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NTIS 바로가기Building acoustics, v.20 no.3, 2013년, pp.243 - 253
Tang, C.H. (Automotive Engineering College, Shanghai University of Engineering Science, Shanghai 201620) , Wang, Y.S. (Automotive Engineering College, Shanghai University of Engineering Science, Shanghai 201620) , Guo, H. (Automotive Engineering College, Shanghai University of Engineering Science, Shanghai 201620)
The noise of underground subway stations has a great influence on the passengers and workers. The finite-element based software Actran is introduced to analyze the acoustical performance of an underground subway station in this paper. A sample station named Xingzhong Road from metro line 9 in Shang...
Peters, S.. The prediction of railway noise profiles. Journal of sound and vibration, vol.32, no.1, 87-99.
BANDYOPADHYAY, Prabal, BHATTACHARYA, Sunil Kumar, KASHYAP, Shri Kant. Assessment of Noise Environment in a Major Railway Station in India. Industrial health, vol.32, no.3, 187-192.
RTRI Report. Endoh H 41 21 2007
伊積 康彦, 藤井 光治郎, 岩瀬 昭雄. 駅コンコースの音環境に関する実態調査と主観評価試験. 日本建築學會環境系論文集 = Journal of environmental engineering (Transactions of AIJ), vol.76, no.660, 115-124.
Environment pollution and prevention Jiang Weikang 64 31 12 2009
J Occup Environ Med Johanning E 605 33 1991
Shimokura, R., Soeta, Y.. Sound field characteristics of underground railway stations - Effect of interior materials and noise source positions. Applied acoustics, vol.73, no.11, 1150-1158.
Cheng Jianchun, and Jing Tian. China's acoustic progress. Beijing: Science Press. 2008. 539-627.
Sü, Zühre, Çalışkan, Mehmet. Acoustical Design and Noise Control in Metro Stations: Case Studies of the Ankara Metro System. Building acoustics, vol.14, no.3, 203-221.
The theory of acoustic finite element analysis and engineering application Wang Zhiguo 2007
Urban Mass Transit He Jianliang 57 8 2007
Analysis of Noise of Huangzhuang Station and Research on its Contro Gao Pan 2009
Zhu, J., Chew, D.A.S., Lv, S., Wu, W.. Optimization method for building envelope design to minimize carbon emissions of building operational energy consumption using orthogonal experimental design (OED). Habitat international, vol.37, 148-154.
Rey, Romina del, Alba, Jesus, Arenas, Jorge P., Sanchis, Vicente J.. An empirical modelling of porous sound absorbing materials made of recycled foam. Applied acoustics, vol.73, no.6, 604-609.
Wang, J., Liu, J., Zhang, G., Zhou, J., Cen, K.. Orthogonal design process optimization and single factor analysis for bimodal acoustic agglomeration. Powder technology, vol.210, no.3, 315-322.
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