利用遥感信息提取浅水底栖生物栖息地特征的穿透式传感器

2016 6th IEEE International Conference on Control System, Computing and Engineering (ICCSCE) Pub Date : 2016-01-01 DOI:10.1109/ICCSCE.2016.7893621

A. Ballado, J. Lazaro, Eric Joshua A. Aquino, Alliezza Jayne B. Balaga, Anjon S. Hernandez, M. V. Caya

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引用次数: 2

摘要

本文利用嵌入80和455 KHz换能器的Lowrance Elite CHIRP 7声纳系统，对浅水底栖生物栖息地的空间特征进行了数据分析。基本上，该系统通过较便宜的解决方案满足了对底栖生物栖息地信息的需求。所使用的系统相对更便宜，规模更小，而不会留下大型系统的功能。通过收发器收集底栖生物栖息地的数据，并使用树莓派加载的图像处理技术进行空间特征提取。研究发现，水下鱼类和植被的分布与地形形状有直接关系。分析了最小偏差坡度地形、抛物线坡度地形和变坡度地形3种地形，其中变坡度地形的鱼类和植被分布最高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Water Penetrating Sensor for Feature Extraction of Benthic Habitat using Remotely Sensed Information in Shallow Water

In this paper, data analysis was performed on the spatial features of the benthic habitat using the Lowrance Elite CHIRP 7 SoNAR system embedded with an 80 and 455 KHz transducer in shallow water. Basically, the system addresses the need for information from the benthic habitat in order by means of cheaper solution. The system used was relatively cheaper and way smaller in scale without leaving behind the functionality of the large scale systems. Data was gathered from benthic habitat through the transceiver and analyzed using image processing techniques loaded in Raspberry Pi for spatial features extraction. It was found that the distribution of fishes and vegetation underwater has a direct correlation to the shape of the terrain. Three different terrains were analyzed, minimum deviation slope terrain, parabolic slope terrain and varying slope terrain, wherein the last mentioned terrain produced the highest distribution for both fishes and vegetation.

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2016 6th IEEE International Conference on Control System, Computing and Engineering (ICCSCE)

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