Using multibeam acoustic remotely sensed data to investigate seabed sediment grain size characteristics

机译：利用多波束声学遥感数据研究海床沉积物粒度特征

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Acoustic remote sensing is the only effective technique to investigate the deep seabed. Modern high-frequency multibeam echo-sounders transmit and receive backscatter signals from hundreds of narrow-angle beams which generate small footprints on the seabed. They can produce bathymetry and backscatter data with a spatial resolution around 2% of water depth, which enables us to map the seabed with great detail and accuracy. After calibration, the backscatter intensity is largely controlled by three seabed physical properties: the acoustic impedance contrast (often called “hardness”), apparent interface roughness (relative to acoustic frequency) and volume inhomogeneity [6, 7, 11]. These seabed physical properties are directly related to sediment grain size.

机译：声学遥感是调查深海海床的唯一有效技术。现代的高频多波束回声测深仪发送和接收来自数百个窄角波束的反向散射信号，这些波束在海床上产生很小的足迹。它们可以产生水深约2％的空间分辨率的测深和反向散射数据，这使我们能够以非常细致和精确的方式绘制海底地图。校准后，反向散射强度主要由三个海床物理特性控制：声阻抗对比（通常称为“硬度”），表观界面粗糙度（相对于声频）和体积不均匀性[6、7、11]。这些海底物理性质与沉积物粒度直接相关。

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《IEEE International Geoscience and Remote Sensing Symposium》|2016年|7620-7622|共3页
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Zhi Huang; Justy Siwabessy; Heqin Cheng; Scott Nichol;
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Backscatter; Sediments; Grain size; Australia; Acoustics; Geology;

机译：背向散射;沉积物;粒度;澳大利亚;声学;地质;

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专利

1. Predictive modelling of seabed sediment parameters using multibeam acoustic data: a case study on the Carnarvon Shelf, Western Australia [J] . Zhi Huang, Scott L. Nichol, Justy P.W. Siwabessy, International Journal of Geographical Information Science . 2012,第1a2期

机译：利用多束声数据对海床沉积物参数进行预测建模：以西澳大利亚州卡那封架为例
2. Using Multibeam Backscatter Data to Investigate Sediment‐Acoustic Relationships [J] . Huang Zhi, Siwabessy Justy, Cheng Heqin, Journal of Geophysical Research, C. Oceans: JGR . 2018,第7期

机译：使用多滨反向散射数据来调查沉积物声学关系
3. High-resolution paleoclimatic records spanning the past 30 cal ka BP inferred from Qionghai Lake sediments in south-west China: Insights from geochemical investigations and grain-size characteristics [J] . Wang Gen, Wei Zhifu, Wang Yongli, Geological Journal . 2019,第4期

机译：中国西南部琼海湖沉积物推断出过去30次CAL KA BP的高分辨率古跨线记录：地球化学研究和晶粒尺寸特征的见解
4. Using multibeam acoustic remotely sensed data to investigate seabed sediment grain size characteristics [C] . Zhi Huang, Justy Siwabessy, Heqin Cheng, IEEE International Geoscience and Remote Sensing Symposium . 2016

机译：使用MultiBeam声学传感数据来研究海底沉积物粒度特性
5. Acoustic and sedimentological investigations of seabed conditions and related bio-geological parameters in a tidally energetic, fine-grained environment: York River Estuary, Virginia. [D] . Kraatz, Lindsey M. 2013

机译：在潮汐活跃，细粒度环境中的海床条件和相关生物地质参数的声学和沉积学研究：弗吉尼亚州约克河河口。
6. A Comparison of Supervised Classification Methods for the Prediction of Substrate Type Using Multibeam Acoustic and Legacy Grain-Size Data [O] . David Stephens, Markus Diesing -1

机译：使用多光束声和遗留粒度数据预测基材类型的监督分类方法的比较
7. A comparison of supervised classification methods for the prediction of substrate type using multibeam acoustic and legacy grain-size data. [O] . David Stephens, Markus Diesing 2014

机译：使用多波束声学和传统粒度数据预测基板类型的监督分类方法的比较。
8. Using Satellite-Based Remotely-Sensed Data to Determine Tropical Cyclone Size and Structure Characteristics. [R] . E. A. Ritchie J. S. Tyo 2013

机译：利用基于卫星的遥感数据确定热带气旋的大小和结构特征。

Using multibeam acoustic remotely sensed data to investigate seabed sediment grain size characteristics

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