INTER-NOISE and NOISE-CON Congress and Conference Proceedings

Long term prediction using a ray model and climatological data
pp. 2720-2726(7)
Author: Kuhner, D.

Backscattering of sound from a screen using a parabolic equation model
pp. 2727-2733(7)
Author: Zhu, D.

Studies of outdoor sound over complex terrain
pp. 2734-2743(10)
Author: Rasmussen, K.B.

Influence of different barrier surface parts on the insertion loss
pp. 2744-2749(6)
Author: Thorsson, P.

The effects of atmospheric turbulence on the interference of the direct and ground reflected waves
pp. 2750-2756(7)
Authors: Ostashev, V.; Clifford, S.; Lataitis, R.; Blanc-Benon, P.; Juve, D.

Experimental studies of sound propagation through thermal turbulence near a boundary
pp. 2757-2763(7)
Authors: Blanc-Benon, Ph.; Wasier, J.; Juve, D.; Ostashev, V.

Predictions of ground effects over uneven and discontinuous terrian in the presence of refraction and turbulence
pp. 2764-2772(9)
Authors: Taherzadeh, S.; Attenborough, K.; Li, K.M.

An insertion loss analysis of partially inclined barrier
pp. 2773-2779(7)
Authors: Kim, H-S.; Chin, B-J.

Calculation of meteorological conditions effects on outdoor sound propagation using parabolic equation
pp. 2780-2786(7)
Authors: Berengier, M.; Gauvreau, B.

Source modelling in the new Nordic prediction methods for environmental noise
pp. 2787-2794(8)
Author: Johasson, H.G.

A stochastic technique for the prediction of noise from construction sites
pp. 2795-2800(6)
Authors: Oldnam, D.; Waddington, D.; Lewis, J.

Metro-BEM: A powerful tool for complex outdoor sound propagation
pp. 2801-2808(8)
Authors: Premat, E.; Gabillet, Y.; Defrance, J.

NORD 2000. Effects of diffraction in the new NORDIC prediction methods for environmental noise
pp. 2809-2813(5)
Author: Ogren, M.

Improved calculation methods for assessing engine test noise
pp. 2814-2819(6)
Authors: Zaporozhets, O.; Tokarev, V.; Attenborough, K.

NORD 2000. Comprehensive model for predicting the effect of terrain and screens in the new NORDIC prediction methods for environmental noise
pp. 2820-2828(9)
Author: Plovsing, B.

NORD 2000. State-of-the-art overview of the new NORDIC prediction methods for environmental noise
pp. 2829-2837(9)
Author: Kragh, J.

NORD 2000. Effects of scattering in the new NORDIC prediction methods for environmental noise
pp. 2838-2843(6)
Author: Storeheier, S.A.

Sound attenuation over long range ground-to-ground propagation paths
pp. 2844-2849(6)
Author: Chinoy, C.B.

Extending the bandwidth of profiled sound absorbers
pp. 2850-2855(6)
Authors: Wu, T.; Lam, Y.W.; Cox, T.J.

Acoustic absorption of heterogeneous porous materials
pp. 2856-2860(5)
Authors: Sgard, F.; Atalla, N.; Olny, X.; Panneton, R.

Vibration isolator properties of a phase mixed polyurethane
pp. 2861-2865(5)
Authors: Lee, J.; Dickens, J.; Fedderly, J.; Lee, G.; Hartmann, B.

The study of sound absorption characteristic of micro-perforated panel with different diameter holes
pp. 2866-2870(5)
Authors: Zhang, B.; Lang, S.; Ge, P.; Zhuang, W.

Optimization of a free field technique for the measurement of the reflection coefficient at real angles of incidence
pp. 2871-2877(7)
Authors: Jansens, G.; Allard, J.F.; Lauriks, W.; Vermeir, B.

Acoustical characterization of fibrous materials by using measured flow resistivity data
pp. 2878-2883(6)
Authors: Nousiainen, E.; Hongisto, V.; Lindgren, M.

An experimental approach to the effective elastic bulk modulus of porous fibrous materials at intermediate flow regimes
pp. 2884-2888(5)
Authors: Picard-Lopez, M.A.; Solana-Quiros, P.E.; Arizo-Serrulla, J.V.

A closed formulation of sound fields in front of periodical absorbents
pp. 2889-2893(5)
Authors: Holmberg, D.; Brunskog, J.; Nilsson, E.

Experiemntal validation of 3-D poroelastic finite elements based on Biot theory
pp. 2894-2898(5)
Authors: Dauchez, N.; Sahraoui, S.; Atalla, N.

Sound radiation into dissipative media
pp. 2899-2903(5)
Authors: Wilson, R.; Craik, R.; Tomlinson, D.

Characterization of dynamic properties of polyurethane foams for automotive seats by vibration tests
pp. 2904-2908(5)
Authors: Chae, C-K.; Kim, K-J.; Jang, H-K.; Cho, Y-H.

The influence of pressure diffusion effects on absorbing properties of porous media with double porosity
pp. 2909-2913(5)
Authors: Olny, X.; Boutin, C.

Novel mixed finite element formulation for the analysis of sound absorption by porous media
pp. 2914-2919(6)
Authors: Hamdi, M.A.; Atalla, N.; Medarek, L.; Omrani, A.

In situ measurement of the absorption coefficient at normal incidence using MLS-sequences and 1 or 2 microphone techniques
pp. 2920-2930(11)
Authors: De Geetere, L.; Vermeir, G.; Lauriks, W.

Experimental characterization of materials for acoustic performance with applications
pp. 2931-2942(12)
Authors: Lai, H-Y.; Gentry-Grace, C.; Bonilha, M.W.; Yoerkie, C.A.J.

Sound velocity and attenuation in anisotropic glass wool
pp. 2943-2945(3)
Author: Tarnow, V.

A cell model for the acoustical properties of fibrous absorbents
pp. 2946-2952(7)
Authors: Umnova, O.; Attenborough, K.; Li, K.M.

Surface sound acoustical absorption properties of multilayer panels
pp. 2953-2959(7)
Authors: Magrini, U.; Ricciardi, P.

Prediction of railway induced ground vibration
pp. 2960-2966(7)
Authors: Diehl, R.J.; Beier, M.; Holzl, B.; Waubke, H.

A validated CAE method for prediction railway viaduct structure-borne noise
pp. 2967-2974(8)
Authors: Hargreaves, J.; Sturt, R.; Willford, M.

A new French method for railway noise prediction
pp. 2975-2983(9)
Authors: Defrance, J.; Gabillet, Y.; Van Maercke, D.; Dine, C.; Gautier, P-E.

Prediction of true road traffic Ln
pp. 2984-2991(8)
Author: Steele, C.

Neural networks for noise prediction: An automotive case study
pp. 2992-2996(5)
Authors: Jennings, P.; Fry, J.

Definition of a propagation model of traffic noise in saturation conditions
pp. 2997-3002(6)
Authors: Varaldi, C.; Fogola, J.; Bellina, L.

Computer prediction models and the systematics of determination of the noise propagation paths
pp. 3003-3009(7)
Author: Van Leeuwen, H.J.A.

Road traffic noise prediction model 'ASJ Model 1998' proposed by the Acoustical Society of Japan - Part 2: Calculation model of sond power levels of road vehicles
pp. 3010-3018(9)
Authors: Oshino, Y.; Kono, S.; Iwase, T.; Ohnishi, H.; Sone, T.; Tachibana, H.

Prediction and evaluation methods for road traffic noise in built-up areas
pp. 3019-3026(8)
Authors: Uesaka, K.; Ohnishi, H.; Chiba, T.; Takagi, K.

Traffic road vibration environment and its propagation to residential area in Japan
pp. 3027-3032(6)
Authors: Hayakawa, K.; Kani, Y.; Naoki, S.

A hybrid calculation tool for the evaluation of complex noise barrier geometries including meteorological effects
pp. 3033-3038(6)
Authors: Geerlings, A.C.; Mank, J.

Road traffic noise prediction model 'ASJ Model 1998' proposed by the Acoustical Society of Japan - Part 1: Its structure and the flow of calculation
pp. 3039-3045(7)
Author: Tachibana, H.

Road traffic noise prediction model. 'ASJ Model 1998' proposed by the Acoustical Society of Japan - Part 3: Calculation model of sound propagation
pp. 3046-3054(9)
Authors: Yamamoto, K.; Takagi, K.; Yoshihisa, K.; Miyake, T.; Uesaka, K.; Tajika, T.

Prediction of noise propagation with energy integral equations
pp. 3055-3059(5)
Author: Masuda, K.

Prediction of road traffic noise around tunnel mouth
pp. 3060-3067(8)
Authors: Takagi, K.; Miyake, T.; Yamamoto, K.; Tachibana, H.

Road traffic noise prediction with the consideration of the relation between traffic volume and vehicle speed
pp. 3068-3074(7)
Authors: Tajika, T.; Tachibana, H.; Yamamoto, K.; Oshino, Y.

Discussion on accuracy of prediction about sound level of noise from the road traffic related to ASJ Model 1998
pp. 3075-3081(7)
Authors: Sasaki, M.; Yamaguchi, S.

Quality of software products for the prediction of sound immission - Standardization efforts in Germany
pp. 3082-3087(6)
Author: Kurze, U.J.

Ground vibration accompanying infra-sound generated by a highway bridge
pp. 3088-3092(5)
Author: Kobayashi, Y.

Simulation of a low frequency noise inside a car cabin based on analytical-numerical solution of the wave equation
pp. 3093-3097(5)
Authors: Kovtonyuk, A.; Galanenko, V.; Kalyuzhny, A.

Weather classification as a tool in prediction of outdoor sound propagation
pp. 3098-3106(9)
Author: Hygen, H.O.

Measurement and estimation of underground train passing vibration in residential and administration buildings
pp. 3107-3111(5)
Authors: Tsukernikov, I.E.; Rybak, S.A.; Kostarev, S.A.; Nekrasov, I.A.

Structure borne noise from trains in rock tunnels
pp. 3112-3116(5)
Author: Brekke, A.

Prognosis of vibrations and low frequency noise for a bored tunnel in soft soils
pp. 3117-3121(5)
Authors: Soede, W.; Krone, G.

Treatment of frequency dependent complex stiffness of rubber bushings in transmission force analysis of a vehicle suspension system by commercial multi-body dynamics programs
pp. 3122-3126(5)
Authors: Lee, J-H.; Kim, K-J.; Lee, U-K.; Song, C.

Correlation of structure-borne noise and vibration along railway viaduct
pp. 3127-3132(6)
Authors: Ngai, E.K.W.; Ng, C.F.

Simplfied model of internal acoustic cavity in reciprocating refrigerating compressors
pp. 3133-3138(6)
Authors: Coutaz, L.; Gavrie, L.

TLM model for sound propagation above ground
pp. 3139-3144(6)
Authors: Kristiansen, U.; Jezzine, K.

Characteristics of impulsive low frequency sounds by blast densification method
pp. 3145-3152(8)
Authors: Imaizumi, H.; Kunimatsu, S.; Isei, T.; Jinguuji, M.; Tsujino, S.; Maeda, S.; Nakashima, T.

Finite difference solution of sound propagation over porous ground
pp. 3153-3160(8)
Authors: Dong, H.; Hovem, J.M.; Hole, L.R.; Madshus, C.

An experimental study on ground vibration isolation using a model (Second report)
pp. 3161-3166(6)
Authors: Kani, Y.; Hayakawa, K.; Maekawa, Y.

Impedance consideration from wave reflection at acoustic porous interface
pp. 3167-3174(8)
Authors: Kaynia, A.M.; Hole, L.R.

Pure tone generation and high directivity-index of a 36 Hz resonance in a fly-over by a wind-speed of 10 m/s
pp. 3175-3178(4)
Author: Wijnia, Y.K.

Low frequency vibration and noise from military blast activity: Prediction and evaluation of annoyance
pp. 3179-3186(8)
Authors: Madshus, C.; Nilsen, N.I.

Perceived loudness of distant explosions
pp. 3187-3193(7)
Author: Reed, J.W.

Low-frequency projectile noise from flat howitzer shots
pp. 3194-3199(6)
Authors: Buchta, E.; Hirsch, K-W.

Analysis of low-frequency projectile noise signals measured close to the ground
pp. 3200-3205(6)
Authors: Hirsch, K-W.; Buchta, E.

Development of measuring device of acoustic characteristic for sound absorber and sound barrier
pp. 3206-3210(5)
Authors: Lee, C-M.; Kim, D-R.; Kim, M-S.

Case study: Finnskogen trails, 14 September 1994
pp. 3211-3215(5)
Author: Reed, J.W.

Prediction of low frequency impulsive sound propagation
pp. 3216-3224(9)
Authors: Storeheier, S.A.; Vigran, T.E.

Statistical modeling technique for estimating probability characteristics of acoustic fatigue wear
pp. 3225-3230(6)
Authors: Baranov, S.; Kuravsky, L.

Noise radiated by a transversely actuated rectangular plate
pp. 3231-3236(6)
Authors: Predoi, M.V.; Magheti, I.; Enescu, N.; Bugaru, M.

Noise radiated by thin rectangular plates subjected to inplane loads
pp. 3236-3242(7)
Authors: Bugaru, M.; Magheti, I.; Enescu, N.; Predoi, M.V.

Prediction of noise level for tractor cabin using Statistical Energy Analysis
pp. 3243-3250(8)
Authors: Tsujiuchi, N.; Koizumi, T.; Kubomoto, I.; Ishida, E.

Quadratic statistical characteristics of cyclic noise
pp. 3251-3256(6)
Author: Vokurka, K.

Vibrations of flat plates excited by low Mach number turbulent boundary layers
pp. 3257-3264(8)
Authors: Hambric, S.; Hwang, Y.F.

Asymptotic formulas for active and reactive mutual power of free vibrations of a clamped annular plate
pp. 3265-3269(5)
Authors: Rdzanek, W.J.; Engel, Z.; Rdzanek Jr., W.P.

The total power of forced and damped vibrations of a clamped annular plate
pp. 3270-3275(6)
Authors: Rdzanek Jr., W.P.; Engel, Z.; Rdzanek, W.J.

Investigation of the pressure and vibration transmissions in the fluid filled pipework systems
pp. 3276-3281(6)
Authors: Wang, A.; Pinnington, R.J.

Mass loading effects on the parameters of a Statistical Energy Analysis experimental model
pp. 3282-3287(6)
Authors: Baldanzini, N.; De Langhe, K.; Pierini, M.

An efficient prediction technique for the steady-state dynamic analysis of flat plates
pp. 3288-3294(7)
Authors: Van Hal, B.; Desmet, W.; Vandepitte, D.; Sas, P.

Thin walled structures propagation characterisation
pp. 3295-3302(8)
Authors: Houillon, L.; Ichchou, M.; Jezequel, L.

Calculation of the acoustic radiation of structures with openings
pp. 3303-3308(6)
Authors: Polonio, F.; Loyau, T.; Parot, J-M.; Gogu, G.

Vibration of specially tapered beams and plates
pp. 3309-3314(6)
Authors: Pisliakov, V.; Mironov, M.; Svadkovsky, A.

Vibro-acoustics analysis of a medical Xray source: Hybrid approach combining experiment and FEA BEA modeling
pp. 3315-3321(7)
Authors: Auger, J-M.; Damagnez, F.; Hamdi, M.A.; Ayadhi, S.; Chabin, E.

Use of a constructed vibroacoustic transfer function for predicting sound radiation from a structure in situ
pp. 3322-3327(6)
Authors: Marquis-Favre, C.; Hamzaoui, N.; Boisson, C.

Further work in sound power using total energy density measurements
pp. 3328-3332(5)
Authors: Tinianov, B.; Hixson, E.

Stiffeners effects consideration in the vibroacoustic behaviour of complex mechanical structures
pp. 3333-3338(6)
Authors: Le Moyne, S.; Tebec, J.L.; Bonnet, S.

An experimental investigation on vibrational similitude of stiffened cylindrical shells
pp. 3339-3343(5)
Authors: Sa, Y.M.; Xin, W.Y.; Jin, L.S.

Feasibility of experimental determination of SEA damping loss factors of submarine structures
pp. 3344-3349(6)
Authors: Audoly, C.; Borello, G.

A refined BE technique for modeling radiation and scattering from vibrating structures: Experimental validation of BEM results obtained using laser Doppler vibrometry
pp. 3350-3354(5)
Authors: Di Sante, R.; Bernetti, R.; Rossi, G.; Ambrosini, A.

An innovative approach for the vibro-acoustic modelling of a complex industrial installation using both Statistical Energy Analysis and Finite Element methods
pp. 3355-3361(7)
Author: Paturet, C.

New concepts of using vibroacoustic methods for the needs of automotive industry
pp. 3362-3366(5)
Authors: Kazmierczak, J.; Boczkowski, A.; Komoniewki, M.; Kuboszek, A.

Bridging the gap - Practical workplace noise control
pp. 3367-3372(6)
Authors: Gunn, p.; Macmillan, R.