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168 results on '"Konstantinos Papathanassiou"'

1. Forest Height Estimation by Means of TanDEM-X InSAR and Waveform Lidar Data

Author

Roman Guliaev, Victor Cazcarra-Bes, Matteo Pardini, and Konstantinos Papathanassiou

Subjects
Forest height estimation, SAR interferometry, TanDEM-X, vertical radar reflectivity, waveform lidar, Ocean engineering, TC1501-1800, Geophysics. Cosmic physics, QC801-809
Abstract

Model-based forest height inversion from Pol-InSAR data relies on the realistic parameterization of the underlying (vertical) radar reflectivity function. In the context of interferometric TanDEM-X measurements – especially in the global single pol DEM mode – this is not possible due to the limited dimensionality of the observation space. In order to overcome this, the use of lidar waveforms to directly approximate the TanDEM-X reflectivity is proposed. This allows the forest height estimation from a single, single polarimetric, bistatic TanDEM-X acquisition. In order to extend the proposed lidar-supported inversion schema to areas only partially covered or sampled by (waveform) lidar measurements, the use of a “mean” (vertical) reflectivity profile is further proposed. This “mean” reflectivity profile is defined by means of the eigenfunctions of the available set of lidar waveforms. Both approaches are demonstrated and validated using TanDEM-X and airborne waveform lidar data acquired in the framework of the AfriSAR 2016 campaign over the Lopé National Park, in Gabon.

Published
2021
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3. Model-Assisted Estimation of Tropical Forest Biomass Change: A Comparison of Approaches

Author

Nikolai Knapp, Andreas Huth, Florian Kugler, Konstantinos Papathanassiou, Richard Condit, Stephen P. Hubbell, and Rico Fischer

Subjects
aboveground biomass change, lidar, synthetic aperture radar, tropical rainforests, forest model, simulation, Science
Abstract

Monitoring of changes in forest biomass requires accurate transfer functions between remote sensing-derived changes in canopy height (ΔH) and the actual changes in aboveground biomass (ΔAGB). Different approaches can be used to accomplish this task: direct approaches link ΔH directly to ΔAGB, while indirect approaches are based on deriving AGB stock estimates for two points in time and calculating the difference. In some studies, direct approaches led to more accurate estimations, while, in others, indirect approaches led to more accurate estimations. It is unknown how each approach performs under different conditions and over the full range of possible changes. Here, we used a forest model (FORMIND) to generate a large dataset (>28,000 ha) of natural and disturbed forest stands over time. Remote sensing of forest height was simulated on these stands to derive canopy height models for each time step. Three approaches for estimating ΔAGB were compared: (i) the direct approach; (ii) the indirect approach and (iii) an enhanced direct approach (dir+tex), using ΔH in combination with canopy texture. Total prediction accuracies of the three approaches measured as root mean squared errors (RMSE) were RMSEdirect = 18.7 t ha−1, RMSEindirect = 12.6 t ha−1 and RMSEdir+tex = 12.4 t ha−1. Further analyses revealed height-dependent biases in the ΔAGB estimates of the direct approach, which did not occur with the other approaches. Finally, the three approaches were applied on radar-derived (TanDEM-X) canopy height changes on Barro Colorado Island (Panama). The study demonstrates the potential of forest modeling for improving the interpretation of changes observed in remote sensing data and for comparing different methodologies.

Published
2018
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4. Monitoring of Forest Structure Dynamics by Means of L-Band SAR Tomography

Author

Victor Cazcarra-Bes, Maria Tello-Alonso, Rico Fischer, Michael Heym, and Konstantinos Papathanassiou

Subjects
synthetic aperture radar (SAR), tomography, forest structure, forest dynamics, horizontal forest structure, vertical forest structure, L-band, compressive sensing, Science
Abstract

Synthetic Aperture Radar Tomography (TomoSAR) allows the reconstruction of the 3D reflectivity of natural volume scatterers such as forests, thus providing an opportunity to infer structure information in 3D. In this paper, the potential of TomoSAR data at L-band to monitor temporal variations of forest structure is addressed using simulated and experimental datasets. First, 3D reflectivity profiles were extracted by means of TomoSAR reconstruction based on a Compressive Sensing (CS) approach. Next, two complementary indices for the description of horizontal and vertical forest structure were defined and estimated by means of the distribution of local maxima of the reconstructed reflectivity profiles. To assess the sensitivity and consistency of the proposed methodology, variations of these indices for different types of forest changes in simulated as well as in real scenarios were analyzed and assessed against different sources of reference data: airborne Lidar measurements, high resolution optical images, and forest inventory data. The forest structure maps obtained indicated the potential to distinguish between different forest stages and the identification of different types of forest structure changes induced by logging, natural disturbance, or forest management.

Published
2017
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22. Tandem-L: Main results of the phase a feasibility study.

Author

Gerhard Krieger, Alberto Moreira, Manfred Zink, Irena Hajnsek, Sigurd Huber, Michelangelo Villano, Konstantinos Papathanassiou, Marwan Younis, Paco López-Dekker, Matteo Pardini, Daniel Schulze, Markus Bachmann, Daniela Borla Tridon, Jens Reimann, Benjamin Bräutigam, Ulrich Steinbrecher, Carolina Tienda, Maria J. Sanjuan-Ferrer, Mariantonietta Zonno, Michael Eineder, Francesco De Zan, Alessandro Parizzi, Thomas Fritz 0002, Erhard Diedrich, Edith Maurer, Ralf Munzenmayer, Bernhard Grafmueller, Rainhard Wolters, Frank te Hennepe, Robert Ernst, and Charlotte Bewick

Published
2016
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31. Definition of Tomographic SAR Configurations for Forest Structure Applications at L-Band

Author

Konstantinos Papathanassiou, Victor Cazcarra-Bes, and Matteo Pardini

Subjects
Synthetic aperture radar, Beamforming, Point spread function, L band, Computer science, spatial distribution of acquisitions, 0211 other engineering and technologies, 02 engineering and technology, Geotechnical Engineering and Engineering Geology, L-band, synthetic aperture radar tomography (TomoSAR), Data set, Compressed sensing, Lidar, Baseline configuration, Tomography, Electrical and Electronic Engineering, forest structure, 021101 geological & geomatics engineering, Remote sensing
Abstract

Synthetic aperture radar tomography (TomoSAR) at lower frequencies allows the reconstruction of the 3-D radar reflectivity of volume scatterers allowing access to their physical 3-D structure by means of multiangular SAR acquisitions. The performance of the reconstruction critically depends on the number and (spatial) distribution of the tomographic acquisitions (tracks). This dependence is addressed in this letter with respect to forest applications (volume scatters) at L-band. The letter discusses the optimum definition of tomographic configurations based on the peak sidelobe level (PSL) of the point spread function (PSF). For demonstration, a tomographic data set consisting of 15 acquisitions acquired by the DLR's F-SAR system at L-band over the Traunstein test site in Germany is used, complemented by airborne LiDAR measurements. Three different reconstruction algorithms (Fourier beamforming, Capon beamforming, and compressive sensing) are implemented and compared to each other for scenarios with a reduced number of acquisitions. Although the limitation of the specific forest, the results show the potential of using the PSL of the PSF to define tomographic configurations optimized for forest structure applications.

Published
2022
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35. Tandem-L: And innovative interferometric and polarimetric SAR mission to monitor earth system dynamics with high resolution.

Author

Gerhard Krieger, Irena Hajnsek, Konstantinos Papathanassiou, Michael Eineder, Marwan Younis, Francesco De Zan, Sigurd Huber, Paco López-Dekker, Pau Prats, Marian Werner, Yuhsyen Shen, Anthony Freeman, Paul Rosen 0002, Scott Hensley, William T. K. Johnson, Louise Veilleux, Bernhard Grafmueller, Rolf Werninghaus, Richard Bamler, and Alberto Moreira

Published
2010
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