Sonarlogger: Enabling long-term underwater sonar observations

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-04-18 DOI:10.1016/j.ohx.2024.e00531
Frederik-Willem Fourie Fred , Kobus Langedock , Roeland Develter , Harold Loop , Christopher J. Peck , Leandro Ponsoni , Hans Pirlet , Wieter Boone
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Abstract

Coastal seas are under increasing pressure from extreme weather events and sea level rise, resulting in impacts such as changing hydrodynamic conditions, coastal erosion, and marine heat waves. To monitor changes in coastal marine habitats, such as reefs and macrophytes meadows, which add to the resilience of our coasts, consistent, medium- to long-term seafloor observations are needed. This project aims to deliver repeated, high-frequency sonar surveys on a stationary seabed mooring of a specific target area over a period of up to several months. A new stand-alone subsea system, the Sonarlogger, based on a battery pack, low-power logger and a high-resolution scanning sonar, was developed. It allows for long-term deployments with a customisable battery pack, WI-FI download and configurable sleep state. The system has been tested for over 130 days in dynamic coastal environments off the Belgian coast. Combined with auxiliary sensors, such as for measuring currents, waves and turbidity, this system enables comprehensive studies of morphologic changes and changing benthic ecosystems. Moreover, this system has the capacity to provide measurements of coastal environments during storms, where conventional systems may fall short, providing insights into event-based changes of the seafloor.

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声纳记录仪:实现长期水下声纳观测
极端天气事件和海平面上升给沿岸海域带来的压力越来越大,导致水动力条件变 化、海岸侵蚀和海洋热浪等影响。珊瑚礁和大型草甸等沿海海洋栖息地增强了海岸的复原力,为了监测这些栖息地的变化,需要对海底进行持续、中长期的观测。该项目旨在对特定目标区域的固定海底系泊进行长达数月的重复高频声纳勘测。在电池组、低功耗记录仪和高分辨率扫描声纳的基础上,开发了一种新的独立海底系统--声纳记录仪。通过可定制的电池组、WI-FI 下载和可配置的睡眠状态,该系统可进行长期部署。该系统已在比利时海岸附近的动态沿海环境中进行了 130 多天的测试。该系统与测量海流、海浪和浊度等辅助传感器相结合,可对形态变化和不断变化的海底生态系统进行全面研究。此外,该系统还能在风暴期间测量传统系统可能无法测量的沿海环境,从而深入了解基于事件的海底变化。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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