Accuracy and Optimal Altitude for Physical Habitat Assessment (PHA) of Stream Environments Using Unmanned Aerial Vehicles (UAV)

Ângela Klein Hentz,Elliott Kellner,Paul Kinder,Jason Hubbart

doi:10.3390/drones2020020

Ângela Klein Hentz, Elliott Kellner + Show 2 more

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https://doi.org/10.3390/drones2020020

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Journal: Drones	Publication Date: May 28, 2018
Citations: 8	License type: CC BY 4.0

Affiliation: West Virginia University, Federal University of Paraná

Abstract

Physical Habitat Assessments (PHA) are useful to characterize and monitor stream and river habitat conditions, but can be costly and time-consuming. Alternative methods for data collection are getting attention, such as Unmanned Aerial Vehicles (UAV). The objective of this work was to evaluate the accuracy of UAV-based remote sensing techniques relative to ground-based PHA measurements, and to determine the influence of flight altitude on those accuracies. A UAV quadcopter equipped with an RGB camera was flown at the altitudes of 30.5 m, 61.0 m, 91.5 m and 122.0 m, and the metrics wetted width (Ww), bankfull width (Wbf) and distance to water (Dw) were compared to field PHA. The UAV-PHA method generated similar values to observed PHA values, but underestimated distance to water, and overestimated wetted width. Bankfull width provided the largest RMSE (25–28%). No systematic error patterns were observed considering the different flight altitudes, and results indicated that all flight altitudes investigated can be reliably used for PHA measurements. However, UAV flight at 61 m provided the most accurate results (CI = 0.05) considering all metrics. All UAV parameters over all altitudes showed significant correlation with observed PHA data, validating the use of UAV-based remote sensing for PHA.

Highlights

It is well documented that streams and rivers are negatively impacted by anthropogenic activities, including agriculture, mining, forestry, energy, and transportation development.These development activities often include deforestation, pollution, channelization, expansion of impervious surfaces, and many others [1,2]
The current work evaluated the viability of using Unmanned Aerial Vehicles (UAV)-derived imagery to simulate Physical Habitat Assessment (PHA) field measurements
The main objective was to estimate the accuracy of UAV-based remote sensing methods in comparison to traditional measurements, as well to understand the effect of different flight altitudes on the accuracy of UAV PHA measurements

Summary

Introduction

It is well documented that streams and rivers are negatively impacted by anthropogenic activities, including (but not limited to) agriculture, mining, forestry, energy, and transportation development. These development activities often include deforestation, pollution, channelization, expansion of impervious surfaces (e.g., roads, parking lots), and many others [1,2]. These impacts frequently result in water quality deterioration and loss of aquatic habitat [3]. Physical attributes measured in PHA are related to channel dimensions, gradient and substrate, vegetation community status, habitat complexity, anthropogenic alterations, and interactions

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