Implementation of a hyperspectral image simulation tool and analysis of the impact of instrumental noise on vegetation fluorescence retrieval using the telluric O2-A and O2-B lines

Valentina Raimondi; Alessandro Barducci; Paola Di Ninni; Donatella Guzzi; Cinzia Lastri; Vanni Nardino; Lorenzo Palombi; Ivan Pippi

doi:10.1117/12.2067487

21 October 2014 Implementation of a hyperspectral image simulation tool and analysis of the impact of instrumental noise on vegetation fluorescence retrieval using the telluric O₂-A and O₂-B lines

Valentina Raimondi, Alessandro Barducci, Paola Di Ninni, Donatella Guzzi, Cinzia Lastri, Vanni Nardino, Lorenzo Palombi, Ivan Pippi

Author Affiliations +

Proceedings Volume 9241, Sensors, Systems, and Next-Generation Satellites XVIII; 92411Q (2014) https://doi.org/10.1117/12.2067487
Event: SPIE Remote Sensing, 2014, Amsterdam, Netherlands

Abstract

This paper presents an analysis of the main artifacts introduced by the non- uniformity of the instrumental characteristics in an image dataset simulated by taking into account the main technical features of the FLORIS sensor. The dataset was produced by using a hyperspectral image simulation tool – named FLISM (Fluorescence Image Simulator for space Missions) – specifically implemented to produce images of fluorescent and non-fluorescent targets acquired by a pushbroom hyperspectral instrument. In this specific case, the available technical specifications of the FLORIS sensor were taken into account to investigate some critical issues concerning Solar Induced Fluorescence (SIF) retrieval in vegetated areas by means of the FLD (Fraunhofer Line Discriminator) method, which relies on the telluric O₂-A and O₂-B lines to decouple the weak SIF signal of vegetation from the backscattered radiance.

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Valentina Raimondi, Alessandro Barducci, Paola Di Ninni, Donatella Guzzi, Cinzia Lastri, Vanni Nardino, Lorenzo Palombi, and Ivan Pippi "Implementation of a hyperspectral image simulation tool and analysis of the impact of instrumental noise on vegetation fluorescence retrieval using the telluric O₂-A and O₂-B lines", Proc. SPIE 9241, Sensors, Systems, and Next-Generation Satellites XVIII, 92411Q (21 October 2014); https://doi.org/10.1117/12.2067487

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KEYWORDS

Luminescence

Hyperspectral simulation

Sensors

Device simulation

Hyperspectral imaging

Reflectivity

Computer simulations

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