Analyzing of Noise inside a Simple Vehicle Cabin using Boundary Element Method
In this paper, modeling of an acoustic enclosed
vehicle cabin has been carried out by using boundary element
method. Also, the second purpose of this study is analyzing of linear
wave equation in an acoustic field. The resultants of this modeling
consist of natural frequencies that have been compared with
resultants derived from finite element method. By using numerical
method (boundary element method) and after solution of wave
equation inside an acoustic enclosed cabin, this method has been
progressed to simulate noise inside a simple vehicle cabin.
[1] D.H Lee, W.S.Hwang, M.E.kim, "Booming Noise Analysis in Passenger
Car Using a Hybrid-Integrated Approach", SAE paper 2000-01-0723.
[2] Sang-Hyun Jee, Jong-Cheol Yi, Jae-Keon Park," The Comparison of the
BEM and FEM Techniques for the Interior Noise Analysis of the
Passenger Car", DAEWOO Motor Company, Inchon,Korea.
[3] C.Y.R.Cheng, A.F.Seybert, "Recent Application of the Boundary
Element Method to Problems in Acoustics", SAE paper 80997.
[4] H.Utsuno,T.Tanaka, K.Inoue and M.Nlshlbe, " Analysis of the Sound
Field in an Automobile Cabin by Using the Boundary Element Method",
SAE paper-s 891153.
[5] W.L.Li and K.Zhao, "Prediction of Structure-Borne Noise inside Tractor
Cab", SAE paper-s 941671.
[6] A.F.Seybert, D.A.Hamilton and P.A.Hayes, "Prediction of Radiated
Noise from Engine Components Using the BEM and the Rayleigh
Integral", SAE paper-s 971954.
[7] Y.Oka, H.Ono and N.Hirako, "Panel Vibartion Control for Booming
Noise Reduction", SAE paper-s 911086.
[8] Z.S. Liu, C. Lu, Y.Y. Wang, H.P. Lee, Y.K. Kohand K.S. Lee,
"Prediction of noise inside tracked vehicles", Journal of Applied
Acoustics, Volume 67, Issue 1 , pp.74-91,Jan 2006.
[9] S. Suzuki, S. Maruyama and H. Ido, "Boundary element analysis of
cavity noise problems with complicated boundary conditions", Journal
of Sound and Vibration, Volume 130,pp. 79-96, April 1989.
[10] C.A. Brebbia, R.D. Ciskowski, "Boundary Element Methods in
Acoustics", New York, Elsevier Science Publishing Company, 1991.
[11] J. Domingues, "Boundary Elements in Dynamics", New York, Elsevier
Science Publishing Company, 1991.
[1] D.H Lee, W.S.Hwang, M.E.kim, "Booming Noise Analysis in Passenger
Car Using a Hybrid-Integrated Approach", SAE paper 2000-01-0723.
[2] Sang-Hyun Jee, Jong-Cheol Yi, Jae-Keon Park," The Comparison of the
BEM and FEM Techniques for the Interior Noise Analysis of the
Passenger Car", DAEWOO Motor Company, Inchon,Korea.
[3] C.Y.R.Cheng, A.F.Seybert, "Recent Application of the Boundary
Element Method to Problems in Acoustics", SAE paper 80997.
[4] H.Utsuno,T.Tanaka, K.Inoue and M.Nlshlbe, " Analysis of the Sound
Field in an Automobile Cabin by Using the Boundary Element Method",
SAE paper-s 891153.
[5] W.L.Li and K.Zhao, "Prediction of Structure-Borne Noise inside Tractor
Cab", SAE paper-s 941671.
[6] A.F.Seybert, D.A.Hamilton and P.A.Hayes, "Prediction of Radiated
Noise from Engine Components Using the BEM and the Rayleigh
Integral", SAE paper-s 971954.
[7] Y.Oka, H.Ono and N.Hirako, "Panel Vibartion Control for Booming
Noise Reduction", SAE paper-s 911086.
[8] Z.S. Liu, C. Lu, Y.Y. Wang, H.P. Lee, Y.K. Kohand K.S. Lee,
"Prediction of noise inside tracked vehicles", Journal of Applied
Acoustics, Volume 67, Issue 1 , pp.74-91,Jan 2006.
[9] S. Suzuki, S. Maruyama and H. Ido, "Boundary element analysis of
cavity noise problems with complicated boundary conditions", Journal
of Sound and Vibration, Volume 130,pp. 79-96, April 1989.
[10] C.A. Brebbia, R.D. Ciskowski, "Boundary Element Methods in
Acoustics", New York, Elsevier Science Publishing Company, 1991.
[11] J. Domingues, "Boundary Elements in Dynamics", New York, Elsevier
Science Publishing Company, 1991.
@article{"International Journal of Mechanical, Industrial and Aerospace Sciences:64906", author = "A. Soltani and M. Karimi Demneh", title = "Analyzing of Noise inside a Simple Vehicle Cabin using Boundary Element Method", abstract = "In this paper, modeling of an acoustic enclosed
vehicle cabin has been carried out by using boundary element
method. Also, the second purpose of this study is analyzing of linear
wave equation in an acoustic field. The resultants of this modeling
consist of natural frequencies that have been compared with
resultants derived from finite element method. By using numerical
method (boundary element method) and after solution of wave
equation inside an acoustic enclosed cabin, this method has been
progressed to simulate noise inside a simple vehicle cabin.", keywords = "Boundary element method, natural frequency, noise,
vehicle cabin.", volume = "5", number = "1", pages = "277-5", }