Showing total 4 results

1. Real-Time Reconstruction for 3-D CT Applied to Large Objects of Cultural Heritage.

Author

Brancaccio, R., Bettuzzi, M., Casali, F., Morigi, M. P., Levi, G., Gallo, A., Marchetti, G., and Schneberk, D.

Subjects

*REAL-time control, *IMAGE reconstruction, *TOMOGRAPHY, *CULTURAL property, *ALGORITHMS, *RADIOGRAPHY, *PARALLEL processing

Abstract

In this paper, we describe the work done in order to run the CT 3-D reconstruction algorithm on the 120 GB raw data from the more than 25\thinspace000 radiographs acquired from the Kongo Rikishi (XIII century) Japanese wooden statue. The work was done using the Microsoft (Redmond) HPC cluster and then on a local cluster at the INFN of Bologna. A speed-up factor of 75 was reached. [ABSTRACT FROM PUBLISHER]

Published

2011

2. Descriptive and Inferential Statistics for Supervising and Monitoring the Operation of PV Plants.

Author

Vergura, Silvano, Acciani, Giuseppe, Amoruso, Vitantonio, Patrono, Giuseppe B., and Vacca, Francesco

Subjects

*PHOTOVOLTAIC power systems, *ALGORITHMS, *ELECTRIC inverters, *GAUSSIAN distribution, *ANALYSIS of variance

Abstract

This paper deals with the problem of supervising and monitoring a photovoltaic (PV) plant. First, an offline descriptive and inferential statistical procedure for evaluating the goodness of system performance is presented. Then, an online inferential algorithm for real-time monitoring and fault detection is introduced. The two methodologies utilize the energy output of inverters as input data and are valid for both Gaussian and non-normal distribution of data. The procedures have been tested on a real PV installation, and results are reported for the case of a grid-connected PV plant in Italy for which one PV module over 132 resulted in being badly connected. [ABSTRACT FROM AUTHOR]

Published

2009

3. Fusion of Hyperspectral and LIDAR Remote Sensing Data for Classification of Complex Forest Areas.

Author

Dalponte, Michele, Bruzzone, Lorenzo, and Gianelle, Damiano

Subjects

*OPTICAL radar, *LASER communication systems, *OPTICAL communications, *OPTOELECTRONIC devices, *ALGORITHMS

Abstract

In this paper, we propose an analysis on the joint effect of hyperspectral and light detection and ranging (LIDAR) data for the classification of complex forest areas. In greater detail, we present: 1) an advanced system for the joint use of hyperspectral and LIDAR data in complex classification problems; 2) an investigation on the effectiveness of the very promising support vector machines (SVMs) and Gaussian maximum likelihood with leave-one-out-covariance algorithm classifiers for the analysis of complex forest scenarios characterized from a high number of species in a multisource framework; and 3) an analysis on the effectiveness of different LIDAR returns and channels (elevation and intensity) for increasing the classification accuracy obtained with hyperspectral images, particularly in relation to the discrimination of very similar classes. Several experiments carried out on a complex forest area in Italy provide interesting conclusions on the effectiveness and potentialities of the joint use of hyperspectral and LIDAR data and on the accuracy of the different classification techniques analyzed in the proposed system. In particular, the elevation channel of the first LIDAR return was very effective for the separation of species with similar spectral signatures but different mean heights, and the SVM classifier proved to be very robust and accurate in the exploitation of the considered multisource data. [ABSTRACT FROM AUTHOR]

Published

2008

4. A Small-Baseline Approach for Investigating Deformations on Full-Resolution Differential SAR Interferograms.

Author

Lanari, Ricardo, Mora, Oscar, Manunta, Michele, Mallorquí, Jordi J., Berardino, Paolo, and Sansosti, Eugenio

Subjects

*DEFORMATIONS (Mechanics), *SYNTHETIC aperture radar, *ALGORITHMS, *ROCKS, *ARTIFICIAL satellites

Abstract

This paper presents a differential synthetic aperture radar (SAR) interferometry (DIFSAR) approach for investigating deformation phenomena on full-resolution DIFSAR interferograms. In particular, our algorithm extends the capability of the small-baseline subset (SBAS) technique that relies on small-baseline DIFSAR interferograms only and is mainly focused on investigating large-scale deformations with spatial resolutions of about 100 x 100 m. The proposed technique is implemented by using two different sets of data generated at low (multilook data) and full (single-look data) spatial resolution, respectively. The former is used to identify and estimate, via the conventional SBAS technique, large spatial scale deformation patterns, topographic errors in the available digital elevation model, and possible atmospheric phase artifacts; the latter allows us to detect, on the full-resolution residual phase components, structures highly coherent over time (buildings, rocks, lava, structures, etc.), as well as their height and displacements. In particular, the estimation of the temporal evolution of these local deformations is easily implemented by applying the singular value decomposition technique. The proposed algorithm has been tested with data acquired by the European Remote Sensing satellites relative to the Campania area (Italy) and validated by using geodetic measurements. [ABSTRACT FROM AUTHOR]

Published

2004