Gustaf Sandberg scite author profile

A new biomass retrieval model for boreal forest using polarimetric P-band SAR backscatter is presented. The model is based on two main SAR quantities: the HV backscatter and the HH/VV backscatter ratio. It also includes a topographic correction based on the ground slope. The model is developed from analysis of stand-wise data from two airborne P-band SAR campaigns: BioSAR 2007 (test site: Remningstorp, southern Sweden, biomass range: 10-287 tons/ha, slope range: 0-4 •) and BioSAR 2008 (test site: Krycklan, northern Sweden, biomass range: 8-257 tons/ha, slope range: 0-19 •). The new model is compared to five other models in a set of tests to evaluate its performance in different conditions. All models are first tested on data sets from Remningstorp with different moisture conditions, acquired during three periods in the spring of 2007. Thereafter, the models are tested in topographic terrain using SAR data acquired for different flight headings in Krycklan. The models are also evaluated across sites, i.e. training on one site followed by validation on the other site. Using the new model with parameters estimated on Krycklan data, biomass in Remningstorp is retrieved with RMSE of 40-59 tons/ha, or 22-32 % of the mean biomass, which is lower compared to the other models. In the inverse scenario, the examined site is not well represented in the training data set and the results are therefore not conclusive.

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BIOSAR 2010 - A SAR campaign in support to the BIOMASS mission

Ulander

Gustavsson

Dubois-Fernandez

et al. 2011

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The ESA funded campaign BioSAR 2010 was carried out at the forestry test site Remningstorp in southern Sweden, in support to the BIOMASS satellite mission under study. Fully polarimetric SAR data were successfully acquired at Land P-band using ONERA's multi-frequency system SETHI. In addition with other data types gathered, e.g. LiDAR and in-situ measurements, the compiled data set will be used for analyses and comparisons with biomass estimation results obtained at the same test site in the campaign BioSAR 2007, in which DLR's E-SAR made the SAR imaging. Detection of forest changes, robustness of biomass retrieval algorithms and long-term P-band coherence will be in focus as well as cross-validations between the two SAR sensors.

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Detection of forest changes using ALOS PALSAR satellite images

Fransson

Magnusson

Olsson

et al. 2007

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A controlled experiment has been performed to quantify the ability to detect clear-cuts using ALOS PALSAR data. The experiment consisted of 8 old spruce dominated stands, each with a size of about 1.5 ha, located at a test site in southern Sweden. Four of the stands were clear-felled and the remaining stands were left untreated for reference. A time series of PALSAR images was acquired prior to, during, and after treatment, including 7 Fine Beam Single polarization (FBS, look angle 34.3°, HH-polarization) SAR images. The results clearly show that the clear-felled stands could be separated from the reference stands. The drop in backscattering coefficient between the reference and the clear-felled stands was on average 2.1 dB. This implies that ALOS PALSAR data potentially can be used for large-scale mapping of changes in forest cover.

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Measurements of Forest Biomass Change Using P-Band Synthetic Aperture Radar Backscatter

Sandberg

Ulander

Wallerman

et al. 2014

IEEE Trans. Geosci. Remote Sensing

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Gustaf Sandberg

L- and P-band backscatter intensity for biomass retrieval in hemiboreal forest

Regression-Based Retrieval of Boreal Forest Biomass in Sloping Terrain Using P-Band SAR Backscatter Intensity Data

BIOSAR 2010 - A SAR campaign in support to the BIOMASS mission

Detection of forest changes using ALOS PALSAR satellite images

Measurements of Forest Biomass Change Using P-Band Synthetic Aperture Radar Backscatter

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