摘要
由一名新闻记者-机器人与机器学习每日新闻的工作人员新闻编辑-调查人员发布了关于机器人的新报告。根据NewsRx Correspon Dents来自西班牙巴塞罗那的新闻,研究表明,"联合国(UN)呼吁十年'生态系统恢复',是因为需要解决人工繁殖活动对自然生态系统的广泛影响。"新闻记者从Instituto de Ciencias del Mar的研究中获得了一句话:“由于深海(>200米深度)栖息地的退化程度不断增加,恢复海洋生态系统的必要性越来越大。这些深度远远超出了潜水者所能到达的深度,只有建立和新兴的机器人平台,如遥控潜水器(ROVs)、自动水下潜水器(AUVs)、登陆器、登陆器等。”利用先进技术进行深海生态系统EM恢复可以提供:高分辨率三维(3D)成像和基底和关键分类群的连续绘图、基底和关键分类群的物理操作、远程操作的实时监控和长期生态监测,以及自主工作的潜力。我们描述了具有现场操作能力和创新传感器有效载荷的机器人技术平台如何在较大的空间尺度上自主进行主动恢复和监测。
Abstract
By a News Reporter-Staff News Editor at Robotics & Machine Learning Daily News Daily News – Investigators publish new report on ro botics. According to news originating from Barcelona, Spain, by NewsRx correspon dents, research stated, “The United Nations (UN)’s call for a decade of ‘ecosyst em restoration’ was prompted by the need to address the extensive impact of anth ropogenic activities on natural ecosystems.” The news reporters obtained a quote from the research from Instituto de Ciencias del Mar: “Marine ecosystem restoration is increasingly necessary due to increas ing habitat degredation in deep waters (> 200 m depth). A t these depths, which are far beyond those accessible by divers, only establishe d and emerging robotic platforms such as remotely operated vehicles (ROVs), auto nomous underwater vehicles (AUVs), landers, and crawlers can operate through man ipulators and multiparametric sensor arrays (e.g., optoacoustic imaging, omics, and environmental probes). The use of advanced technologies for deep-sea ecosyst em restoration can provide: high-resolution three-dimensional (3D) imaging and a coustic mapping of substrates and key taxa, physical manipulation of substrates and key taxa, real-time supervision of remote operations and long-term ecologica l monitoring, and the potential to work autonomously. Here, we describe how robo tic platforms with in situ manipulation capabilities and payloads of innovative sensors could autonomously conduct active restoration and monitoring across larg e spatial scales.”
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