SPECTRAL IMAGING FROM UAVS UNDER VARYING ILLUMINATION CONDITIONS

SPECTRAL IMAGING FROM UAVS UNDER VARYING ILLUMINATION CONDITIONS

Rapidly developing unmanned aerial vehicles (UAV) have provided the remote sensing community with a new rapidly deployable tool for small area monitoring. The progress of small payload UAVs has introduced greater demand for light weight aerial payloads. For applications requiring aerial images, a...

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Main Authors: T. Hakala, E. Honkavaara, H. Saari, J. Mäkynen, J. Kaivosoja, L. Pesonen, I. Pölönen
Format: Article
Language:English
Published: Copernicus Publications 2013-08-01
Series:The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
Online Access:https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XL-1-W2/189/2013/isprsarchives-XL-1-W2-189-2013.pdf
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spelling doaj-f7b9022ab02e43aeb74ca39a82c90fd72020-11-25T00:05:20ZengCopernicus PublicationsThe International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences1682-17502194-90342013-08-01XL-1-W218919410.5194/isprsarchives-XL-1-W2-189-2013SPECTRAL IMAGING FROM UAVS UNDER VARYING ILLUMINATION CONDITIONST. Hakala0E. Honkavaara1H. Saari2J. Mäkynen3J. Kaivosoja4L. Pesonen5I. Pölönen6Finnish Geodetic Institute, Department of Remote Sensing and Photogrammetry, Geodeetinrinne 2, P.O. Box 15, 02431 Masala, FinlandFinnish Geodetic Institute, Department of Remote Sensing and Photogrammetry, Geodeetinrinne 2, P.O. Box 15, 02431 Masala, FinlandVTT Technical Research Center of Finland, Photonic Devices and Measurement Solutions, P.O. Box 1000, 02044 VTT, FinlandVTT Technical Research Center of Finland, Photonic Devices and Measurement Solutions, P.O. Box 1000, 02044 VTT, FinlandVTT Technical Research Center of Finland, Photonic Devices and Measurement Solutions, P.O. Box 1000, 02044 VTT, FinlandMTT Agrifood Research Finland, 31600 Jokioinen, FinlandDepartment of Mathematical Information Tech., University of Jyväskylä, P.O. Box 35, 40014, Jyväskylä, FinlandRapidly developing unmanned aerial vehicles (UAV) have provided the remote sensing community with a new rapidly deployable tool for small area monitoring. The progress of small payload UAVs has introduced greater demand for light weight aerial payloads. For applications requiring aerial images, a simple consumer camera provides acceptable data. For applications requiring more detailed spectral information about the surface, a new Fabry-Perot interferometer based spectral imaging technology has been developed. This new technology produces tens of successive images of the scene at different wavelength bands in very short time. These images can be assembled in spectral data cubes with stereoscopic overlaps. On field the weather conditions vary and the UAV operator often has to decide between flight in sub optimal conditions and no flight. Our objective was to investigate methods for quantitative radiometric processing of images taken under varying illumination conditions, thus expanding the range of weather conditions during which successful imaging flights can be made. A new method that is based on insitu measurement of irradiance either in UAV platform or in ground was developed. We tested the methods in a precision agriculture application using realistic data collected in difficult illumination conditions. Internal homogeneity of the original image data (average coefficient of variation in overlapping images) was 0.14–0.18. In the corrected data, the homogeneity was 0.10–0.12 with a correction based on broadband irradiance measured in UAV, 0.07–0.09 with a correction based on spectral irradiance measurement on ground, and 0.05–0.08 with a radiometric block adjustment based on image data. Our results were very promising, indicating that quantitative UAV based remote sensing could be operational in diverse conditions, which is prerequisite for many environmental remote sensing applications.https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XL-1-W2/189/2013/isprsarchives-XL-1-W2-189-2013.pdf
collection DOAJ
language English
format Article
sources DOAJ
author T. Hakala
E. Honkavaara
H. Saari
J. Mäkynen
J. Kaivosoja
L. Pesonen
I. Pölönen
spellingShingle T. Hakala
E. Honkavaara
H. Saari
J. Mäkynen
J. Kaivosoja
L. Pesonen
I. Pölönen
SPECTRAL IMAGING FROM UAVS UNDER VARYING ILLUMINATION CONDITIONS
The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
author_facet T. Hakala
E. Honkavaara
H. Saari
J. Mäkynen
J. Kaivosoja
L. Pesonen
I. Pölönen
author_sort T. Hakala
title SPECTRAL IMAGING FROM UAVS UNDER VARYING ILLUMINATION CONDITIONS
title_short SPECTRAL IMAGING FROM UAVS UNDER VARYING ILLUMINATION CONDITIONS
title_full SPECTRAL IMAGING FROM UAVS UNDER VARYING ILLUMINATION CONDITIONS
title_fullStr SPECTRAL IMAGING FROM UAVS UNDER VARYING ILLUMINATION CONDITIONS
title_full_unstemmed SPECTRAL IMAGING FROM UAVS UNDER VARYING ILLUMINATION CONDITIONS
title_sort spectral imaging from uavs under varying illumination conditions
publisher Copernicus Publications
series The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
issn 1682-1750
2194-9034
publishDate 2013-08-01
description Rapidly developing unmanned aerial vehicles (UAV) have provided the remote sensing community with a new rapidly deployable tool for small area monitoring. The progress of small payload UAVs has introduced greater demand for light weight aerial payloads. For applications requiring aerial images, a simple consumer camera provides acceptable data. For applications requiring more detailed spectral information about the surface, a new Fabry-Perot interferometer based spectral imaging technology has been developed. This new technology produces tens of successive images of the scene at different wavelength bands in very short time. These images can be assembled in spectral data cubes with stereoscopic overlaps. On field the weather conditions vary and the UAV operator often has to decide between flight in sub optimal conditions and no flight. Our objective was to investigate methods for quantitative radiometric processing of images taken under varying illumination conditions, thus expanding the range of weather conditions during which successful imaging flights can be made. A new method that is based on insitu measurement of irradiance either in UAV platform or in ground was developed. We tested the methods in a precision agriculture application using realistic data collected in difficult illumination conditions. Internal homogeneity of the original image data (average coefficient of variation in overlapping images) was 0.14–0.18. In the corrected data, the homogeneity was 0.10–0.12 with a correction based on broadband irradiance measured in UAV, 0.07–0.09 with a correction based on spectral irradiance measurement on ground, and 0.05–0.08 with a radiometric block adjustment based on image data. Our results were very promising, indicating that quantitative UAV based remote sensing could be operational in diverse conditions, which is prerequisite for many environmental remote sensing applications.
url https://www.int-arch-photogramm-remote-sens-spatial-inf-sci.net/XL-1-W2/189/2013/isprsarchives-XL-1-W2-189-2013.pdf
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AT ehonkavaara spectralimagingfromuavsundervaryingilluminationconditions
AT hsaari spectralimagingfromuavsundervaryingilluminationconditions
AT jmakynen spectralimagingfromuavsundervaryingilluminationconditions
AT jkaivosoja spectralimagingfromuavsundervaryingilluminationconditions
AT lpesonen spectralimagingfromuavsundervaryingilluminationconditions
AT ipolonen spectralimagingfromuavsundervaryingilluminationconditions
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