Analisis Kecepatan Perambatan Gelombang Internal Soliter di Selat Lombok dengan Citra Himawari-8

Chonnaniyah Chonnaniyah, I. Karang, A. R. As-syakur, Takahiro Osawa
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Abstract

Internal waves are phenomena that occur below sea surface. One of the most observed types of internal waves was called a solitary wave or soliton so it is often known as an internal solitary wave (ISW). Lombok Strait was one of the straits located in the southern part of the Indonesian archipelago which has the characteristics of intensive ISW generation because this strait has complex waters characteristics. This study aim to analyzed in detail the changes in the ISW propagation speed at the first crest soliton every 10 minutes using Himawari-8 data. The detected ISW pattern is then extracted at the first crest of the soliton as a reference to measure the distance between the detected soliton every 10 minutes as input in estimating the propagation speed. The Himawari-8 image which was in this study detected 2 ISW packets in the Lombok strait area. Packet 1 which was detected in the northern part of the Lombok strait approaching Kangean island had a group speed of 2.22 m/s and Packet 2 which was detected in the area around the Lombok strait had a group speed of 2.78 m/s. The difference in group velocity of the two packets is due to the variation in depth along the ISW propagation. The analysis results of changes in ISW propagation speed in this study indicate that Himawari-8 imagery is a very effective instrument for analysing changes in ISW propagation speed in detail every 10 minutes which is difficult for satellite imagery which usually has low temporal resolution.
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Himawari-8图像对龙目岛南部内部孤立波斜率的分析
内波是发生在海面下的现象。最常见的内波类型之一被称为孤立波或孤立子,因此它通常被称为内部孤立波(ISW)。龙目海峡是位于印度尼西亚群岛南部的海峡之一,由于该海峡具有复杂的水域特征,因此具有密集的ISW生成特征。本研究旨在使用Himawari-8数据详细分析每10分钟第一个波峰孤子的ISW传播速度的变化。然后在孤子的第一波峰提取检测到的ISW模式作为参考,以每10分钟测量检测到的孤子之间的距离作为估计传播速度的输入。本研究中的Himawari-8图像在龙目海峡地区检测到2个ISW包。在靠近Kangean岛的龙目海峡北部检测到的数据包1具有2.22m/s的群速度,在龙目海峡周围区域检测到的包2具有2.78m/s的群速率。两个分组的群速度的差异是由于沿着ISW传播的深度的变化。本研究中对ISW传播速度变化的分析结果表明,Himawari-8图像是一种非常有效的工具,可以每10分钟详细分析ISW传播速率的变化,这对于通常时间分辨率较低的卫星图像来说是困难的。
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