Dr. Claudio Poggi Profile

Dr. Claudio Poggi

at ENEA

SPIE Involvement:

Author

Publications (12)

Proceedings Article | 5 May 2010 Paper

Detection of explosives at trace levels by laser-induced breakdown spectroscopy (LIBS)

V. Lazic, A. Palucci, S. Jovicevic, M. Carapanese, C. Poggi, E. Buono

Proceedings Volume 7665, 76650V (2010) https://doi.org/10.1117/12.850717

KEYWORDS: Explosives, Laser induced breakdown spectroscopy, Aluminum, Plasma, Explosives detection, Principal component analysis, Molecules, Chemical reactions, Carbon, Chemical elements

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Proceedings Article | 16 July 2007 Paper

Polarimetry as tool to improve phase measurement in an amplitude modulated laser for submarine archaeological sites inspection

L. Bartolini, L. De Dominicis, M. Ferri de Collibus, G. Fornetti, M. Francucci, M. Guarneri, E. Paglia, C. Poggi, R. Ricci

Proceedings Volume 6618, 66180I (2007) https://doi.org/10.1117/12.725320

KEYWORDS: Polarization, Light scattering, Phase measurement, Scattering, Rayleigh scattering, Laser scattering, Polarimetry, Water, Mie scattering, Imaging systems

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Proceedings Article | 21 October 2005 Paper

Imaging topological radar for 3D imaging in cultural heritage reproduction and restoration

Claudio Poggi, Massimiliano Guarneri, Giorgio Fornetti, Mario Ferri de Collibus, Luigi De Dominicis, Emiliano Paglia, Roberto Ricci

Proceedings Volume 5988, 598802 (2005) https://doi.org/10.1117/12.629669

KEYWORDS: 3D modeling, Sensors, Signal to noise ratio, Radar, Cultural heritage, Radar imaging, Image resolution, Modulation, Software development, Data modeling

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Proceedings Article | 18 August 2005 Paper

AM Multipurpose High-Resolution Imaging Topological Radar (ITR): reverse engineering and artworks monitoring and restoration

Massimiliano Guarneri, Luciano Bartolini, Giorgio Fornetti, Mario Ferri De Collibus, Luigi De Dominicis, Emiliano Paglia, Claudio Poggi, Roberto Ricci

Proceedings Volume 5880, 588001 (2005) https://doi.org/10.1117/12.618641

KEYWORDS: Signal detection, Modulation, 3D scanning, Laser induced fluorescence, Reflectivity, Optical scanning systems, Head, Mirrors, Radar imaging, 3D modeling

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Proceedings Article | 7 June 2005 Paper

Amplitude-modulated laser range-finder for 3D imaging with multi-sensor data integration capabilities

L. Bartolini, M. Ferri de Collibus, G. Fornetti, M. Guarneri, E. Paglia, C. Poggi, R. Ricci

Proceedings Volume 5850, (2005) https://doi.org/10.1117/12.633683

KEYWORDS: 3D modeling, Data modeling, Laser induced fluorescence, Modulation, Sensors, Data integration, Cultural heritage, Thermal modeling, Software development, Stereoscopy

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Proceedings Article | 14 November 2003 Paper

High-resolution laser radar: a powerful tool for 3D imaging with potential applications in artwork restoration and medical prosthesis

Roberta Fantoni, Andrea Bordone, Mario Ferri De Collibus, Giorgio Fornetti, Marianna Guarneri, Claudio Poggi, Roberto Ricci

Proceedings Volume 5147, (2003) https://doi.org/10.1117/12.537497

KEYWORDS: 3D modeling, 3D image processing, Tissues, Sensors, Absorption, LIDAR, 3D image reconstruction, Modulation, Image resolution, Software development

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Proceedings Article | 9 October 2003 Paper

High-resolution laser radar for 3D imaging in artwork cataloging, reproduction, and restoration

Roberto Ricci, Roberta Fantoni, Mario Ferri de Collibus, Giorgio Fornetti, Massimiliano Guarneri, Claudio Poggi

Proceedings Volume 5146, (2003) https://doi.org/10.1117/12.498485

KEYWORDS: 3D modeling, Sensors, Modulation, Reverse modeling, Cultural heritage, 3D image processing, Data modeling, Reflectivity, LIDAR, 3D image reconstruction

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Proceedings Article | 9 April 2003 Paper

Development of a high-resolution laser radar for 3D imaging in artwork cataloging

Andrea Bordone, Mario Ferri De Collibus, Roberta Fantoni, Giorgio Fornetti, Marianna Guarneri, Claudio Poggi, Roberto Ricci

Proceedings Volume 5131, (2003) https://doi.org/10.1117/12.513643

KEYWORDS: 3D modeling, LIDAR, Sensors, Reverse modeling, Modulation, Stereoscopy, Amplitude modulation, Image processing, Software development, Laser applications

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Proceedings Article | 22 November 2000 Paper

Laser in vessel-viewing system for nuclear fusion reactors

Luciano Bartolini, Andrea Bordone, Alberto Coletti, Mario Ferri De Collibus, Giorgio Fornetti, S. Lupini, Carlo Neri, Claudio Poggi, Marco Riva, Luigi Semeraro, Carlo Talarico

Proceedings Volume 4124, (2000) https://doi.org/10.1117/12.407502

KEYWORDS: Prisms, Electronics, LIDAR, Modulation, Silica, Control systems, Optical fibers, Radar, Ranging, Digital signal processing

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Proceedings Article | 25 February 2000 Paper

Laser diagnostics developed for conservation and restoration of cultural inheritance

Roberta Fantoni, Antonio Palucci, Sergio Ribezzo, I. Borgia, E. Bacchi, Michele Caponero, Andrea Bordone, L. Businaro, Mario Ferri De Collibus, Giorgio Fornetti, Claudio Poggi

Proceedings Volume 4070, (2000) https://doi.org/10.1117/12.378139

KEYWORDS: Ceramics, Laser development, Diagnostics, Sensors, Laser induced fluorescence, 3D image processing, Luminescence, Gold, Speckle interferometry, Manufacturing

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Proceedings Article | 9 September 1999 Paper

Laser vision sensor for in-vessel inspection of fusion reactors

Luciano Bartolini, Andrea Bordone, Alberto Coletti, Mario Ferri De Collibus, Giorgio Fornetti, Carlo Neri, Claudio Poggi, Marco Riva, Luigi Semeraro, Carlo Talarico

Proceedings Volume 3823, (1999) https://doi.org/10.1117/12.360990

KEYWORDS: Modulation, Amplitude modulation, Silica, Ranging, LIDAR, Radar, Optical fibers, Prisms, Electronics, Sensors

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An optical amplitude modulated laser radar has been developed for periodic in-vessel inspection in large fusion machines and its overall optical aiming is developed taking into account the extremely high radiation levels and operating temperatures foreseen in the large European fusion machines (JET and ITER). In this paper an in vessel viewing system based on a transceiving optical radar using an RF modulated single mode 840 nm wavelength laser beam is illustrated. The sounding beam is transmitted through a coherent optical fiber and a focusing collimator to the inner part of the vessel by a stainless steel probe on the tip of which a suitable scanning silica prism steers the laser beam along a linear raster spanning a -90 degree to +90 degree in elevation and 360 degrees in azimuth for a complete mapping of the vessel itself. All the electronics, including laser source, avalanche photodiode and all the active components are located outside the bioshield, while passive components (receiving optics, transmitting collimator, fiber optics), located in the torus hall, are in fused silica so that the overall vision system is radiation resistant. The Active and passive components are contained in separated stainless steel boxes connected through two silica fiber optics. The laser radiation backscattered by the resolved surface element of the vessel is received by a collecting silica optics and remotely transmitted through a multimode fiber on the surface of an avalanche photodiode detector located in the active module at 120 m distance. The received signal is then acquired, the raster lines being synchronized with the aid of optical encoders linked to the scanning prism, to give a TV like image. The scanning accuracy expected in scanning process is less than 1 mm at 10 m of distance: this is a suitable resolution to yield a high quality image showing all the damages due to plasma disruptions. Preliminary results have been obtained scanning large sceneries including several real targets having different light backscattering properties, colors and surfaces reflectivity ranging over several decades to simulate the expected dynamic range of the video signals incoming from the vessel.

Proceedings Article | 14 July 1998 Paper

Coherent laser sensor for robotic applications

Luciano Bartolini, Andrea Bordone, L. Businaro, Mario Ferri De Collibus, Giorgio Fornetti, L. Morici, Claudio Poggi

Proceedings Volume 3423, (1998) https://doi.org/10.1117/12.316615

KEYWORDS: Sensors, Laser applications, Robotics, Frequency modulation, Signal to noise ratio, Modulation, Target detection, Laser development, Doppler effect, Oscillators

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Showing 5 of 12 publications

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