Igor G. Rizaev scite author profile

In order to analyse synthetic aperture radar (SAR) images of the sea surface, ship wake detection is essential for extracting information on the wake generating vessels. One possibility is to assume a linear model for wakes, in which case detection approaches are based on transforms such as Radon and Hough. These express the bright (dark) lines as peak (trough) points in the transform domain. In this paper, ship wake detection is posed as an inverse problem, which the associated cost function including a sparsity enforcing penalty, i.e. the generalized minimax concave (GMC) function. Despite being a non-convex regularizer, the GMC penalty enforces the overall cost function to be convex. The proposed solution is based on a Bayesian formulation, whereby the point estimates are recovered using maximum a posteriori (MAP) estimation. To quantify the performance of the proposed method, various types of SAR images are used, corresponding to TerraSAR-X, COSMO-SkyMed, Sentinel-1, and ALOS2. The performance of various priors in solving the proposed inverse problem is first studied by investigating the GMC along with the L 1 , L p , nuclear and total variation (TV) norms. We show that the GMC achieves the best results and we subsequently study the merits of the corresponding method in comparison to two state-of-the-art approaches for ship wake detection. The results show that our proposed technique offers the best performance by achieving 80% success rate.

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Mapping forest successional stages in the Brazilian Amazon using forest heights derived from TanDEM-X SAR interferometry

Bispo

Pardini

Papathanassiou

et al. 2019

Remote Sensing of Environment

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Modeling and SAR imaging of the sea surface: A review of the state-of-the-art with simulations

Rizaev

Karakuş

Hogan

et al. 2022

ISPRS Journal of Photogrammetry and Remote Sensing

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Modeling and SAR Imaging of the Sea Surface: a Review of the State-of-the-Art with Simulations

Rizaev¹,

Karakuş²,

Hogan³

et al. 2021

Preprint

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Tropical forest structure observation with TanDEM-X data

Pulella

Bispo

Pardini

et al. 2017

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TanDEM-X forms together with TerraSAR-X the first single-pass polarimetric interferometer in space. This allows for the first time the acquisition and analysis of Single-, Dual-, and Quad-Pol-InSAR data without the disturbing effect of temporal decorrelation globally. For this reason, the exploration of TanDEM-X data for forestry is constantly increasing especially concerning forest height estimation, biomass classification and structure characterization. This paper reports the results of recent experiments aimed at investigating the potentials of TanDEM-X in characterizing quantitatively the spatial variability of the canopy top and phase center height, which is a proxy to horizontal structure. It is shown that such characterization can allow to differentiate among e.g. different successional and / disturbance stages in tropical forests.

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Igor G. Rizaev

Ship Wake Detection in SAR Images via Sparse Regularization

Mapping forest successional stages in the Brazilian Amazon using forest heights derived from TanDEM-X SAR interferometry

Modeling and SAR imaging of the sea surface: A review of the state-of-the-art with simulations

Modeling and SAR Imaging of the Sea Surface: a Review of the State-of-the-Art with Simulations

Tropical forest structure observation with TanDEM-X data

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