利用遥控飞行器进行海上遥感科学研究。

IF 2.9 Q2 ROBOTICS
Frontiers in Robotics and AI Pub Date : 2024-10-18 eCollection Date: 2024-01-01 DOI:10.3389/frobt.2024.1454923
Zara Mirmalek, Nicole A Raineault
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引用次数: 0

摘要

鉴于船上的电信、计算和网络技术已成为科学家从陆上扩大研究范围的常用机制,开展远洋海洋科学研究不再需要局限于船上的泊位数量。海洋学界通常使用遥控潜水器(ROV)和飞行员在船上获取深海的实时视频和数据。使用遥控潜水器及其主机船的实时流媒体功能作为网真技术的延伸已经普及了近 30 年。配备遥控潜水器的网真船已被用于科学、教育和外联活动,让更多的社区有机会观看海洋科学。然而,使船上和岸上科学家能够持续实时参与的技术和社会进程发展缓慢,削弱了更广泛参与的潜力,从而限制了通过知识和能力的多样性增加包容性和发现的可能性。本文回顾了海洋科学家在基于遥控潜水器的深海研究中使用远程呈现的情况,以及对远程呈现能力的资助研究。作者总结了这些研究的发现和条件,并据此定义了 "海上远程科学 "对远程呈现船只的使用。作者将 "海上远程科学 "定义为一种海洋考察,是一种额外的能力,而不是科学家进行海洋研究的所有做法的替代品。海洋研究远程科学是由一个分布式科学团队指导的海上考察,该团队至少在两个地点(船上和岸上)共同完成科学目标,其主要数据由机器人技术获取,并由高带宽卫星和支持远程呈现的船舶技术提供连接,以支持科学团队在潜水前、潜水期间和潜水后跨工作地点的积极参与。远程科学海洋探险成果的增长遇到了社会、技术和后勤方面的挑战,这些挑战阻碍了远程科学家取得成功的能力。在本文中,作者回顾了远程呈现海洋科学,定义和定位了海上远程科学的邻接模式,以及开展和进一步发展海上远程科学的一些基础设施、技术和社会考虑因素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Remote science at sea with remotely operated vehicles.

Conducting sea-going ocean science no longer needs to be limited to the number of berths on a ship given that telecommunications, computing, and networking technologies onboard ships have become familiar mechanisms for expanding scientists' reach from onshore. The oceanographic community routinely works with remotely operated vehicles (ROVs) and pilots to access real-time video and data from the deep sea, while onboard a ship. The extension of using an ROV and its host vessel's live-streaming capabilities has been popularized for almost 3 decades as a telepresence technology. Telepresence-enabled vessels with ROVs have been employed for science, education, and outreach, giving a greater number of communities viewing access to ocean science. However, the slower development of technologies and social processes enabling sustained real-time involvement between scientists on-ship and onshore undermines the potential for broader access, which limits the possibility of increasing inclusivity and discoveries through a diversity of knowledge and capabilities. This article reviews ocean scientists' use of telepresence for ROV-based deep-sea research and funded studies of telepresence capabilities. The authors summarize these studies findings and conditions that lead to defining the use of telepresence-enabled vessels for "remote science at sea." Authors define remote science at sea as a type of ocean expedition, an additional capability, not a replacement for all practices by which scientists conduct ocean research. Remote science for ocean research is an expedition at-sea directed by a distributed science team working together from at least two locations (on-ship and onshore) to complete their science objectives for which primary data is acquired by robotic technologies, with connectivity supported by a high-bandwidth satellite and the telepresence-enabled ship's technologies to support the science team actively engaged before, during, and after dives across worksites. The growth of productive ocean expeditions with remote science is met with social, technical, and logistical challenges that impede the ability of remote scientists to succeed. In this article, authors review telepresence-enabled ocean science, define and situate the adjoined model of remote science at sea, and some infrastructural, technological and social considerations for conducting and further developing remote science at sea.

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来源期刊
CiteScore
6.50
自引率
5.90%
发文量
355
审稿时长
14 weeks
期刊介绍: Frontiers in Robotics and AI publishes rigorously peer-reviewed research covering all theory and applications of robotics, technology, and artificial intelligence, from biomedical to space robotics.
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