Dr. Vassilia Karathanassi Profile

Dr. Vassilia Karathanassi

Lecturer at National Technical Univ of Athens

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Publications (21)

Proceedings Article | 26 August 2020 Paper

A Sentinel based agriculture monitoring scheme for the control of the CAP and food security

Vasileios Sitokonstantinou, Antonios Koutroumpas, Thanassis Drivas, Alkiviadis Koukos, Vassilia Karathanassi, Haris Kontoes, Ioannis Papoutsis

Proceedings Volume 11524, 1152407 (2020) https://doi.org/10.1117/12.2571721

KEYWORDS: Agriculture, Vegetation, Clouds, Satellites, Earth observing sensors, Data modeling, Remote sensing, Climatology

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Proceedings Article | 26 August 2020 Open Access

Convolutional neural networks for detecting challenging cases in cloud masking using Sentinel-2 imagery

Viktoria Kristollari, Vassilia Karathanassi

Proceedings Volume 11524, 115240K (2020) https://doi.org/10.1117/12.2571111

KEYWORDS: Clouds, Earth observing sensors, Convolutional neural networks, Image processing, Spatial resolution, Machine learning, Satellites, Convolution, Remote sensing

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Proceedings Article | 27 June 2019 Paper

Correcting the BRDF effects on Sentinel-2 ocean images

Maria Kremezi, Vassilia Karathanassi

Proceedings Volume 11174, 111741C (2019) https://doi.org/10.1117/12.2533653

KEYWORDS: Sensors, Reflectivity, Bidirectional reflectance transmission function, Clouds, Atmospheric corrections, Data modeling, Spatial resolution, Scattering, Satellites, Multispectral imaging

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SENTINEL-2 (S2) is a European wide-swath, high-resolution, multi-spectral imaging mission consisting of two twin satellites with a high revisit frequency that contributes to ongoing multispectral observations and enhances Copernicus services and applications such as continuous coverage of overseas and oceans with the production of global maps of phytoplankton chlorophyll and other sea surface properties that contribute to the air-sea flux of carbon dioxide and other climate relevant gases. The S2 Multispectral Instrument (MSI) features two distinct arrays of 12 detectors mounted on each focal plane covering VNIR and SWIR channels respectively, in order to cover the whole instrument field of view. The configured operation of the 12 detectors introduces bidirectional reflectance effects on the S2 satellite images, which are more distinct over water bodies due to water inherent optical properties. In this study, three methods for the elimination of the bidirectional reflectance effects are evaluated: i) The c-factor approach along with the Ross-Li model, that simulates the bidirectional reflectance distribution function (BRDF) for calculating the Nadir BRDF Adjusted Reflectance (NBAR), ii) an image-based method, which encompasses the acrosstrack reflectance variances, using for each column, the deviation between the column mean value and a polynomial trendline which is constructed to fit all the column mean values, and iii) a method which adjusts the reflectance values of each detector to those originated from the detector with the closest to nadir view zenith. Furthermore, the ACOLITE atmospheric correction software was evaluated in terms of reflectance variance elimination when S-2 images are processed. A mosaic of S2 images presenting the Ionian Sea, southwest of Greece has been used for the evaluation. Results demonstrate the effectiveness of the NBAR methodology over ocean scenes proving that physical models adequately describe bidirectional causes and effects. The other two methods smooth variances between the detectors, however, they do not eliminate the BRDF effects. ACOLITE software did not achieve to reduce reflectance variances in S-2 images.

Proceedings Article | 6 August 2018 Paper

Detection of marine fronts: a comparison between different approaches applied on the SST product derived from Sentinel-3 data

Milto Miltiadou, Christiana Papoutsa, Vassilia Karathanassi, Polychronis Kolokoussis, Virginie Lafon, Dimitris Sykas, Anastasia Sarelli, Maria Prodromou, Diofantos Hadjimitsis

Proceedings Volume 10773, 1077305 (2018) https://doi.org/10.1117/12.2324126

KEYWORDS: Image filtering, Digital filtering, Image enhancement, Edge detection, Ocean optics, Detection and tracking algorithms, Sensors, Image processing, Oceanography, Convolution

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Proceedings Article | 6 August 2018 Paper

A methodology for monitoring the upwelling phenomenon using Sentinel-3 products

Kleanthis Karamvasis, Polychronis Kolokoussis, Vassilia Karathanassi, Vito De Pasquale, Giulio Ceriola

Proceedings Volume 10773, 1077304 (2018) https://doi.org/10.1117/12.2326205

KEYWORDS: Water, Satellites, Temporal resolution, Environmental monitoring, Spatial resolution, Knowledge management, Clouds, Oceanography, Algorithm development, Temperature metrology

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Proceedings Article | 26 May 2016 Paper

Independent component analysis for improving the quality of interferometric products

A. Saqellari Likoka, E. Vafeiadi-Bila, V. Karathanassi

Proceedings Volume 9870, 987007 (2016) https://doi.org/10.1117/12.2224949

KEYWORDS: Independent component analysis, Interferometry, Interferometric synthetic aperture radar, Synthetic aperture radar, Phase interferometry, Backscatter, Polarimetry, Atmospheric propagation, Speckle, Atmospheric sensing

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Proceedings Article | 15 October 2015 Paper

Accurate multi-source forest species mapping using the multiple spectral–spatial classification approach

Dimitris Stavrakoudis, Ioannis Gitas, Christos Karydas, Polychronis Kolokoussis, Vassilia Karathanassi

Proceedings Volume 9643, 964324 (2015) https://doi.org/10.1117/12.2194663

KEYWORDS: Image fusion, Image segmentation, Image classification, Fuzzy logic, Hyperspectral imaging, Image processing algorithms and systems, Spatial resolution, Image processing, Speckle, Associative arrays

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Proceedings Article | 15 October 2015 Paper

A methodology for outperforming filtering results in the interferometric process

A. Saqellari-Likoka, V. Karathanassi

Proceedings Volume 9642, 96420Z (2015) https://doi.org/10.1117/12.2194821

KEYWORDS: Interferometry, Digital filtering, Phase interferometry, Boxcar filters, Electronic filtering, Image filtering, Signal to noise ratio, Coherence (optics), Denoising, Synthetic aperture radar

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Proceedings Article | 19 June 2015 Paper

Forest canopy height estimation using double-frequency repeat pass interferometry

Kleanthis Karamvasis, Vassilia Karathanassi

Proceedings Volume 9535, 95350G (2015) https://doi.org/10.1117/12.2192581

KEYWORDS: Interferometry, Interferometric synthetic aperture radar, Synthetic aperture radar, Vegetation, L band, X band, Data modeling, Scattering, Sensors, Remote sensing

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Proceedings Article | 19 June 2015 Paper

An automatic method for producing robust regression models from hyperspectral data using multiple simple genetic algorithms

Dimitris Sykas, Vassilia Karathanassi

Proceedings Volume 9535, 953502 (2015) https://doi.org/10.1117/12.2192320

KEYWORDS: Genetic algorithms, Data modeling, Soil science, Remote sensing, Spectroscopy, Statistical modeling, Matrices, Transform theory, Algorithm development, Reflectivity

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Proceedings Article | 23 October 2014 Paper

Effects of band selection on endmember extraction for forestry applications

Vassilia Karathanassi, Charoula Andreou, Vassilis Andronis, Polychronis Kolokoussis

Proceedings Volume 9245, 92451O (2014) https://doi.org/10.1117/12.2067293

KEYWORDS: Vegetation, Feature selection, Hyperspectral imaging, Forestry, Feature extraction, Reflectivity, Data storage, Absorption, Absorbance, Interference (communication)

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In spectral unmixing theory, data reduction techniques play an important role as hyperspectral imagery contains an immense amount of data, posing many challenging problems such as data storage, computational efficiency, and the so called “curse of dimensionality”. Feature extraction and feature selection are the two main approaches for dimensionality reduction. Feature extraction techniques are used for reducing the dimensionality of the hyperspectral data by applying transforms on hyperspectral data. Feature selection techniques retain the physical meaning of the data by selecting a set of bands from the input hyperspectral dataset, which mainly contain the information needed for spectral unmixing. Although feature selection techniques are well-known for their dimensionality reduction potentials they are rarely used in the unmixing process. The majority of the existing state-of-the-art dimensionality reduction methods set criteria to the spectral information, which is derived by the whole wavelength, in order to define the optimum spectral subspace. These criteria are not associated with any particular application but with the data statistics, such as correlation and entropy values. However, each application is associated with specific land c over materials, whose spectral characteristics present variations in specific wavelengths. In forestry for example, many applications focus on tree leaves, in which specific pigments such as chlorophyll, xanthophyll, etc. determine the wavelengths where tree species, diseases, etc., can be detected. For such applications, when the unmixing process is applied, the tree species, diseases, etc., are considered as the endmembers of interest. This paper focuses on investigating the effects of band selection on the endmember extraction by exploiting the information of the vegetation absorbance spectral zones. More precisely, it is explored whether endmember extraction can be optimized when specific sets of initial bands related to leaf spectral characteristics are selected. Experiments comprise application of well-known signal subspace estimation and endmember extraction methods on a hyperspectral imagery that presents a forest area. Evaluation of the extracted endmembers showed that more forest species can be extracted as endmembers using selected bands.

Proceedings Article | 23 September 2013 Paper

Effects of band selection on the hyperspectral classification

Charoula Andreou, Vassilia Karathanassi, Gerorgia Diamantopoulou

Proceedings Volume 8870, 88700T (2013) https://doi.org/10.1117/12.2022524

KEYWORDS: Hyperspectral imaging, Data storage, Image classification, Principal component analysis, Signal to noise ratio, Vegetation, Buildings, Imaging spectroscopy, Spectroscopy, Interference (communication)

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Proceedings Article | 5 August 2013 Paper

A new methodology for the discrimination of plant species and their varieties using hyperspectral data: application on vetch and lentil

Dimitris Sykas, Vassilia Karathanassi, Spyros Fountas

Proceedings Volume 8795, 879520 (2013) https://doi.org/10.1117/12.2027503

KEYWORDS: Reflectivity, Genetic algorithms, Remote sensing, Algorithm development, Absorption, Hyperspectral imaging, Image segmentation, Ecosystems, Associative arrays, Sensors

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Proceedings Article | 27 October 2011 Paper

Endmember detection in marine environment with oil spill event

Charoula Andreou, Vassilia Karathanassi

Proceedings Volume 8180, 81800P (2011) https://doi.org/10.1117/12.898762

KEYWORDS: Water, Signal to noise ratio, Environmental sensing, Hyperspectral imaging, Oceanography, Ocean optics, Reflectivity, Remote sensing, Detection and tracking algorithms, Coastal modeling

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Proceedings Article | 17 October 2006 Paper

Hyperspectral data and methods for coastal water mapping

Konstantinos Nikolakopoulos, Vassilia Karathanassi, Demetrius Rokos

Proceedings Volume 6359, 63590I (2006) https://doi.org/10.1117/12.688998

KEYWORDS: Associative arrays, Reflectivity, Remote sensing, Hyperspectral imaging, In situ metrology, Optical filters, Satellites, Detection and tracking algorithms, Signal to noise ratio, Radiometry

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Motivated by the increasing importance of hyperspectral remote sensing, this study investigates the potential of the current-generation satellite hyperspectral data for coastal water mapping. Two narrow-band Hyperion images, acquired in summer 2004 within a nine day period, were used. The study area is situated at the northern sector of south Evvoikos Gulf, in Central Greece. Underwater springs, inwater streams, urban waste and industrial waste are present in the gulf. Thus, further research regarding the most appropriate methods for coastal water mapping is advisable. In situ measurements with a GPS have located the positions of all sources of water and waste. At these positions groundspectro-radiometer measurements were also implemented. Two different approaches were used for the reduction of the Hyperion bands. First, on the basis of histogram statistics the uncalibrated bands were selected and removed. Then the Minimum Noise Fraction was used to classify the bands according to their signal to noise ratio. The noisiest bands were removed and thirty-eight bands were selected for further processing. Second, mathematical and statistical criteria were applied to the in situ radiometer measurements of reflectance and radiance in order to identify the most appropriate parts of the spectrum for the detection of underwater springs and urban waste. This approach has determined nine hyperspectral bands. Τhe Pixel Purity Index and the n-D Visualiser methods were used for the identification of the spectra endmembers. Both whole (Spectral Angle Mapper or Spectral Feature Fitting) and sub pixel methods (Linear Unmixing or Mixture-Tuned Matched Filtering) were used for further analysis and classification of the data. Bands resulting from processing the groundspectro-radiometer measurements produced the highest classification results. The spatial resolution of the Hyperion hyperspectral data hardly allows the detection and classification of underwater springs. Contrary, inwater streams and chlorophyll are satisfactorily classified. The SAM classification method seems to work better as the number of endmembers increases. The Linear Unmixing classification method gives better results as the number of endmembers decreases.

Proceedings Article | 6 October 2006 Paper

Large-scale feature selection using evolved neural networks

Demetris Stathakis, Kostas Topouzelis, Vassilia Karathanassi

Proceedings Volume 6365, 636513 (2006) https://doi.org/10.1117/12.688149

KEYWORDS: Neural networks, Feature selection, Genetic algorithms, Synthetic aperture radar, On-screen displays, Binary data, Remote sensing, Beam propagation method, Backscatter, Parallel computing

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Proceedings Article | 29 September 2006 Paper

Dark formation detection using recurrent neural networks and SAR data

K. Topouzelis, V. Karathanassi, P. Pavlakis, D. Rokos

Proceedings Volume 6365, 636511 (2006) https://doi.org/10.1117/12.687852

KEYWORDS: Neural networks, Network architectures, Synthetic aperture radar, Neurons, Remote sensing, Space operations, Mathematical modeling, Feedback signals, Network security, Artificial neural networks

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Proceedings Article | 12 October 2005 Paper

A knowledge-based classification method for polarimetric SAR data

M. Dabboor, V. Karathanassi

Proceedings Volume 5980, 59800C (2005) https://doi.org/10.1117/12.627070

KEYWORDS: Scattering, Polarimetry, Buildings, Vegetation, Synthetic aperture radar, Image classification, Image analysis, Anisotropy, Image segmentation, Roads

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Proceedings Article | 22 October 2004 Paper

Texture-based detection of sea wave direction

Vassilia Karathanassi, Kostas Topouzelis, Demetris Sarantopoulos

Proceedings Volume 5574, (2004) https://doi.org/10.1117/12.564631

KEYWORDS: Synthetic aperture radar, Data modeling, Radar, Wave propagation, Modulation, Matrices, Image classification, Radio propagation, Image analysis, Radar imaging

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Proceedings Article | 14 March 2003 Paper

SAR geocoding method for evaluating geodetic coordinates and improving indirect geocoding accuracy

Vassillia Karathanassi, Christos lossifidis

Proceedings Volume 4886, (2003) https://doi.org/10.1117/12.463243

KEYWORDS: Geodesy, Synthetic aperture radar, Lithium, Reflectors, Image processing, Remote sensing, Environmental monitoring, Geographic information systems, Geology, Quantum wells

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Proceedings Article | 14 February 2003 Paper

Oil spill detection: SAR multiscale segmentation and object features evaluation

Kostas Topouzelis, Vassillia Karathanassi, Petros Pavlakis, Dimitris Rokos

Proceedings Volume 4880, (2003) https://doi.org/10.1117/12.462518

KEYWORDS: Image segmentation, Synthetic aperture radar, Backscatter, Image processing, Image classification, Fractal analysis, Fuzzy logic, Feature extraction, Image filtering, Classification systems

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Showing 5 of 21 publications

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