Practical calibration of ship-mounted omni-directional fisheries sonars

Methods in Oceanography Pub Date : 2016-12-01 DOI:10.1016/j.mio.2016.10.001

Gavin J. Macaulay , Sindre Vatnehol , Ole Bernt Gammelsæter , Héctor Peña , Egil Ona

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引用次数: 4

Abstract

Conventional ship-mounted vertically-oriented echosounders are poor at detecting organisms that are close to the sea surface. In contrast, omni-directional sonars can ensonify these near-surface waters unavailable to hull-mounted echosounders. If calibrated, sonars can provide quantitative biomass estimates of pelagic aggregations. However, for sonars that have not been designed as scientific and research instruments, the quantification and verification of the system performance is of heightened importance, and should include how parameters such as the shape and gain of the beams vary with system and operational configurations. We present a practical methodology for absolute calibration of omni-directional sonars when conventionally mounted on a vessel, illustrate the achievable calibration accuracies and precision, and document their variability over time and for a range of operating parameters. This work forms an essential prerequisite to the use of such sonars for quantitative measurement of backscatter, such as for echo-integration surveys and individual school density and biomass estimation.

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船用全向渔业声纳的实用标定

传统的船载垂直方向回声探测仪在探测靠近海面的生物时效果很差。相比之下，全向声纳可以对船体上的回声测深仪无法探测到的近地表水域进行回声探测。如果经过校准，声纳可以提供远洋生物群落的定量生物量估计。然而，对于没有被设计为科学和研究仪器的声纳，系统性能的量化和验证是非常重要的，并且应该包括诸如波束的形状和增益等参数如何随系统和操作配置而变化。我们提出了一种实用的方法，用于常规安装在船上的全向声纳的绝对校准，说明了可实现的校准精度和精度，并记录了它们随时间和一系列操作参数的变化。这项工作是使用这种声纳进行反向散射定量测量的必要先决条件，例如用于回声整合调查和个别学校密度和生物量估计。

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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Methods in Oceanography

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