ICSV5 Table of Contents 5th International Congress on Sound and Vibration All RED areas are hypertext links. Position the mouse pointer over the link and click with your mouse button. The following hypertext documents may be followed to the papers presented at the conference. Use the Acrobat arrows at the top of the screen to recall previous pages. Volume 1 • Volume 2 • Volume 3 • Volume 4 • Volume 5 • List of Sessions • Author Index • Copyright Message Copyright 1997, The International Institute of Acoustics and Vibration Permission is hereby granted for any person to reproduce a fractional part of any paper herein, provided that permission is obtained from the author(s) and credit is given to the author(s) and these proceedings. Notification to IIAV is not required. An author may reproduce his or her paper in full provided that these proceedings are credited. ICSV5 Introductory Material The following items contain introductory material about ICSV5 and this publication. The Table of Con- tents and Author Index (listed below) contain no hyperlinks. They are presented for reference only - Causal recommends that the HyperText versions above be used instead. Notice • International Institute of Acoustics and Vibration • Chairman’s Message • Scientific Committee • Organizing Committee • 1 List of Sessions Active Noise Control, Page 1-173 • Active Vibration Control, Page 1-385 • Aeroacoustics, Page 2-513 • Architectural Acoustics, Page 2-729 • Boundary Element and Finite Element Methods, Page 2-793 • Condition Monitoring and Diagnostics, Page 2-903 • Damping - Passive and Active, Page 2-1091 • Distinguished Plenary Keynote Address, Page 1-3 • Environmental/community Noise, Page 3-1127 • Human Response to Sound and Vibration, Page 3-1183 • Machinery Noise Control, Page 3-1273 • Machinery Vibration Control, Page 3-1343 • Materials for Noise and Vibration Control, Page 3-1391 • Measurement Techniques, Page 3-1441 • Modal Analysis, Page 3-1527 • Musical Acoustics, Page 3-1581 • Noise Control Elements, Page 3-1651 • Non-Destructive Testing, Page 4-1717 • Non-Linear Acoustics and Vibration, Page 4-1771 • Numerical Methods, Page 4-1839 • Occupational Noise Exposure and Control, Page 4-1941 • Scattering of Sound, Page 4-1977 • Shockwave Dynamics, Page 4-2021 • Signal Processing, Page 4-2043 • Sound Intensity, Page 4-2231 • Statistical Energy Analysis, Page 4-2279 • Structural Acoustics and Vibration, Page 5-2347 • Structural Intensity, Page 5-2511 • Transportation Noise, Page 5-2553 • Transportation Vibration, Page 5-2653 • Underwater Acoustics, Page 5-2701 • Vibration and Shock, Page 5-2829 • 2 Volume 1 Distinguished Plenary Keynote Address A Century of Shock Wave Dynamics ::::::::::::::::::::::::::::::::::::::::::::::::::: :::::::::::I-3 Sir James Lighthill Recent Developments in Acoustics and Vibration ::::::::::::::::::::::::::::::::::::: ::::::::::I-27 Malcolm J. Crocker Into the Physics of Rotor Aeroacoustics - Highlights of Recent European Helicopter Noise Research :::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::::I-59 Hanno Heller Recent Advances in the Active Control of Structurally Radiated Sound :::::::::::::: ::::::::I-103 Chris R. Fuller Vibration Suppression Through Smart Damping::::::::::::::::::::::::::::::::::::::: ::::::::I-115 Daniel J. Inman Developments in Digital Analysis Techniques for Diagnostics of Bearings and Gears ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-133 R.B. Randall Hearing Protectors::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-151 Samir N.Y. Gerges Active Noise Control Industrialization of Active Control Technologies :::::::::::::::::::::::::::::::::::::: ::::::::I-173 Christian Carme, Anne Montassier High-Performance Real-Time Computing Methods::::::::::::::::::::::::::::::::::::: ::::::::I-189 Osman Tokhi, D.N. Ramos-Hernandez, M.A. Hossain An Adaptive Sound Intensity Control Algorithm For Active Control Of Transformer Noise ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-205 Xiaojun Qiu, Colin H. Hansen Design of Curved Panel Sources for Active Control of Sound Radiated by Transformer ::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-213 Xun Li, Colin H. Hansen, Xiaojun Qiu A Filtered-X Adaptive Notch Filter With On-Line Cancellation Path Estimation :::::: ::::::::I-223 A. Minguez, Manuel Recuero Implementation of Modal Filters for Acoustic Sensing of Sound Power Radiation ::: ::::::::I-231 Kym A. Burgemeister, Scott D. Snyder Active Control of Structural Radiation Using Wavenumber Spectrum Measurements ::::::::I-239 Scott D. Sommerfeldt, Brian L. Scott Effect Of Wall-Axial Wave Component on the Active Control of Water-Borne Noise in Steel Pipes::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-247 Michael Podlesak Active Control of Machinery Noise in a Marine Environment - Lessons Learned::::: ::::::::I-255 Ronnie C N Leung Active Control of Cabin Noise in Aircraft - Lessons Learned? ::::::::::::::::::::::::: ::::::::I-263 Chris R. Fuller Use of a Water Impedance Tube to Evaluate the Performance of a Smart Skin Piston Element :::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-271 Peter D Dean Feedback Control of Noise in a Room :::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-279 Chaoying Bao, R. Paurobally, Jie Pan Active Equalisation of the Sound Field in an Extended Region of a Room :::::::::::: ::::::::I-287 Arturo Orozco-Santillan 3 A Traveling Wave Approach to Active Noise Control in Ducts:::::::::::::::::::::::: ::::::::I-295 Jing Yuan, K.Y. Fung Study of Active Noise Control by Using Structural Acoustic Coupled Analysis :::::: ::::::::I-303 Shozo Kawamura, Atsushi Morita, Takuzo Iwatsubo, Koki Shiohata Strategies for Active Control of Sound Transmitted Through a Double-Panel Partition Using Distributed Actuators and Sensors :::::::::::::::::::::::::::::::::::: ::::::::I-311 Xia Pan, Trevor J Sutton, S.J. Elliott Delayless Subband Echo Cancellation :::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-319 Sven Nordholm, Joergen Nordberg A New Active Headset for a Helicopter Application. :::::::::::::::::::::::::::::::::: ::::::::I-327 Sven Johansson, Mathias Winberg, Thomas Lago, Ingvar Claesson New Approaches to Active Noise Control - Theory and Experimental Results ::::::: ::::::::I-335 Marek Pawelczyk Industrial Applications of the Active Seat ANCAS ::::::::::::::::::::::::::::::::::::: ::::::::I-343 Christian Carme, G. Valentin Active Double Glazing: the Solution is the Transducer:::::::::::::::::::::::::::::::: ::::::::I-351 Christian Carme, Anne Montassier, M. Rehfeld ANC Headset: the Second Generation :::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-359 Christian Carme, David Derrien, Pierre De Man A Solution for ANC Treatment in Flow Noise for Very Low Frequencies: a Product Named ACTA :::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-367 Christian Carme, Virginie Delemotte, Pierre De Man Hybrid Controller: Theory & Product :::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-375 Christian Carme, David Derrien, Pierre De Man Active Vibration Control Characterisation of Piezoelectric and Electrostrictive Materials for Acoustic Transducers: I. Resonance Methods :::::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-385 Binu K. Mukherjee, S. Sherrit Characterisation of Piezoelectric and electrostrictive Materials for Acoustic Transducers: II. Quasistatic Methods ::::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-395 Binu K. Mukherjee, S. Sherrit Pole-Zero Assignment of Vibratory System :::::::::::::::::::::::::::::::::::::::::::: ::::::::I-405 Yitshak M. Ram Modal Filtering and Control of a Plate Using One-Dimensional PVDF Film Sensors :: ::::::::I-413 Nobuo Tanaka, Yoshihiro Kikushima Finite Element Analysis of Active Vibration Isolation ::::::::::::::::::::::::::::::::: ::::::::I-421 Carl Q. Howard, Colin H. Hansen Active Control of Nonlinear Vibration in a Flexible Cantilever Beam ::::::::::::::::: ::::::::I-429 Thanh Lan Vu, Jie Pan Active Control of Flexural Vibrations Using a Hybrid Mode/Wave Approach :::::::: ::::::::I-437 C. Mei, Brian R. Mace, R.W. Jones Control of Structure-Borne Noise Transmission Using Electro-Rheological Fluid Inserts :::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-445 N.R. Harland, Brian R. Mace, R.W. Jones Practical Realisation Issues In Adaptive Active Vibration Control :::::::::::::::::::: ::::::::I-453 M.A. Hossain, Osman Tokhi Genetic Algorithms for Active Vibration Control :::::::::::::::::::::::::::::::::::::: ::::::::I-461 M.A. Hossain, Osman Tokhi Optimal Control of a Space Robot by the Nonholonomic Structure ::::::::::::::::::: ::::::::I-469 Koichi Matsuda, Yoichi Kanemitsu, Shinya Kijimoto 4 AVIIS, Active Vibration Isolation in Ships :::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-477 Thomas Lago, Mathias Winberg, Sven Johansson Modelling and Control of a Two Degree of Freedom Dynamic Absorber Using Shape Memory Actuator::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::::: ::::::::I-485 P.K. Boominathan, Y.G. Srinivasa, M. Singaperumal Neuro-Active Noise Control Using A Decoupled Linear/Nonlinear System Approach ::::::::I-493 Osman Tokhi, R. Wood Active Control of Machine-Tool Vibration in a Lathe