Atmospheric Convection Research Using Autonomous Surface Vehicles

IF 0.7 4区地球科学 Q4 METEOROLOGY & ATMOSPHERIC SCIENCES MAUSAM Pub Date : 2023-03-29 DOI:10.54302/mausam.v74i2.5904

K. Yoneyama, S. Yokoi, M. Fujita, A. Seiki, M. Katsumata, B. Geng, T. Fukuda

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引用次数: 0

Abstract

Under the international field program Years of the Maritime Continent (YMC), we conducted a field campaign YMC-Boreal Summer Monsoon study in 2020 (YMC-BSM 2020) in the tropical western Pacific in August - September 2020. While this campaign was aimed to capture and understand the behavior of northward propagating boreal summer intraseasonal oscillation by forming an observation array with a ship and three islands, we also deployed three autonomous surface vehicles (ASVs) and one surface buoy around the research vessel Mirai for one month. The latter was designed not only to study air-sea interaction but also to extend a capability of ASVs for meso-scale atmospheric convection research in future. Thus, in this article we demonstrate that deployment of several instrumented ASVs can capture some basic atmospheric features associated with convection development by showing several comparisons with that obtained by other measurements. Deploying several ASVs in order of 100 km scale is the key, because it can capture gradients of surface atmospheric and oceanic parameters such as sea surface temperatures and can demonstrate a relation between their gradients and atmospheric convection-related features. Since ASVs can be deployed from small islands and controlled remotely to occupy any designated area, this might engage future use of ASVs to study atmospheric convection more flexibly.

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利用自动地面飞行器进行大气对流研究

根据国际实地项目“海洋大陆年”(Years of the Maritime Continent, YMC)，我们于2020年8 - 9月在热带西太平洋开展了“2020年海洋-北方夏季风研究”(YMC- bsm 2020)实地活动。这次活动的目的是通过一艘船和三个岛屿组成一个观测阵列，捕捉和了解向北传播的北方夏季季节性振荡的行为，我们还在研究船Mirai周围部署了三个自主水面车辆(asv)和一个水面浮标，为期一个月。后者的设计不仅是为了研究海气相互作用，而且是为了扩展asv在未来中尺度大气对流研究中的能力。因此，在本文中，我们通过与其他测量获得的数据进行比较，证明部署几个仪器化的asv可以捕获与对流发展相关的一些基本大气特征。在100公里尺度上部署几个asv是关键，因为它可以捕获表面大气和海洋参数(如海面温度)的梯度，并可以展示它们的梯度与大气对流相关特征之间的关系。由于asv可以从小岛屿部署，并远程控制占据任何指定区域，这可能会使未来使用asv更灵活地研究大气对流。

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来源期刊

MAUSAM 地学-气象与大气科学

CiteScore

1.20

自引率

0.00%

发文量

1298

审稿时长

6-12 weeks

期刊介绍： MAUSAM (Formerly Indian Journal of Meteorology, Hydrology & Geophysics), established in January 1950, is the quarterly research journal brought out by the India Meteorological Department (IMD). MAUSAM is a medium for publication of original scientific research work. MAUSAM is a premier scientific research journal published in this part of the world in the fields of Meteorology, Hydrology & Geophysics. The four issues appear in January, April, July & October.