Detection of Aquatic Plants Using Multispectral UAV Imagery and Vegetation Index

Bonggeun Song,Kyunghun Park

doi:10.3390/rs12030387

Bonggeun Song, Kyunghun Park

Open Access

https://doi.org/10.3390/rs12030387

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Journal: Remote Sensing	Publication Date: Jan 25, 2020
Citations: 45	License type: CC BY 4.0

Affiliation: Changwon National University

Abstract

In this study, aquatic plants in a small reservoir were detected using multispectral UAV (Unmanned Aerial Vehicle) imagery and various vegetation indices. A Firefly UAV, which has both fixed-wing and rotary-wing flight modes, was flown over the study site four times. A RedEdge camera was mounted on the UAV to acquire multispectral images. These images were used to analyze the NDVI (Normalized Difference Vegetation Index), ENDVI (Enhance Normalized Difference Vegetation Index), NDREI (Normalized Difference RedEdge Index), NGRDI (Normalized Green-Red Difference Index), and GNDVI (Green Normalized Difference Vegetation Index). As for multispectral characteristics, waterside plants showed the highest reflectance in Rnir, while floating plants had a higher reflectance in Rre. During the hottest season (on 25 June), the vegetation indices were the highest, and the habitat expanded near the edge of the reservoir. Among the vegetation indices, NDVI was the highest and NGRDI was the lowest. In particular, NGRDI had a higher value on the water surface and was not useful for detecting aquatic plants. NDVI and GNDVI, which showed the clearest difference between aquatic plants and water surface, were determined to be the most effective vegetation indices for detecting aquatic plants. Accordingly, the vegetation indices using multispectral UAV imagery turned out to be effective for detecting aquatic plants. A further study will be accompanied by a field survey in order to acquire and analyze more accurate imagery information.

Highlights

It is widely known that aquatic plants in water bodies such as rivers and reservoirs can improve water quality [1,2,3]
The GNDVI, ENDVI, and NDREI were highly correlated to the NDVI and showed the same characteristics according to the covering types of the reservoir including aquatic plants and the water surface
This study analyzed a method of detecting aquatic plants by utilizing multispectral UAV imagery and various vegetation indices for a small reservoir

Summary

Introduction

It is widely known that aquatic plants in water bodies such as rivers and reservoirs can improve water quality [1,2,3]. Vegetation surveys using UAVs mainly obtain high resolution images and analyze the unique spectral information of plants to classify plant species or identify the distribution of habitats [7,13, 16,21,22,23,24]. For such an analysis, a vegetation index (VI) is usually applied, which is derived from the characteristics of various spectral wavelengths [25,26,27]. The analysis proceeded as follows: (1) multispectral UAV images were acquired and the spectral characteristics for aquatic plants and water surface were analyzed, and (2) various vegetation indices used in the existing studies were analyzed to see what method was appropriate for surveying the habitats of aquatic plants

Study Reservoir

VegeNtaatmioen Index

Profile Analysis

RReessuullttss

Findings

Conclusions