Your search keyword '"Zuccaro Marchi, Alessandro"' showing total 3 results

1. Optical compressive sensing technologies for space applications: Instrumental concepts and performance analysis

Author

Guzzi, Donatella, Coluccia, Giulio, Labate, Demetrio, Lastri, Cinzia, Magli, Enrico, Nardino, Vanni, Palombi, Lorenzo, Pippi, Ivan, Coltuc, Daniela, Barducci, Alessandro, Zuccaro Marchi, Alessandro, and Raimondi, Valentina

Subjects

Memory buffer register, Hyperspectral imaging, Computer science, Iterative reconstruction, Compressive sensing, NEO, computer.software_genre, MIR camera, Information extraction, Compressed sensing, Computer engineering, Compression ratio, DMD, Point (geometry), Detection theory, Stellar spectrophotometry, computer

Abstract

This paper presents the results of a study aimed at investigating the potential of Compressive Sensing (CS) technologies for optical space instruments. Besides assessing the pros and cons for a wide set of proposed instrumental concepts for space applications, the study analyzed in further detail two CS-based instrument concepts, each targeting a specific application: an UV-VIS hyperspectral imager on orbiter for stellar spectro-photometry and a MIR camera for sky observation and real-time detection of Near Earth Objects (NEO). The proposed UV-VIS hyperspectral imager relies on a classical CS approach and addresses the CS reconstruction of the full image in order to implement slitless spectrophotometry of stars. The CS-based MIR camera for NEO detection instead explores a novel approach aiming at information extraction without a prior full reconstruction of the image. Besides outlining the optical design of the instruments, its key elements and a pros and cons analysis of the architecture, this paper presents the performance assessment of these instruments for typical application scenarios by means of simulated data. The results showed that, from the point of view of data reconstruction quality, a good performance can be achieved by the designed instruments in terms of compression ratio (CR) and image reconstruction. In terms of system budgets, the CS architecture offered only some marginal benefits with respect to their traditional counterparts, mainly due to the lack of a compression board. Most advantages are instead provided in terms of downlink requirements and memory buffer.

Published

2018

2. EUSO-TA - First results from a ground-based EUSO telescope

Author

Abdellaoui, G., Fuglesang, Christer, Zuccaro Marchi, Alessandro, et al, Abdellaoui, G., Fuglesang, Christer, Zuccaro Marchi, Alessandro, and et al

Abstract

EUSO-TA is a ground-based telescope, installed at the Telescope Array (TA) site in Black Rock Mesa, Utah, USA. This is the first detector to successfully use a Fresnel lens based optical system and multi-anode photomultipliers (64 channels per tube, 2304 channels encompassing a 10.6° × 10.6° field of view) for detection of Ultra High Energy Cosmic Rays (UHECR). The telescope is located in front of one of the fluorescence detectors of the TA experiment. Since its installation in 2013, the detector has observed several ultra-high energy cosmic ray events and, in addition, meteors. The limiting magnitude of 5.5 on summed frames (∼ 3 ms) has been established. Measurements of the UV night sky emission in different conditions and moon phases and positions have been completed. The performed observations serve as a proof of concept for the future application of this detector technology., QC 20180813

Published

2018

3. Schmidt camera correctors for large telescopes

Author

Romoli, Andrea, Zuccaro Marchi, Alessandro, Gambicorti, Lisa, and Simonetti, Francesca

Abstract

Designing large Schmidt cameras using the polynomial expansion may yield a not-perfect spherical aberration correction. We indicate an alternative method to design the corrector, whose integration in a software package is in progress. The shape of the corrector can be determined with a simple recursive method. The incidence point can also be calculated for any ray, as well as the corresponding unitary vector normal to the surface.

Published

2010