Automated Coregistration of Multisensor Orthophotos Generated from Unmanned Aerial Vehicle Platforms

Youkyung Han,Jaewan Choi,Anjin Chang,Jinha Jung,Sungchan Oh,Junho Yeom

doi:10.1155/2019/2962734

Youkyung Han, Jaewan Choi + Show 4 more

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https://doi.org/10.1155/2019/2962734

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Abstract

Image coregistration is a key preprocessing step to ensure the effective application of very-high-resolution (VHR) orthophotos generated from multisensor images acquired from unmanned aerial vehicle (UAV) platforms. The most accurate method to align an orthophoto is the installation of air-photo targets at a test site prior to flight image acquisition, and these targets were used as ground control points (GCPs) for georeferencing and georectification. However, there are time and cost limitations related to installing the targets and conducting field surveys on the targets during every flight. To address this problem, this paper presents an automated coregistration approach for orthophotos generated from VHR images acquired from multisensors mounted on UAV platforms. Spatial information from the orthophotos, provided by the global navigation satellite system (GNSS) at each image’s acquisition time, is used as ancillary information for phase correlation-based coregistration. A transformation function between the multisensor orthophotos is then estimated based on conjugate points (CPs), which are locally extracted over orthophotos using the phase correlation approach. Two multisensor datasets are constructed to evaluate the proposed approach. These visual and quantitative evaluations confirm the superiority of the proposed method.

Highlights

Unmanned aerial vehicles (UAVs) have become competitive platforms for remote sensing-based applications as they can be and cost-effectively deployed while collecting geospatial data with higher temporal/spatial resolution than other platforms [1,2,3,4,5,6,7,8,9,10]. They can collect multisensor images by mounting diverse sensors on the unmanned aerial vehicle (UAV) platforms to achieve a wide range of remote sensing applications [11,12,13,14]
The targets, whose ground coordinates have already been measured by global navigation satellite system(GNSS-) based surveying, are detected in the images, and a transformation function is estimated for the ground and image coordinates
If GNSS-based ground control points (GCPs) target surveying is not performed, a position error occurs between the multisensor/multitemporal orthophotos or Digital Surface Models (DSMs), which are generated by multiple Journal of Sensors overlapping images captured during UAV flight

Summary

Introduction

Unmanned aerial vehicles (UAVs) have become competitive platforms for remote sensing-based applications as they can be and cost-effectively deployed while collecting geospatial data with higher temporal/spatial resolution than other platforms [1,2,3,4,5,6,7,8,9,10]. They can collect multisensor images by mounting diverse sensors on the UAV platforms to achieve a wide range of remote sensing applications [11,12,13,14]. If GNSS-based GCP target surveying is not performed, a position error occurs between the multisensor/multitemporal orthophotos or Digital Surface Models (DSMs), which are generated by multiple

Methods

Results

Conclusion