海草草甸中声传播的测量和建模

M. Ballard, Kevin M. Lee, J. Sagers, G. Venegas, Andrew R. McNeese, Abdullah F. Rahman, Justin T. Dubin, P. Wilson
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引用次数: 1

摘要

这次演讲介绍了在下拉古纳马德雷进行的声学传播实验的结果,以表征海草草甸的声学特性。在实验地点,水有一米深,海床被密集生长的海苔覆盖,海苔是一种海草,从埋在海底5厘米到10厘米的长而有节节的根茎中生长出来。众所周知,与海草相关的生物过程和物理特性会影响声音的传播,因为海草会产生气泡,从而导致声音的分散、吸收和散射。在实验中,使用燃烧声源在距离接收器位置20米至1000米的范围内产生宽带信号。接收器位置安装了三个传感器:两个水听器位于海草冠层内部和上方,一个单轴检波器。对这些数据进行了分析,以预测海草草甸中的声传播,并估计其环境影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Measurements and modeling of acoustic propagation in a seagrass meadow
This talk presents results from an acoustic propagation experiment conducted in the Lower Laguna Madre to characterize the acoustical properties of a seagrass meadow. At the location of the experiment, the water was one meter deep, and the seabed was covered by a dense growth of Thalassia testudinum, a type of seagrass that grows from a long, jointed rhizome buried 5 cm to 10 cm below the seafloor. The biological processes and physical characteristics associated with seagrass are known to affect acoustic propagation due to bubble production, which results in dispersion, absorption and scattering of sound. During the experiment, a Combustive Sound Source was used to produce broadband signals at ranges of 20 m to 1000 m from the receiver location. Three sensors were positioned at the receiver location: two hydrophones located within and above the seagrass canopy, and a single-axis geophone. The data were analyzed for the purposes of predicting acoustic propagation in seagrass meadows and for estimating envi...
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