Passive acoustic monitoring of coastal dynamical oceanographic phenomena using single hydrophone

2014 IEEE Sensor Systems for a Changing Ocean (SSCO). Pub Date : 2014-10-13 DOI:10.1109/SSCO.2014.7000374
G. B. Kinda, J. Bonnel
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引用次数: 2

Abstract

During long term passive acoustic monitoring in shallow water in Iroise Sea, the time series of the ambient noise recorded with a single hydrophone showed some unusual striations in the time-frequency domain. The changes in the striation slopes are related to the tidal oscillations, which induce a change in the water depth of the waveguide. The observed striations are highly correlated with the tides, and this phenomenon is classically described by a simple scalar γ called the depth-frequency waveguide invariant. However, the observed invariant γobs ≃ -1 differs from the canonical γ = -2 value. A theoretical approach is developed to explain the observed γobs, and particularly its dependence on the bathymetry in a range-dependent environment.
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基于单水听器的海岸动力海洋现象被动声监测
在伊洛伊兹海浅水长期被动声监测中,单水听器记录的环境噪声时间序列在时频域出现了一些不寻常的条纹。条纹斜率的变化与潮汐振荡有关,潮汐振荡引起波导水深的变化。观察到的条纹与潮汐高度相关,这种现象经典地被称为深度-频率波导不变量的简单标量γ描述。然而,观测到的不变γobs≃-1与标准γ = -2不同。提出了一种理论方法来解释观测到的γ - obs,特别是它在距离依赖环境中对测深的依赖。
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2014 IEEE Sensor Systems for a Changing Ocean (SSCO).
2014 IEEE Sensor Systems for a Changing Ocean (SSCO).
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Range and depth estimation of bowhead whale calls in the Arctic using a single hydrophone Passive acoustic monitoring of coastal dynamical oceanographic phenomena using single hydrophone A Sensor Web architecture for sharing oceanographic sensor data NeXOS contribution to the adaptation of system analysis engineering tools for mature and reliable ocean sensors COMMON SENSE: Cost-effective sensors, interoperable with international existing ocean observing systems, to meet EU policies requirements
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