sapienza Univeristy of Rome.
  • Pereira, D. d. A., Guimaraes, T. A. M., and Rade, D. A., ‘Numerical analysis of damping in tow steered composite plates’, Aeronautics Institute of Technology.
  • Peres, M. A., and Barnard, A., ‘Top 10 mechanical experiments for the teaching of sound and vibration in mechanical engineering’, The Modal Shop, Inc..
  • Pesaresi, E., and Troncossi, M.‘Synthesis of vibration signals with prescribed power spectral density and kurtosis value’, University of Bologna.
  • Petersen, Ø. W., and Øiseth, O., ‘Efficient time-domain modeling of floating structures with fluid-structure interaction by reduced order state-space approximations’, NTNU.
  • Petersen, Ø. W., Øiseth, O., and Lourens, E.-M., ‘Identification of wave forces from acceleration and wave elevation data using inverse methods and spectral wave field reconstruction’, NTNU.
  • Petrone, G., Sorrentino, A., De Bono, E., Polito, T., and Marulo, F.‘Installation effect on sound absorption and flow resistivity of glass wool fibres’, Università degli Studi di Napoli Federico II.
  • Piana, E. A., Carlsson, U., and Feng, L., ‘Determination and optimization of the sound reduction index of ship bulkheads through the wave propagation approach’, University of Brescia.
  • Picou, A., Capiez-Lernout, E., Soize, C., and Mbaye, M., ‘Effects of geometrical nonlinearities for a rotating intentionally mistuned bladed-disk’, Université Paris-Est.
  • Pierro, E., Bottiglione, F., and Carbone, G., ‘Experimental and theoretical characterization of a dafm cantilever dynamics’, Università degli Studi della Basilicata.
  • Pinto, M., Roveri, N., Pepe, G., and Carcaterra, A., ‘Embedded optical sensors for vibration monitoring of large structures’, Sapienza University of Rome.
  • Pires, F., Vanlanduit, S., and Dirckx, J., ‘Structural intensity analysis on irregular shells’, University of Antwerp.
  • Plöger, D. F., Jungblut, J., Zech, P., and Rinderknecht, S., ‘Separation of structural response and excitation characteristics in planetary gearboxes’, Technische Universität Darmstadt.
  • Poprawa, G., Pradelok, S., and Salamak, M., ‘Operational modal analysis in dynamic load testing of a truss railway bridge’, Silesian University of Technology.
  • Pourkiaee, S. M., Zucca, S., and Parker, R., ‘Relative cyclic component mode synthesis and its application to nonlinear vibration analysis of mistuned bladed disks with friction joints’, Politecnico di Torino.

Q

  • Qi, J., and Gryllias, K., ‘Remaining useful life prediction of rolling element bearings using deep kalman filter’, KU Leuven.

R

  • Rainieri, C., and Reynders, E., ‘On the use of kernel pca for compensation of environmental effects on natural frequency estimates’, University of Molise.
  • Ramiro Redondo, C., Pintado Sanjuán, P., Morales Robredo, A. L., Nieto Quijorna, A. J., and Chicharro Higuera, J. M., ‘Optimization of flow restrictor diameter in high speed railway vehicle suspensions’, University of Castilla-La Mancha.
  • Randall, R. B., and Smith, W. A., ‘Detection of faulty accelerometer mounting’, UNSW Sydney.
  • Raze, G., Lossouarn, B., Zhao, G., Deü, J.-F., Collette, C., and Kerschen, G., ‘A multimodal nonlinear piezoelectric vibration absorber’, University of Liège.
  • Razpotnik, M., Čepon, G., and Boltežar, M., ‘Dynamic characterisation of rolling-element bearings – implementation of smooth contact-state transition’, University of Ljubljana, Faculty of Mechanical Engineering.
  • Reil, J., Mueller, P., Hartung, A., and Hackenberg, H.-P., ‘A study of dynamic phenomena in case of self-excitation’, MTU Aero Engines AG.
  • Renson, L., Barton, D. A. W., and Neild, S. A., ‘Development of control-based continuation for general multi-degree-of-freedom nonlinear structures’, University of Bristol.
  • Reyes, J., Soize, C., and Gagliardini, L., ‘Nonparametric probabilistic vibroacoustic analysis with nastran: a computational tool for estimating the likelihood of automobiles experimental frf measurements’, MSME/PSA.
  • Reynders, E., and Langley, R. S., ‘Band-averaged variance prediction in the hybrid deterministic – statistical energy analysis of vibro-acoustic systems’, KU Leuven.
  • Ricardo, D., and Silva, T. A. N.‘Fuzzy model updating: covariance updating to estimate the interval radii of the updated parameters’, UNIDEMI-NOVA.
  • rice, h., goransson, p., and kennedy, j., ‘Design of a kelvin cell acoustic metamaterial’, Trinity College Dublin.
  • Risaliti, E., Tamarozzi, T., Cornelis, B., and Desmet, W., ‘Virtual sensing of wheel center forces on a mcpherson suspension’, Siemens PLM Software.
  • Roccia, B. A., Verstraete, M. L., Dimitriadis, G., Brüls, O., and Preidikman, S., ‘Unsteady aerodynamics and nonlinear dynamics of free-falling rotating seeds’, University of Liege.
  • Rocha de Melo Filho, N. G., Van Belle, L., Claeys, C., Deckers, E., and Desmet, W., ‘Numerical and experimental validation of resonant metamaterials design to improve the mass-spring-mass effect in the stl of a double panel partition’, KU Leuven.
  • Rodrigues, I. F., and Lopez Arteaga, I., ‘Axial propagation of ow induced vibrations in thick walled pipes and hoses’, Eindhoven University of Technology.
  • Roettgen, D. R., Jones, E. M. C., Brink, A. R., Reu, P. L., Rohe, D. P., and Wagner, J., ‘Nonlinear system identification using digital image correlation’, Sandia National Laboratories.
  • Rogers, T. J., Worden, K., Manson, G., and Cross, E. J., ‘Bayesian approaches to operational modal analysis including recovery of forcing signals’, University of Sheffield.
  • Romero, A., Galvin, P., Martínez-Rodrigo, M. D., and Moliner, E., ‘Influence of transverse bracing beams on the dynamic behavior of arroyo bracea ii bridge in madrid-sevilla high-speed railway line’, Universitat Jaume I.
  • Roncen, T., Sinou, J.-J., and Lambelin, J.-P., ‘Experiments and numerical simulations of nonlinear vibration responses of an assembly subjected to harmonic and random excitations’, CEA.
  • Rose, M., and Misol, M., ‘On the noise reduction of active sidewall aircraft panels using feedforward control with embedded systems’, German Aerospace Center (DLR).
  • Rouleau, L., and Deü, J.-F., ‘Modelling of nonlinear prestrain effects on the dynamic properties of viscoelastic materials’, LMSSC, Cnam Paris.
  • roveri, n., pensalfini, s., and carcaterra, a., ‘Small-world based interaction in elastic metamaterials’, University of Rome, “La Sapienza”.
  • Rumpler, R., Rodríguez Sánchez, R., and Göransson, P., ‘A multivariate model-order reduction for finite element solutions with complex parametric dependence’, KTH Royal Institute of Technology.
  • Rustighi, E., Leclere, Q., and Muggleton, J., ‘Apodization and phase methods applied to the seismic detection of underground objects’, University of Southampton.

S

  • Saeed, Z., Firrone, C. M., and Berruti, T. M., ‘A reliable benchmark for the characterization of mistuning due to blade root joints’, Politecnico di Torino.
  • Sala, R.‘Uncertainty quantification of simulation based vehicle crashworthiness responses’, TU Kaiserslautern.
  • Saltari, F., Dessi, D., Faiella, E., and Mastroddi, F., ‘Load and deflection estimation on a elastically scaled ship model via reduced-order model and optimal natural observer’, INSEAN-CNR.
  • Sangiuliano, L., Claeys, C., and Deckers, E., ‘From infinite to finite locally resonant metamaterials: the effect of boundary conditions’, KU Leuven.
  • Sanitate, G., and Talbot, J. P., ‘Soil-structure interaction and the added-foundation effect of surface foundations with application to ground-borne vibration in buildings’, University of Cambridge.
  • Santo, D. R., Gonçalves, P. J. P., Mencik, J.-M., Tang, B., and Brennan, M. J., ‘The effects of grounded linear and nonlinear springs on the band-gap behaviour of a periodic euler-bernoulli beam’, São Paulo State University (UNESP), School of Engineering, Bauru.
  • Savnik, N. J., Katsanos, E., Amador, S. D. R., Ventura, C. E., and Brincker, R., ‘Influence of diaphragm modelling on the dynamic performance of a reinforced concrete high-rise building’, Technical University of Denmark.
  • Schedlinski, C., Marzok, C., and Wiesendahl, U., ‘Application of operational test data and transfer path analysis to a test bench for optical systems’, ICS Engineering GmbH.
  • Schilder, J., van den Belt, M., Ellenbroek, M., and de Boer, A., ‘Model order reduction of large stroke flexure hinges using modal derivatives’, University of Twente.
  • Schmidt, S., Heyns, P. S., and Gryllias, K. C., ‘A comparison of different features for discrepancy analysis-based bearing diagnostics’, University of Pretoria.
  • Scholz, A., Marinova, P., Schmidt, N., Vieker, D., Orlando, S., and van Genechten, B., ‘Estimation of steering gear operational noise using simulated excitations and measured noise transfer functions’, ZF Friedrichshafen AG.
  • Schommer, S., Kebig, T., Nguyen, V. H., and Maas, S., ‘Modelling of prestressed concrete bridges with 3 dimensional finite elements for structural health monitoring with model-updating techniques’, University of Luxembourg.
  • Schrader, P., Duvigneau, F., Gavila-Lloret, M., Rottengruber, H., and Gabbert, U., ‘Finite element analysis of the acoustic behavior of poroelastic materials based on experimentally determined frequency dependent material properties’, Otto-von-Guericke-University Magdeburg.
  • Scussel, O., Brennan, M. J., de Almeida, F. C. L., and Paschoalini, A. T., ‘Model-based optimization of axisymmetric wave motion in buried plastic water distribution pipes’, UNESP – São Paulo State University.
  • Sekhar, A. S., and Gayatri, C. V. H., ‘Gear tooth crack detection in a wind turbine drive train’, Indian institute of technology.
  • Sels, S., Bogaerts, B., Penne, R., and Vanlanduit, S., ‘Vision assisted automated sensor localisation and sensor placement’, University of Antwerp.
  • Semeniuk, B. P., Goransson, P., and Dazel, O., ‘Microstructure based modelling of the thermal and viscous dissipation of a transversely isotropic porous fibrous insulation material’, KTH Royal Institute of Technology.
  • Sghaier, E., Rémond, D., Bourdon, A., Dion, J.-L., and Peyret, N., ‘A novel identification tool for rotors working under non-stationary conditions based on the ias’, Lamcos/ Quartz.
  • Shakya, P., Darpe, A. K., and Kulkarni, M. S., ‘A comparison of the prognostic approaches for rolling element bearings’, IIT Madras.
  • Sharma, N. L. K., and Umnova, O., ‘Study of sound absorption capability of silencers based on the acoustic black hole effect’, University of Salford.
  • Sharma, N., and Modak, S. V., ‘Robust identification of parameters uncertainty in stochastic finite element model updating’, Indian Institute of Technology Delhi.
  • Shaw, A. D., Friswell, M. I., and Champneys, A. R., ‘Solution of rotor stator contact problems with the method of normal forms’, Swansea University.
  • Shi, W., Liu, G., Gao, C., Shi, H., and Chen, Z., ‘Test and improvement of drive axle whine for a light bus’, School of Automotive Engineering,Jilin University.
  • Siano, D., and Panza, M. A.‘Employment of an auto regressive moving average model for on-board knock detection of a turbocharged spark ignited engine’, Istituto Motori CNR.
  • Sicklinger, S., and Ullmann, R., ‘Structural power as an acoustic design criteria for the early phase of product design’, BMW Research.
  • Siddiqui, M. F., Ertveldt, J., Decuyper, J., De Troyer, T., Schoukens, J., and Runacres, M. C., ‘Development of a nonlinear state space model of an aerofoil oscillating in pitch’, Vrije Universiteit Brussel.
  • Šika, Z., Hromčík, M., Svoboda, F., Volech, J., Zavřel, J., and Karlíček, J., ‘Decentralized and distributed mimo h-infinity robust control of vibration suppression of planar structures’, Czech Technical University in Prague, Faculty of Mechanical Engineering.
  • SILVA, C. A. F., MANIN, L., RINALDI, R. G., and AMEIL, J., ‘Dynamics of torsional vibration damper (tvd) pulley: implementation of elastomeric constitutive law’, LaMCoS laboratory (INSA Lyon).
  • Singh, R. P., De Rosa, S., Franco, F., Ichchou, M., Droz, C., and Bareille, O., ‘A study of structured uncertainties in wave characteristic of one-dimensional periodic structures’, University of Naples Federico II, Italy.
  • Slavič, J., Javh, J., and Boltežar, M., ‘Spectral optical flow imaging: measuring full-field subpixel oscillations without a high-speed camera’, University of Ljubljana.
  • Smith, W. A., and Randall, R. B., ‘Further developments in cepstral pre-processing for operational modal analysis of machine structures’, University of New South Wales.
  • Soal, K., Govers, Y., Bienert, J., and Bekker, A., ‘Automatic modal parameter selection using a statistical model and a kalman filter’, DLR – German Aerospace Center.
  • Soubeyroux, M., Dumoulin, C., and Deraemaeker, A.‘Optimization of tuned mass damper parameters based on numerical optimization and model reduction’, Université Libre de Bruxelles.
  • Souza, A. G., Góes, L. C. S., Sousa, M. S., Zuñiga, D. F. C., and Barbosa, R. C. M. G., ‘System identification model of a flexible unmanned aircraft vehicle using the output error methodologies for obtain a reliable analytical model’, Technological Institute of Aeronautics (ITA).
  • Stelzer, R., Delpero, T., and D’Amico, R., ‘Assessment of the potential of trim parts to reduce structure-borne noise in the interior of vehicles’, Autoneum Management AG.
  • Stephan, C.‘Nonlinear vibrations absorber : conception, modelling and experimental investigations’, ONERA.
  • Svoboda, F., Hromcik, M., and Hengster-Movric, K., ‘Aeroelastic wing modeling suitable for cooperative control design’, Faculty of Electrical Engineering, Czech Technical University in Pragu.

T

  • Taghipour, J., Haddad Khodaparast, H., Friswell, M. I., and Madinei, H., ‘Identification of electro-magnetic nonlinear restoring force on a cantilever beam using experimental frequency domain data’, Swansea University.
  • Tajdari, F., Berkhoff, A. P., and de Boer, A., ‘Numerical modeling of a flexural displacement-converter mechanism to excite a flat acoustic source driven by piezoelectric stack actuators’, University of Twente.
  • Tarpø, M., Olsen, P., Juul, M., Amador, S., Friis, T., and Brincker, R., ‘Automated reduction of statistical errors in the estimated correlation function matrix for operational modal analysis’, Aarhus University.
  • Thierry, V., and Brown, L., ‘Multi-scale modelling of periodic textile composites and wave propagation simulation’, University of Nottingham.
  • Thierry, V., and Chronopoulos, D., ‘The effect of the weaving architecture of periodic composite structures on structural damping’, University of Nottingham.
  • Timmermans, S., and Vandepitte, D., ‘Study of the dynamic behaviour of a wing drive line of a robotic hummingbird using a model-based approach’, KU Leuven.
  • Timorian, S., Franco, F., Ouisse, M., De Rosa, S., and Bouhaddi, N., ‘Investigations for the analysis of vibrations of quasi periodic structures’, VIPER.
  • Tipuric, M., Wagg, D., and Sims, N., ‘Vibration suppression using the concept of a semi-active magnetorheological inerter device’, University of Sheffield.
  • Tjahjowidodo, T.‘Stabilizing chaotic responses of bi-stable vortex induced vibration energy converters by time delay feedback method’, Nanyang Technological University.
  • TOMITA, S., NAKANO, S., and OMOTE, R., ‘Formation mechanisms of vibration bandgaps based on block diagrams of wave transmission’, Toyota Central R&D Labs., Inc..
  • Tonazzi, D., Massi, F., Baillet, L., Salipante, M., and Berthier, Y., ‘Estimation of normal contact stiffness for different contact pairs: experiments and numerical approach’, University of Rome.
  • Tsai, C.-Y., Chan, Y. J., Chen, J.-L., Chao, C.-L., and Chien, S.-Y., ‘Optimal parameters in data-driven stochastic subspace identification in operational modal analysis’, National Chung Hsing University.
  • Tsouvalas, A., and Metrikine, A. V., ‘Underwater noise generated by the installation of foundation piles with vibratory devices’, Delft University of Technology.
  • Tufano, G., Droz, C., Bareille, O., Zine, A.-M., Pluymers, B., and Ichchou, M., ‘Wavenumber identification tecnique for axial-symmetric structures’, Ecole Centrale de Lyon – KU Leuven.

U

  • Uhl, T., Zdziebko, P., and Martowicz, A., ‘An investigation on the influence of friction on dynamics of pantograph interaction with a catenary’, University of Science and Technology AGH.
  • Ullmann, R., Sicklinger, S., and Müller, G., ‘Validation experiment for structural power’, BMW AG/TU München.
  • Umer, M., Gastaldi, C., and Botto, D., ‘The effect of friction damping on the dynamic response of vibrating structures: an insight into model validation’, Politecnico di torino Italy.

V

  • Van Antwerpen, B., Corveleyn, S., Van den Nieuwenhof, B., and Lielens, G.‘Validity of the transfer matrix method for modeling trim components in vibro-acoustic applications’, Free Field Technologies, MSC Software Company.
  • Van Belle, L., Claeys, C., Deckers, E., and Desmet, W., ‘The impact of damping on the sound transmission loss of a locally resonant metamaterial plate’, KU Leuven.
  • Van Campen, A., Ooijevaar, T., Mannaerts, C., De Buyser, C., and Bartic, A., ‘Vibration-based monitoring of the quality of clutch engagement in a forklift truck’, Flanders Make vzw.
  • Van Damme, B., Hannema, G., and Zemp, A., ‘Sound transmission through checkerboard sandwich panels’, Empa.
  • Van Damme, C. I., and Allen, M. S.‘Using the harmonic balance method to directly compute nnms of geometrically nonlinear finite element models’, University of Wisconsin – Madison.
  • van den Belt, M., Schilder, J., and Brouwer, D., ‘An absolute interface coordinates floating frame of reference formulation for plates’, University of Twente.
  • Van den Wyngaert, J. C. E., Schevenels, M., and Reynders, E., ‘Transmission loss prediction for finite double-leaf walls with a flexible frame’, KULeuven.
  • Van der Auweraer, H., Hartmann, D., Donders, S., and Desmet, W., ‘Digital twin throughout the product lifecycle’, Siemens Industry Software NV.
  • van der Seijs, M., van den Bosch, D., Pasma, E., and Fenzl, M., ‘Blocked force characterisation and in-vehicle auralisation of in-stationary source vibrations’, VIBES.technology.
  • van Dijk, C. C.‘Optimization of acoustic doors using laser-spectro-vibrometry and finite element methods’, Alara-Lukagro.
  • Van Niekerk, J. L., Heyns, P. S., and Hindley, M. P., ‘Degradation estimation of a high energy steam piping system using hybrid recurrent neural networks’, University of Pretoria.
  • van Ophem, S., van de Walle, A., Balla, V., Deckers, E., and Desmet, W., ‘Assessing the acoustic radiation from complex structures with virtual sensing’, KU Leuven.
  • Vanclooster, K., Spina, L., Donders, S., Lombardi, R., D’Ippolito, R., Farkas, L., and Mundo, D., ‘Linking manufacturing simulation with functional performance engineering for composites applications’, Siemens Industry Software NV.
  • Vania, A., Pennacchi, P., Chatterton, S., and Cangioli, F., ‘Rotor-to-seal rubs in a steam turbine caused by deposits of carbonized oil’, Politecnico di Milano, Dept. of Mechanical Engineering.
  • Varoto, P.‘Effects of uncertainties on the dynamic response of a mdof piezoelastic vibration energy harvester’, Sao Carlos School of Engineering.
  • Vered, Y.‘Tailoring phononic-like topologies for controlling the structural-acoustic coupling in fluid-filled cylinders’, Technion.
  • Vesterholm, K. K., Brincker, R., and Brandt, A., ‘Linearization of modal parameters in duffing oscillator using the random decrement technique’, University of Southern Denmark.
  • Vigsø, M.‘Operational modal analysis and fluid-structure interaction’, Aarhus University.
  • Vishwanathan, A., and Vio, G., ‘Experimental application of random matrix theory to quantify modal uncertainty in aircraft t-tails’, University of Sydney.
  • Vishwanathan, A., and Vio, G., ‘On the efficacy of random matrix theory to quantify uncertainty in topology optimisation’, University of Sydney.
  • Vollmering, M., and Lenzen, A., ‘Application of $\mathcal{h}^\infty$ estimation and oblique projections for experimental damage identification by sp2e’, Leipzig University of Applied Sciences.

W

  • Walker, S.‘On the use of pseudo-damage to represent damage to structures in population-based structural health monitoring’, University of Sheffield.
  • Wally, G., McIlwraith, C., and Hutchinson, M., ‘Vibration integrity assessment on lng process pipework using a combined experimental and analytical approach’, Wood PLC.
  • Wang, B., and Kari, L., ‘Modelling the effect of the amplitude dependency to the vibration isolation effect for magneto sensitive vibration isolator system based on energy flow’, KTH royal institute of technology.
  • Wang, Z., and Popov, A. A., ‘Computationally-efficient aeroelastic analysis tool for short-wing / propeller configuration on compound helicopters’, University Of Nottingham.
  • Wasenczuk, A., Corni, I., and Symonds, N., ‘Energy in random vibration’, Perpetuum.
  • Watchi, J. J., Ding, B., Zhao, G., and Collette, C., ‘Development of a 6 degrees of freedom active isolation stage for sub-hz applications’, Université Libre de Bruxelles.
  • Waters, T., Harris, P., and Mulchandani, H., ‘Focussing flexural waves for accretion removal from a beam’, University of Southampton.
  • Weber, R., and Kühhorn, A., ‘Mistuning identification approach with focus on high-speed centrifugal compressors’, BTU Cottbus – Senftenberg.
  • Weidauer, T., and Willner, K., ‘Numerical and experimental modal analysis of structures under gyroscopic influence in ale formulation’, FAU Erlangen-Nürnberg.
  • Werner, D., Falkenberger, S., Graf, B., Wegerer, F., Neher, J., and Wender, B., ‘Full model multibody approach for the sound calculation of gearboxes’, University of Applied Sciences of Ulm.
  • Werner, U.‘Increasing the threshold of vibration stability of soft mounted induction motors with elastic rotors and sleeve bearings using active motor foot mounts’, University of Applied Sciences Georg Simon Ohm Nuremberg.
  • Williams, D. J., Haddad Khodaparast, H., and Yang, C., ‘A practical approach of active vibration control with the use of piezoelectric actuators’, Swansea University.
  • Willner, K.‘Identification of contact parameters for dry friction joints’, Friedrich-Alexander-Universitaet Erlangen-Nuernberg.
  • Winter, R., Heyen, S., and Böswald, M., ‘Fully automated vibration measurements of aircraft fuselages in the mid-frequency range’, DLR – German Aerospace Center.
  • Wodecki, J., Wyłomańska, A., Zimroz, R., and Gryllias, K., ‘Gearbox diagnostics based on time-frequency representation and principal component analysis’, KGHM CUPRUM Ltd. R&D.
  • Wolejsza, Z., Holnicki-Szulc, J., Graczykowski, C., Mikulowski, G., Hinc, K., Kazmierczak, K., Faraj, R., Kowalski, T., Wiszowaty, R., and Pawlowski, P.‘Dynamics and control of adaptive airbags for uav impact protection’, Institute of Fundamental Technological Research Polish Academy of Sciences.
  • Worden, K., Abdessalem, A. B., Fuentes, R., Cross, E. J., and Dervilis, N., ‘A probabilistic approach for model selection and parameters estimation for outlier analysis’, University of Sheffield.
  • Worden, K., Cross, E. J., and Randall, R., ‘On the differences between structural health monitoring and machine condition monitoring and the requirements for diagnosis and prognosis’, University of Sheffield.
  • Worden, K., Zhang, T., and Barthorpe, R., ‘On narx models using treed gaussian processes’, University of Sheffield.
  • Wramner, L. M., Berbyuk, V., and Johansson, H., ‘Vibration dynamics in non-linear dual mass flywheels for heavy-duty trucks’, Chalmers University of Technology / AB Volvo.

X

  • Xia, Y., Zhang, R., Cao, Y., and Friswell, M., ‘Suppression of the wind-induced vibration of high-rise buildings with inerter systems’, Swansea University.

Y

  • Yu, L., Liu, L., and Kang, J., ‘Output-only modal parameter estimator of time-varying structures based on kernelized tarma model and kernel recursive maximum correntropy’, Beijing Institute of Technology.
  • Yu, Y., and Hopkins, C., ‘Using wavelet deconvolution method to determine the force applied by drops of water on dry plates and plates with shallow surface water’, University of Liverpool.
  • Yuan, H., Li, Y., Jiang, Z., and Mellor, P., ‘Optimal mechatronic suspension design for vehicle dynamic performance enhancement: theoretical study and experimental verification’, University of Bristol.

Z

  • Zaccherini, R., Dertimanis, V. K., Palermo, A., Krödel, S., Marzani, A., Daraio, C., and Chatzi, E. N., ‘Resonant metabarriers as seismic attenuators in granular media’, ETH Zürich.
  • Zacharczuk, M., Stump, O., and Hetzler, H., ‘Mor for friction induced self-excitation in jointed structures based on substructuring for nonlinear interfaces – a review of methods with application to brake squeal’, Daimler AG.
  • Zamolo, G., Rinaldo, R., and Gardonio, P., ‘Hand-crafted feature-based anomaly detection algorithm for gearbox vibration signals’, University of Udine.
  • Zare Estakhraji, I., and Allen, M.‘A block-gauss seidel algorithm with static reduction to predict damping in bolted joints’, University of Wisconsin-Madison.
  • Zech, P., Plöger, D., Bartel, T., Röglin, T., and Rinderknecht, S., ‘Design of an inertial mass actuator for active vibration control of a planetary gearbox using piezoelectric shear actuator’, Technische Universität Darmstadt.
  • Zhang, S., and Sheng, X., ‘Analysis of sound transmission loss of a rectangular plate with acoustic treatments’, Southwest Jiaotong University.
  • Zhao, G., Paknejad, A., Raze, G., Kerschen, G., and Collette, C., ‘ℋ∞ optimization of positive position feedback control for mitigation of nonlinear vibrations’, Université Libre de Bruxelles.
  • Zhao, M., and Yue, L.‘Operational modal analysis of a turbine in big noise environment’, Nanjing University of Aeronautics and Astronautics.
  • Zhou, T., and Cheng, L.‘Broadband resonance suppressions using a resonant beam damper with embedded acoustic black hole features’, Hong Kong Polytechnic University.
  • Zhu, M., Zhang, S. Y., Jiang, J. Z., Macdonald, J., and Neild, S., ‘Enhancing the dynamic performance of a pantograph-catenary system via inerter-based damping technology’, University of Bristol.
  • Zielinski, T. G., Galland, M.-A., and Deckers, E., ‘Influencing the wave-attenuating coupling of solid and fluid phases in poroelastic layers using piezoelectric inclusions and locally added masses’, Institute of Fundamental Technological Research of the Polish Academy of Sciences.
  • Zientek, M., and Gardonio, P.‘Piezoelectric patches with multi-resonant shunts for multiple frequency band vibration control’, University of Udine.