[KSCI] Korea Science Citation Index Service

http://dx.doi.org/10.7780/kjrs.2002.18.1.13

Change Detection of Land-cover from Multi-temporal KOMPSAT-1 EOC Imageries

Ha, Sung-Ryong (Department of Urban Engineering, Chungbuk National University)
Ahn, Byung-Woon (Department of Urban Engineering, Chungbuk National University)
Park, Sang-Young (Department of Urban Engineering, Chungbuk National University)

Publication Information

Korean Journal of Remote Sensing / v.18, no.1, 2002 , pp. 13-23 More about this Journal

Abstract

A radiometric correction method is developed to apply multi-temporal KOMPSAT-1 EOC satellite images for the detection of land-cover changes b\ulcorner recognizing changes in reflection pattern. Radiometric correction was carried out to eliminate the atmospheric effects that could interfere with the image properly of the satellite data acquired at different multi-times. Four invariant features of water, sand, paved road, and roofs of building are selected and a linear regression relationship among the control set images is used as a correction scheme. It is found that the utilization of panchromatic multi-temporal imagery requires the radiometric scene standardization process to correct radiometric errors that include atmospheric effects and digital image processing errors. Land-cover with specific change pattern such as paddy field is extracted by seasonal change recognition process.

Keywords

KOMPSAT; Standardization; Multi-temporal; Change Detection; Paddy Field;

Citations & Related Records

Times Cited By KSCI : 1 (Citation Analysis)

Reference
Cited By KSCI

1	Evaluation of the potential for providing secondary labels in vegetation maps / [ Woodcock, C.E.;S. Gopal;W. Albert ] / Photogramm. Eng. Remote Sens.
2	Change analysis of forest area and canopy conditions in Kaesung, North Korea using Landsat, SPOT and KOMPSAT data / [ Lee, K.S.;J.H. Kim ] / Korean J. Remote Sens. 과학기술학회마을 DOI
3	An assessment of several linear change detection techniques for mapping forest mortality using multitemporal Landsat TM data / [ Collins, J.B.;C.E. Woodcock ] / Remote Sens. Environ ScienceOn
4	Remote Sensing / [ Slater, P.N. ] / Optics and Optical Systems
5	A semi-automatic technique for multitemporal classification of a given crop within a Landsat scene / [ Badwahr, G.D.;W.W. Austin;J.G. Carnes ] / Pattern Recognition ScienceOn
6	An alternative simple approach to estimate atmospheric correction in multitemporal studies / [ Caselles, V.;M.J. Kopez Garcia ] / Int. J. Remote Sens. ScienceOn
7	Radiometric scene normalization using pseudoinvariant features / [ Schott, J.R.;C. Salvaggio;W.J. Volchok ] / Remote Sens. Environ. ScienceOn
8	Digital change detection techniques using remotely sensed data / [ Singh, A. ] / Int. J. Remote Sens. ScienceOn
9	Aerial color analysis of water quality / [ Piech,K.R.;J.E.Walker ] / J. Surveying Mapping Div.
10	Processing if multitemporal Landsat TM Imagery to optimize extraction of forest cover change features / [ Coppin, P.R.;M.E. Bauer ] / IEEE Trans. Geosci. Remote Sens. ScienceOn
11	Atmospheric corrections for satellite water quality studies / [ Piech, K.R.;J.R. Schott ] / Proc. SPIE
12	Temporal image normalization / [ Gerson, D.J.;L.K. Fehrenbach ] / Final Report, Defense Mapping Agency
13	Photometric calibration of black-and white imagery / [ Piech, K.R.;D.W. Gaucher;E.W. Schimminger;C.W. Rogers ] / Rome Air Development Center Technical Report, RADC-TR-78-53
14	Radiometric rectification: toward a common radiometric response among multidate, multisensor images / [ Hall, F.C.;D.E. Strebel;J.E. Nickelson;S.J. Goetz ] / Remote Sens. Environ ScienceOn
15	A dynamic regression algorithm for incorporating atmospheric models into image correction procedures / [ Tellet, P.M.;N.T. O'Neill;A. Kalinauskas;D. Sturgeon;G. Fedosejevs ] / IGARSS'87: Remote Sensing: Understanding the Earth as a System