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Exploring the need for identifying suitable pseudo-invariant targets for applying atmospheric correction in multi-temporal studies using satellite remotely sensed imagery

Exploring the need for identifying suitable pseudo-invariant targets for applying atmospheric correction in multi-temporal studies using satellite remotely sensed imagery
Exploring the need for identifying suitable pseudo-invariant targets for applying atmospheric correction in multi-temporal studies using satellite remotely sensed imagery
Atmospheric correction is a complex process, which requires substantial modelling and computation, and a major difficulty is to obtain appropriate input parameters for the models. Numerous investigators have dealt with the development of simple or sophisticated approaches for the atmospheric correction of satellite images. However there is uncertainty about the effectiveness of such techniques especially when dealing with historical datasets in which input parameters for atmospheric models prove difficult to be obtained. The use pseudo-invariant targets in conjunction with radiative transfer calculations is an alternative atmospheric correction technique which offers a relatively simple mean of removing atmospheric effects in multi-temporal series of image data; providing that suitable pseudo-invariant targets can be easily identified on the satellite images and records on the their spectral characteristics are available. The spectral data of the proposed pseudo-invariant targets can be easily found in the literature from other studies. Indeed, this paper explores the need for identifying suitable pseudo-invariant targets, which are large in size, distinctive in shape and common in many geographical areas. This paper presents an application of use pseudo-invariant targets for removing atmospheric effects from Landsat TM and ETM+ satellite imagery acquired over different geographical areas such as in UK, Cyprus, Kazakhstan and Greece for environmental applications.
9780819446688
205-216
SPIE
Hadjimitsis, D.G.
273ac886-343c-49d6-8810-b542cecc3fa1
Clayton, C.R.I.
8397d691-b35b-4d3f-a6d8-40678f233869
Perdikou, P.N.
2b2ed328-114f-46fd-b559-351ae5128b04
Retalis, A.
270d7f30-a00a-4b8f-b97c-5a9a53716ced
Ehlers, M.
Hadjimitsis, D.G.
273ac886-343c-49d6-8810-b542cecc3fa1
Clayton, C.R.I.
8397d691-b35b-4d3f-a6d8-40678f233869
Perdikou, P.N.
2b2ed328-114f-46fd-b559-351ae5128b04
Retalis, A.
270d7f30-a00a-4b8f-b97c-5a9a53716ced
Ehlers, M.

Hadjimitsis, D.G., Clayton, C.R.I., Perdikou, P.N. and Retalis, A. (2003) Exploring the need for identifying suitable pseudo-invariant targets for applying atmospheric correction in multi-temporal studies using satellite remotely sensed imagery. Ehlers, M. (ed.) In Remote Sensing for Environmental Monitoring, GIS Applications, and Geology II (Proceedings Volume). SPIE. pp. 205-216 . (doi:10.1117/12.463317).

Record type: Conference or Workshop Item (Paper)

Abstract

Atmospheric correction is a complex process, which requires substantial modelling and computation, and a major difficulty is to obtain appropriate input parameters for the models. Numerous investigators have dealt with the development of simple or sophisticated approaches for the atmospheric correction of satellite images. However there is uncertainty about the effectiveness of such techniques especially when dealing with historical datasets in which input parameters for atmospheric models prove difficult to be obtained. The use pseudo-invariant targets in conjunction with radiative transfer calculations is an alternative atmospheric correction technique which offers a relatively simple mean of removing atmospheric effects in multi-temporal series of image data; providing that suitable pseudo-invariant targets can be easily identified on the satellite images and records on the their spectral characteristics are available. The spectral data of the proposed pseudo-invariant targets can be easily found in the literature from other studies. Indeed, this paper explores the need for identifying suitable pseudo-invariant targets, which are large in size, distinctive in shape and common in many geographical areas. This paper presents an application of use pseudo-invariant targets for removing atmospheric effects from Landsat TM and ETM+ satellite imagery acquired over different geographical areas such as in UK, Cyprus, Kazakhstan and Greece for environmental applications.

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More information

Published date: September 2003
Venue - Dates: Conference on Remote Sensing for Environmental Monitoring, GIS Applications, and Geology II (Crete 2002), Crete, Greece, 2002-09-23 - 2002-09-26

Identifiers

Local EPrints ID: 53880
URI: http://eprints.soton.ac.uk/id/eprint/53880
DOI: doi:10.1117/12.463317
ISBN: 9780819446688
PURE UUID: c61a76a9-dc59-41de-af56-777f90559403
ORCID for C.R.I. Clayton: ORCID iD orcid.org/0000-0003-0071-8437

Catalogue record

Date deposited: 06 Aug 2008
Last modified: 16 Mar 2024 03:12

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Contributors

Author: D.G. Hadjimitsis
Author: C.R.I. Clayton ORCID iD
Author: P.N. Perdikou
Author: A. Retalis
Editor: M. Ehlers

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