自然灾害对海底电信网络影响的多样性、频率和严重性

IF 10.8 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Earth-Science Reviews Pub Date : 2024-11-04 DOI:10.1016/j.earscirev.2024.104972
Lucy Bricheno , Isobel Yeo , Michael Clare , James Hunt , Allan Griffiths , Lionel Carter , Peter J. Talling , Megan Baker , Stuart Wilson , Matthew West , Semisi Panuve , Samuiela Fonua
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引用次数: 0

摘要

海底电缆是全球通信的基础,承载着全球 99% 以上的数字数据流量。虽然这个长达 160 万公里的网络在设计上具有很强的抗灾能力,但海底光缆可能会受到海洋各水深区域发生的多种自然灾害的破坏。在此,我们从广泛的频率-强度频谱出发,探讨了可能损坏电缆的各种自然灾害。本文首次从全球角度阐述了影响电缆的实际和潜在危害。因此,它是对灾害的区域变异性和复杂性的一个通俗易懂的概述。相对罕见的极端事件,如超强台风、海底滑坡或相关的浊流和火山爆发,可同步对多个系统造成大范围破坏,在某些情况下会导致整个国家断开连接或数据流量急剧减慢。我们的研究表明,损坏很少与初始事件有关,而是由一系列可能滞后数年的过程造成的。并非所有与自然过程相关的电缆损坏事件都与极端事件有关。我们的研究表明,以往研究忽略的强度小得多的气象和海洋过程,如风暴和持续海底流,也会损坏海底电缆。对过去电缆损坏情况的新分析表明,很大一部分之前未归因的故障可能与此类低强度但持续的影响有关。正是这些危害最有可能随着持续的气候变化而在频率和规模上发生变化,但也更容易预测。通过绘制这些不同危害的暴露图,我们确定了受地理条件限制的危害热点,并确定了各种缓解措施,以增强证据基础,进一步加强海底电信网络的复原力。
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The diversity, frequency and severity of natural hazard impacts on subsea telecommunications networks
Subsea cables underpin global communications, carrying more than 99 % of all digital data traffic worldwide. While this >1.6 million km-long network has been designed to be highly resilient, subsea cables can be damaged by a number of natural hazards that occur across all water depths in the ocean. Here, we explore the diversity of natural hazards that can damage cables, considering a broad frequency-magnitude spectrum. This paper is the first global perspective of actual and potential hazards affecting cables. As such, it is an accessible overview of the regional variability and complexity of hazards. Relatively rare and extreme events, such as super typhoons, submarine landslides or associated turbidity currents and volcanic eruptions, can synchronously cause widespread damage to multiple systems, in some cases disconnecting entire countries or dramatically slowing data traffic. We show that damage is rarely linked to an initial event, instead arising from cascades of processes that can lag by years. Not all instances of cable damage that relate to natural processes are linked to extreme events. We show that much smaller intensity meteorological and oceanographic processes such as storms and continuous seafloor currents that have been overlooked by previous studies can also damage subsea cables. New analysis of past instances of cable damage reveals that a significant proportion of previously unattributed faults may relate to such low-level but sustained impacts. It is these hazards that are most likely to change in frequency and magnitude in response to ongoing climate change but are also more predictable. Through mapping of exposure to these different hazards, we identify geographically-constrained hazard hotspots and identify various mitigation measures to enhance the evidence base and further strengthen subsea telecommunications network resilience.
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来源期刊
Earth-Science Reviews
Earth-Science Reviews 地学-地球科学综合
CiteScore
21.70
自引率
5.80%
发文量
294
审稿时长
15.1 weeks
期刊介绍: Covering a much wider field than the usual specialist journals, Earth Science Reviews publishes review articles dealing with all aspects of Earth Sciences, and is an important vehicle for allowing readers to see their particular interest related to the Earth Sciences as a whole.
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