Techniques for wide-area mapping of forest biomass using radar data

Aspects of forest biomass mapping using SAR (Synthetic Aperture Radar) data were studied in study sites in northern Sweden, Germany, and south-eastern Finland. Terrain topography – via the area of a resolution cell – accounted for 61 percent of the total variation in a Seasat (L-band) SAR scene in a...

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Main Author: Rauste, Yrjö
Other Authors: Department of Surveying, Maanmittausosasto, Institute of Photogrammetry and Remote Sensing, Fotogrammetrian ja kaukokartoituksen laboratorio, Aalto-yliopisto, Aalto University
Format: Doctoral or Postdoctoral Thesis
Language:English
Published: VTT Technical Research Centre of Finland 2006
Subjects:
Geoinformatics
Environmental science
Paper technology
wide-area mapping
remote sensing
Synthetic Aperture Radar
forest biomass
SAR
polarimetry
mosaicking
forests
backscattering
Northern Sweden
Online Access:https://aaltodoc.aalto.fi/handle/123456789/2653
id ftaaltouniv:oai:aaltodoc.aalto.fi:123456789/2653
record_format openpolar
institution Open Polar
collection Aalto University Publication Archive (Aaltodoc)
op_collection_id ftaaltouniv
language English
topic Geoinformatics
Environmental science
Paper technology
wide-area mapping
remote sensing
Synthetic Aperture Radar
forest biomass
SAR
polarimetry
mosaicking
forests
backscattering
spellingShingle Geoinformatics
Environmental science
Paper technology
wide-area mapping
remote sensing
Synthetic Aperture Radar
forest biomass
SAR
polarimetry
mosaicking
forests
backscattering
Rauste, Yrjö
Techniques for wide-area mapping of forest biomass using radar data
topic_facet Geoinformatics
Environmental science
Paper technology
wide-area mapping
remote sensing
Synthetic Aperture Radar
forest biomass
SAR
polarimetry
mosaicking
forests
backscattering
description Aspects of forest biomass mapping using SAR (Synthetic Aperture Radar) data were studied in study sites in northern Sweden, Germany, and south-eastern Finland. Terrain topography – via the area of a resolution cell – accounted for 61 percent of the total variation in a Seasat (L-band) SAR scene in a hilly and mountainous study site. A methodology – based on least squares adjustment of tie point and ground control point observations in a multi-temporal SAR mosaic dataset – produced a tie point RMSE (Root Mean Square Error) of 56 m and a GCP RMSE of 240 m in the African mosaic of the GRFM (Global Rain Forest Mapping) project. The mosaic consisted of 3624 JERS SAR scenes. A calibration revision methodology – also based on least squares adjustment and points in overlap areas between scenes – removed a calibration artifact of about 1 dB. A systematic search of the highest correlation between forest stem volume and backscattering amplitude was conducted over all combinations of transmit and receive polarisations in three AIRSAR scenes in a German study site. In the P-band, a high and narrow peak around HV-polarisation was found, where the correlation coefficient was 0.75, 0.59, and 0.71 in scenes acquired in August 1989, June 1991, and July 1991, respectively. In other polarisations of P-band, the correlation coefficient was lower. In L-band, the polarisation response was more flat and correlations lower, between 0.54 and 0.70 for stands with a stem volume 100 m3/ha or less. Three summer-time JERS SAR scenes produced very similar regression models between forest stem volume and backscattering amplitude in a study site in south-eastern Finland. A model was proposed for wide area biomass mapping when biomass accuracy requirements are not high. A multi-date regression model employing three summer scenes and three winter scenes produced a multiple correlation coefficient of 0.85 and a stem volume estimation RMSE of 41.3 m3/ha. JERS SAR scenes that were acquired in cold winter conditions produced very low correlations ...
author2 Department of Surveying
Maanmittausosasto
Institute of Photogrammetry and Remote Sensing
Fotogrammetrian ja kaukokartoituksen laboratorio
Aalto-yliopisto
Aalto University
format Doctoral or Postdoctoral Thesis
author Rauste, Yrjö
author_facet Rauste, Yrjö
author_sort Rauste, Yrjö
title Techniques for wide-area mapping of forest biomass using radar data
title_short Techniques for wide-area mapping of forest biomass using radar data
title_full Techniques for wide-area mapping of forest biomass using radar data
title_fullStr Techniques for wide-area mapping of forest biomass using radar data
title_full_unstemmed Techniques for wide-area mapping of forest biomass using radar data
title_sort techniques for wide-area mapping of forest biomass using radar data
publisher VTT Technical Research Centre of Finland
publishDate 2006
url https://aaltodoc.aalto.fi/handle/123456789/2653
genre Northern Sweden
genre_facet Northern Sweden
op_relation VTT publications
500
Rauste, Y. 1990. Incidence-angle dependence in forested and non-forested areas in Seasat SAR data, International Journal of Remote Sensing, Vol. 11, No. 7, p. 1267-1276. [article1.pdf] © 1990 Taylor and Francis Journals UK. By permission.
Rauste, Y., De Grandi, G., Richards, T., Rosenqvist, Å., Perna, G., Franchino, E., Holecz, F., and Pasquali, P. 1999. Compilation of a bi-temporal JERS SAR mosaic over the African rain forest belt in the GRFM project, Proceedings of IGARSS'99, 28 June-2 July 1999, Hamburg, Germany, p. 750-752. [article2.pdf] © 1999 IEEE. By permission.
De Grandi, G., Mayaux, P., Rauste, Y., Rosenqvist, Å., Simard, M., and Saatchi, S. 2000. The global rain forest mapping project JERS-1 radar mosaic of tropical Africa: Development and product characterization aspects, IEEE Transactions on Geoscience and Remote Sensing, Vol. 38, No. 5, September 2000, p. 2218-2233. [article3.pdf] © 2000 IEEE. By permission.
Rauste, Y., Häme, T., Pulliainen, J., Heiska, K., and Hallikainen, M. 1994. Radar-based forest biomass estimation, International Journal of Remote Sensing, Vol. 15, No. 14, p. 2797-2808. [article4.pdf] © 1990 Taylor and Francis Journals UK. By permission.
Rauste, Y. 1993. Multitemporal analysis of forest biomass using AIR-SAR data, Proceedings of the 25th International Symposium, Remote Sensing and Global Environmental Change, 4-8 April, 1993, Graz, Austria, p. I-328-I-338. [article5.pdf] © 1993 Altarum Institute. By permission.
Rauste, Y. 2005. Multi-temporal JERS SAR data in boreal forest biomass mapping, Remote Sensing of Environment, Vol. 97, p. 263-275. [article6.pdf] © 2005 Elsevier. By permission.
951-38-6695-5
1455-0849
https://aaltodoc.aalto.fi/handle/123456789/2653
urn:nbn:fi:tkk-006371
_version_ 1810466715504476160
spelling ftaaltouniv:oai:aaltodoc.aalto.fi:123456789/2653 2024-09-15T18:26:16+00:00 Techniques for wide-area mapping of forest biomass using radar data Rauste, Yrjö Department of Surveying Maanmittausosasto Institute of Photogrammetry and Remote Sensing Fotogrammetrian ja kaukokartoituksen laboratorio Aalto-yliopisto Aalto University 2006-02-17 103, [77] application/pdf https://aaltodoc.aalto.fi/handle/123456789/2653 en eng VTT Technical Research Centre of Finland VTT VTT publications 500 Rauste, Y. 1990. Incidence-angle dependence in forested and non-forested areas in Seasat SAR data, International Journal of Remote Sensing, Vol. 11, No. 7, p. 1267-1276. [article1.pdf] © 1990 Taylor and Francis Journals UK. By permission. Rauste, Y., De Grandi, G., Richards, T., Rosenqvist, Å., Perna, G., Franchino, E., Holecz, F., and Pasquali, P. 1999. Compilation of a bi-temporal JERS SAR mosaic over the African rain forest belt in the GRFM project, Proceedings of IGARSS'99, 28 June-2 July 1999, Hamburg, Germany, p. 750-752. [article2.pdf] © 1999 IEEE. By permission. De Grandi, G., Mayaux, P., Rauste, Y., Rosenqvist, Å., Simard, M., and Saatchi, S. 2000. The global rain forest mapping project JERS-1 radar mosaic of tropical Africa: Development and product characterization aspects, IEEE Transactions on Geoscience and Remote Sensing, Vol. 38, No. 5, September 2000, p. 2218-2233. [article3.pdf] © 2000 IEEE. By permission. Rauste, Y., Häme, T., Pulliainen, J., Heiska, K., and Hallikainen, M. 1994. Radar-based forest biomass estimation, International Journal of Remote Sensing, Vol. 15, No. 14, p. 2797-2808. [article4.pdf] © 1990 Taylor and Francis Journals UK. By permission. Rauste, Y. 1993. Multitemporal analysis of forest biomass using AIR-SAR data, Proceedings of the 25th International Symposium, Remote Sensing and Global Environmental Change, 4-8 April, 1993, Graz, Austria, p. I-328-I-338. [article5.pdf] © 1993 Altarum Institute. By permission. Rauste, Y. 2005. Multi-temporal JERS SAR data in boreal forest biomass mapping, Remote Sensing of Environment, Vol. 97, p. 263-275. [article6.pdf] © 2005 Elsevier. By permission. 951-38-6695-5 1455-0849 https://aaltodoc.aalto.fi/handle/123456789/2653 urn:nbn:fi:tkk-006371 Geoinformatics Environmental science Paper technology wide-area mapping remote sensing Synthetic Aperture Radar forest biomass SAR polarimetry mosaicking forests backscattering G5 Artikkeliväitöskirja text Väitöskirja (artikkeli) Doctoral dissertation (article-based) 2006 ftaaltouniv 2024-06-26T06:35:48Z Aspects of forest biomass mapping using SAR (Synthetic Aperture Radar) data were studied in study sites in northern Sweden, Germany, and south-eastern Finland. Terrain topography – via the area of a resolution cell – accounted for 61 percent of the total variation in a Seasat (L-band) SAR scene in a hilly and mountainous study site. A methodology – based on least squares adjustment of tie point and ground control point observations in a multi-temporal SAR mosaic dataset – produced a tie point RMSE (Root Mean Square Error) of 56 m and a GCP RMSE of 240 m in the African mosaic of the GRFM (Global Rain Forest Mapping) project. The mosaic consisted of 3624 JERS SAR scenes. A calibration revision methodology – also based on least squares adjustment and points in overlap areas between scenes – removed a calibration artifact of about 1 dB. A systematic search of the highest correlation between forest stem volume and backscattering amplitude was conducted over all combinations of transmit and receive polarisations in three AIRSAR scenes in a German study site. In the P-band, a high and narrow peak around HV-polarisation was found, where the correlation coefficient was 0.75, 0.59, and 0.71 in scenes acquired in August 1989, June 1991, and July 1991, respectively. In other polarisations of P-band, the correlation coefficient was lower. In L-band, the polarisation response was more flat and correlations lower, between 0.54 and 0.70 for stands with a stem volume 100 m3/ha or less. Three summer-time JERS SAR scenes produced very similar regression models between forest stem volume and backscattering amplitude in a study site in south-eastern Finland. A model was proposed for wide area biomass mapping when biomass accuracy requirements are not high. A multi-date regression model employing three summer scenes and three winter scenes produced a multiple correlation coefficient of 0.85 and a stem volume estimation RMSE of 41.3 m3/ha. JERS SAR scenes that were acquired in cold winter conditions produced very low correlations ... Doctoral or Postdoctoral Thesis Northern Sweden Aalto University Publication Archive (Aaltodoc)

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