SISSI Project: A Feasibility Study for a Super Resolved Compressive Sensing Multispectral Imager in the Medium Infrared-Reference-Cited by-同舟云学术

SISSI Project: A Feasibility Study for a Super Resolved Compressive Sensing Multispectral Imager in the Medium Infrared

Published:2021-11-29 Issue:1 Volume:8 Page:28
ISSN:2673-4591
Container-title:Engineering Proceedings
language:en
Short-container-title:Engineering Proceedings

Author:

Lastri Cinzia,Amato Gabriele^ORCID,Baldi Massimo^ORCID,Bianchi Tiziano,Buongiorno Maria Fabrizia^ORCID,Corti Chiara,Corti Francesco,Corti Marco^ORCID,Franci Enrico,Guzzi Donatella^ORCID,Magli Enrico^ORCID,Nardino Vanni^ORCID,Palombi Lorenzo^ORCID,Romaniello Vito,Scopa Tiziana,Siciliani De Cumis Mario,Silvestri Malvina^ORCID,Valsesia Diego^ORCID,Raimondi Valentina^ORCID

Abstract

This paper describes the activities related to a feasibility study for an Earth observation optical payload, operating in the medium infrared, based on super-resolution and compressive sensing techniques. The presented activities are running in the framework of the ASI project SISSI, aiming to improve ground spatial resolution and mitigate saturation/blooming effects. The core of the payload is a spatial light modulator (SLM): a bidimensional array of micromirrors electronically actuated. Thanks to compressive sensing approach, the proposed payload eliminates the compression board, saving mass, memory and energy consumption.

Publisher

MDPI AG

Link

https://www.mdpi.com/2673-4591/8/1/28/pdf

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1. Data Simulations of a Compressive Sensing Multispectral Imager in the Mid-Infrared Region and Its Performances for the Monitoring of High-Temperature Events;The 17th International Workshop on Advanced Infrared Technology and Applications;2023-11-07

2. Super-resolved compressive demonstrator for Earth Observation applications in the Medium Infrared: instrumental concept, optical design and expected performances;International Conference on Space Optics — ICSO 2022;2023-07-12

3. Compressive sensing instrumental concepts for space applications;Unconventional Optical Imaging III;2022-05-20