用经验方程和SVP确定声速

2011 IEEE 7th International Colloquium on Signal Processing and its Applications Pub Date : 2011-03-04 DOI:10.1109/CSPA.2011.5759882

K. H. Talib, M. Othman, SAIFUL AMAN Bin HJ SULAIMAN, M. Wazir, A. Azizan

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引用次数: 5

摘要

声，导航和测距(声纳)通常用于水下测量应用。声学声纳在水下最流行的应用是测深测量，回声测深仪用于测量深度。声纳中的深度是根据声纳方程来计算的。在声纳方程中，测量了从传感器发射声纳波到底部再反射回传感器的时间。声纳计算水深的主要参数是航行时间和声速。如果准确地知道SOS，就可以准确地确定深度。然而，SOS值受到温度、盐度和密度的影响。有各种各样的设备和公式可以用来准确地确定SOS。本文将讨论特定类型水域(海水、河口和淡水)的SOS现场观测，并比较经验方程计算的SOS与实际观测的SOS值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Determination of speed of sound using empirical equations and SVP

Acoustic sound, navigation and ranging (SONAR) is commonly used for underwater measurement applications. The most popular underwater applications using acoustic sonar is bathymetry surveying, which echo sounder is used to a measured depth. Depths in acoustic sonar are computed based on sonar equation. In sonar equation, elapsed time from a sensor transmitting sonar wave to the bottom and reflected back to the sensor were measured. The main parameter contributing in computation of depth using acoustic sonar are travel time and speed of sound (SOS). If SOS is accurately known, depth can be accurately determined. However, SOS values are subjected to temperature, salinity and density. There are various equipments and formula can be used to determine SOS accurately. This paper will discuss on field observation of SOS with specific types of water categories (sea water, estuary and fresh water) and compare the value between computed SOS using empirical equations and observed SOS.

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2011 IEEE 7th International Colloquium on Signal Processing and its Applications

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