Donato Amitrano scite author profile

This paper presents the multitemporal adaptive processing (MAP3) framework for the treatment of multitemporal synthetic aperture radar (SAR) images. The framework is organized in three major activities dealing with calibration, adaptability, and representation. The processing chain has been designed looking at the simplicity, i.e., the minimization of the operations needed to obtain the products, and at the algorithms' availability in the literature. Innovation has been provided in the crosscalibration step, which is solved introducing the variable amplitude levels equalization (VALE) method, through which it is possible to establish a common metrics for the measurement of the amplitude levels exhibited by the images of the series. Representation issues are discussed with an application-based approach, supported by examples with regard to semiarid and temperate regions in which amplitude maps and interferometric coherence are combined in an original way.

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Unsupervised Rapid Flood Mapping Using Sentinel-1 GRD SAR Images

Amitrano

Martino

Iodice

et al. 2018

IEEE Trans. Geosci. Remote Sensing

170

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Sentinel-1 for Monitoring Reservoirs: A Performance Analysis

Amitrano¹,

Martino²,

Iodice³

et al. 2014

Remote Sensing

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Abstract:In this paper we explore the performances and the opportunities provided by the European satellite Sentinel-1 for water resource management applications in low-income countries. The analysis is supported by a synthetic aperture radar (SAR) simulator, which allowed the quantification of the expected characteristics of Sentinel-1 products in three applications: interferometric digital elevation models (DEMs) generation, land cover mapping and estimation of water volumes retained by small reservoirs. The obtained results quantitatively show that Sentinel-1 data characteristics are fully suitable for most of the application already explored in the recent SAR literature.

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Detection of environmental hazards through the feature-based fusion of optical and SAR data: a case study in southern Italy

Errico

Angelino

Cicala

et al. 2015

International Journal of Remote Sensing

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The use of remote-sensing images is becoming common practice in the fight against environmental crimes. However, the challenge of exploiting the complementary information provided by radar and optical data, and by more conventional sources encoded in geographic information systems, is still open. In this work, we propose a new workflow for the detection of potentially hazardous cattle-breeding facilities, exploiting both synthetic aperture radar and optical multitemporal data together with geospatial analyses in the geographic information system environment. The data fusion is performed at a feature-based level. Experiments on data available for the area of Caserta, in southern Italy, show that the proposed technique provides very high detection capability, up to 95%, with a very low false alarm rate. A fast and easy-to-use system has been realized based on this approach, which is a useful tool in the hand of agencies engaged in the protection of territory

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Modeling Watershed Response in Semiarid Regions With High-Resolution Synthetic Aperture Radars

Amitrano

Ciervo

Martino

et al. 2014

IEEE J. Sel. Top. Appl. Earth Observations Remote Sensing

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In this paper, we propose a methodology devoted to exploit the outstanding characteristics of COSMO-SkyMed for monitoring water bodies in semiarid countries at a scale never experienced before. The proposed approach, based on appropriate registration, calibration, and processing of synthetic aperture radar (SAR) data, allows outperforming the previously available methods for monitoring small reservoirs, mainly carried out with optical data, and severely limited by the presence of cloud coverage, which is a frequent condition in wet season. A tool has been developed for computing the water volumes retained in small reservoirs based on SAR-derived digital elevation model. These data have been used to derive a relationship between storage volumes and surface areas that can be used when bathymetric information is unavailable. Due to the lack of direct measures of river's discharge, the time evolution of water volumes retained at reservoirs has been used to validate a simple rainfall-runoff hydrological model that can provide useful recommendation for the management of small reservoirs. Operational scenarios concerning the improvement in the efficiency of reservoirs management and the estimation of their impact on downstream area point out the applicative outcomes of the proposed method

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Donato Amitrano

A New Framework for SAR Multitemporal Data RGB Representation: Rationale and Products

Unsupervised Rapid Flood Mapping Using Sentinel-1 GRD SAR Images

Sentinel-1 for Monitoring Reservoirs: A Performance Analysis

Detection of environmental hazards through the feature-based fusion of optical and SAR data: a case study in southern Italy

Modeling Watershed Response in Semiarid Regions With High-Resolution Synthetic Aperture Radars

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