[Remotely operated underwater vehicles used in water rescue].

4区 医学 Q2 Medicine Unfallchirurg Pub Date : 2021-12-01 Epub Date: 2021-10-15 DOI:10.1007/s00113-021-01097-1
Thorsten Lück, Volker Kvasnicka, Anabell Lück
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引用次数: 1

Abstract

Background: The search for and rescue of missing persons is always coupled with a high demand on human resources. In cases of suspected drowning it is often necessary to search huge expanses of water. For depths of more than 3-5 m the search and rescue procedure needs to be performed by specialist rescue divers. Due to saturation with nitrogen caused by the higher ambient pressure during the dive, the operating time for each rescue diver is limited. In addition, each dive is linked with an increased risk.

Objective: Miniaturization of sensors, higher performance of embedded systems and high energy density of modern accumulators offer the chance to operate with unmanned flying and diving vehicles for search and rescue even with moderate financial investment.

Material and methods: Based on funding by the Federation of the German Live Saving Association (DLRG) the DLRG national association of Bavaria procured three different models of remotely operated underwater vehicles (ROUV) and two different systems for underwater positioning. These systems will be offered to local associations of the DLRG in Bavaria for intense testing in their waters based on a common implementation strategy to ensure comparability and reproducibility.

Results: Initial tests with different types of ROUV and underwater positioning have been performed in preparation of the survey. As a result, mini-ROUVs found in the lower consumer segment have been identified as insufficient as they are not able to carry the additional payload of the underwater positioning systems whilst maintaining controllability. In contrast, more complex drones are difficult to handle and require longer preparation times before they are ready for use. The ROUVs in the median range, preferably with a streamlined structure, have so far been found to be optimal; however, operating the vehicle without a positioning system is not recommended.

Conclusion: In combination with an underwater positioning system, remotely operated underwater vehicles are identified as a reasonable supplement for rescue divers. Fast time to operation enables a preview of the operating area before starting the rescue operation and can therefore support the rescue diver team.

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[用于水上救援的遥控水下航行器]。
背景:寻找和救援失踪人员总是伴随着对人力资源的高需求。在疑似溺水的情况下,通常有必要搜索大片水域。对于超过3-5米的深度,搜索和救援程序需要由专业救援潜水员执行。由于潜水过程中较高的环境压力导致氮气饱和,每个救援潜水员的操作时间有限。此外,每次潜水都与风险增加有关。目的:传感器的小型化、嵌入式系统的高性能和现代蓄能器的高能量密度,使无人驾驶飞行和潜水器在适度的资金投入下也能进行搜索和救援。材料和方法:根据德国救生协会联合会(DLRG)的资助,巴伐利亚州DLRG国家协会采购了三种不同型号的远程操作水下航行器(ROUV)和两种不同的水下定位系统。这些系统将提供给巴伐利亚州DLRG的地方协会,根据共同的实施战略在其水域进行密集测试,以确保可比性和可重复性。结果:为了准备调查,已经进行了不同类型的ROUV和水下定位的初步测试。因此,在较低消费人群中发现的迷你rouv已被确定为不足,因为它们无法在保持可控性的同时携带水下定位系统的额外有效载荷。相比之下,更复杂的无人机难以操作,在准备使用之前需要更长的准备时间。到目前为止,在中位数范围内的rouv,最好是流线型结构,是最佳的;但是,不建议在没有定位系统的情况下操作车辆。结论:与水下定位系统相结合,可以确定遥控水下航行器作为救援潜水员的合理补充。快速的操作时间可以在开始救援行动之前预览操作区域,因此可以支持救援潜水员团队。
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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来源期刊
Unfallchirurg
Unfallchirurg 医学-急救医学
CiteScore
1.50
自引率
0.00%
发文量
69
审稿时长
4-8 weeks
期刊介绍: Der Unfallchirurg is an internationally recognised publication organ. The journal deals with all aspects of accident surgery and reconstruction surgery and serves the continuing medical education of surgeons and accident surgeons with own practices and those working in hospitals. Practically-oriented works provide an overview on selected topics and offer the reader a summary of current findings from all fields of accident surgery. Besides the imparting of relevant background knowledge, the focus is on the assessment of scientific findings under consideration of practical experience. The reader is given concrete recommendations for his/her practical work.
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