The SAP4PRISMA (Development of algorithms and products for supporting the PRISMA mission) project is one of the five research projects funded by ASI (Italian Space Agency) with the objective to develop applications capable of suitably exploiting the data acquired by the satellite hyperspectral sensor PRISMA. PRISMA (PRecursore IperSpettrale della Missione Applicativa) is an earth observation system combining a hyperspectral sensor with a panchromatic medium-resolution camera. The mission, fully supported by the Italian Space Agency (ASI), is de-voted to Earth Observation and Remote Sensing Research to answer to the users increasing de-mand of accurate quantitative information about the Earth system. SAP4PRISMA project is focus-ing its research activities only on those geophysical parameters/applications/products that are suit-able for the characteristics of the mission and in perspective for further international hyperspectral missions (EnMAP, HyspIRI, etc.). The project is structured in interconnected research activities aimed at consolidating the methodological issues for retrieving geophysical and agro-environmental parameters to be used as inputs for the development of innovative complex prod-ucts (e.g., nitrate leaching, land degradation and fuel maps, etc.). The products proposed in the frame work of the SAP4PRISMA project regard: (a) land degradation and vegetation status, (b) products development for agricultural areas, (c) management and monitoring of natural and in-duced hazards. Regarding the application of PRISMA for the management and monitoring of natu-ral and anthropogenic hazards, we focus on the assessment of the damage severity and mainly on the effects of fire in vegetated areas interested by a fire. Moreover, project goal is to develop an index that, in the presence of an area where the vegetation shows a sharp decline, is able to under-stand the causes, that may not necessarily be linked to the occurrence of a fire (e.g., oil spills, floods, etc.). This paper aims at showing the results reached up-to-now in the process of develop-ing such an index called DSI (Damage Severity Index).

Development of a vegetation damage severity index based on hyperspectral sensor data / Laneve, G.; DE BONIS, Roberto; Fusilli, Lorenzo. - (2013), pp. 711-724. (Intervento presentato al convegno 33th EARSEL tenutosi a Matera (Italy)).

Development of a vegetation damage severity index based on hyperspectral sensor data

G. Laneve
;
Roberto de Bonis;Lorenzo Fusilli
2013

Abstract

The SAP4PRISMA (Development of algorithms and products for supporting the PRISMA mission) project is one of the five research projects funded by ASI (Italian Space Agency) with the objective to develop applications capable of suitably exploiting the data acquired by the satellite hyperspectral sensor PRISMA. PRISMA (PRecursore IperSpettrale della Missione Applicativa) is an earth observation system combining a hyperspectral sensor with a panchromatic medium-resolution camera. The mission, fully supported by the Italian Space Agency (ASI), is de-voted to Earth Observation and Remote Sensing Research to answer to the users increasing de-mand of accurate quantitative information about the Earth system. SAP4PRISMA project is focus-ing its research activities only on those geophysical parameters/applications/products that are suit-able for the characteristics of the mission and in perspective for further international hyperspectral missions (EnMAP, HyspIRI, etc.). The project is structured in interconnected research activities aimed at consolidating the methodological issues for retrieving geophysical and agro-environmental parameters to be used as inputs for the development of innovative complex prod-ucts (e.g., nitrate leaching, land degradation and fuel maps, etc.). The products proposed in the frame work of the SAP4PRISMA project regard: (a) land degradation and vegetation status, (b) products development for agricultural areas, (c) management and monitoring of natural and in-duced hazards. Regarding the application of PRISMA for the management and monitoring of natu-ral and anthropogenic hazards, we focus on the assessment of the damage severity and mainly on the effects of fire in vegetated areas interested by a fire. Moreover, project goal is to develop an index that, in the presence of an area where the vegetation shows a sharp decline, is able to under-stand the causes, that may not necessarily be linked to the occurrence of a fire (e.g., oil spills, floods, etc.). This paper aims at showing the results reached up-to-now in the process of develop-ing such an index called DSI (Damage Severity Index).
2013
33th EARSEL
Damage; index; optical sensor; satellite; remote sensing
04 Pubblicazione in atti di convegno::04b Atto di convegno in volume
Development of a vegetation damage severity index based on hyperspectral sensor data / Laneve, G.; DE BONIS, Roberto; Fusilli, Lorenzo. - (2013), pp. 711-724. (Intervento presentato al convegno 33th EARSEL tenutosi a Matera (Italy)).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1388759
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