{"title":"Wave height measurements using acoustic surface tracking","authors":"T. Pedersen, S. Nylund, A. Dolle","doi":"10.1109/OCEANS.2002.1191898","DOIUrl":null,"url":null,"abstract":"Nortek has improved upon its AWAC, a current and wave measurement sensor package, by introducing a vertical, acoustic beam that detects the surface. This added functionality allows for directly measuring waves as opposed to interfering wave estimates from wave energy spectra. Traditionally, wave measurements from bottom-mounted instruments, such as the combine pressure-velocity (PUV) approach, are limited in their frequency response. This is due to attenuation of the surface signal with increasing depth. Recent advances employ the alternative solution of measuring orbital velocities close to the surface and incorporating the Maximum Likelihood Method (MLM) estimate technique (Krogstad et al., 1988). This improves the accuracy at higher frequencies. However, for deployment depths of 10 metres or deeper, these methods cannot resolve waves periods that are 3 seconds or shorter. Moreover, these bottom-mounted systems do not measure the real surface time series, which makes it difficult to calculate extreme value statistics. The following paper provides an overview of the process of (1) developing the surface track algorithms, (2) comparing with a Datawell wave buoy off the coast of Carqueirance, France (3) and testing limiting conditions such as breaking waves and greater depths (35 metres).","PeriodicalId":431594,"journal":{"name":"OCEANS '02 MTS/IEEE","volume":"1 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2004-06-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"18","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"OCEANS '02 MTS/IEEE","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.1109/OCEANS.2002.1191898","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 18
Abstract
Nortek has improved upon its AWAC, a current and wave measurement sensor package, by introducing a vertical, acoustic beam that detects the surface. This added functionality allows for directly measuring waves as opposed to interfering wave estimates from wave energy spectra. Traditionally, wave measurements from bottom-mounted instruments, such as the combine pressure-velocity (PUV) approach, are limited in their frequency response. This is due to attenuation of the surface signal with increasing depth. Recent advances employ the alternative solution of measuring orbital velocities close to the surface and incorporating the Maximum Likelihood Method (MLM) estimate technique (Krogstad et al., 1988). This improves the accuracy at higher frequencies. However, for deployment depths of 10 metres or deeper, these methods cannot resolve waves periods that are 3 seconds or shorter. Moreover, these bottom-mounted systems do not measure the real surface time series, which makes it difficult to calculate extreme value statistics. The following paper provides an overview of the process of (1) developing the surface track algorithms, (2) comparing with a Datawell wave buoy off the coast of Carqueirance, France (3) and testing limiting conditions such as breaking waves and greater depths (35 metres).
Nortek公司对AWAC进行了改进,AWAC是一种电流和波浪测量传感器套件,通过引入垂直声束来检测表面。这种增加的功能允许直接测量波浪,而不是从波浪能量谱中进行干扰波估计。传统上,通过底部安装的仪器进行波浪测量,例如组合压力-速度(PUV)方法,其频率响应受到限制。这是由于地表信号随着深度的增加而衰减。最近的进展采用了另一种解决方案,即测量靠近地表的轨道速度,并结合最大似然法(MLM)估计技术(Krogstad et al., 1988)。这提高了更高频率下的精度。然而,对于10米或更深的部署深度,这些方法无法解析3秒或更短的波周期。此外,这些底部安装的系统不测量真实的地表时间序列,这使得极值统计的计算变得困难。下面的论文概述了(1)开发水面跟踪算法的过程,(2)与法国Carqueirance海岸的Datawell波浪浮标进行比较(3)并测试极限条件,如破浪和更大的深度(35米)。
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