Hostname: page-component-8448b6f56d-mp689 Total loading time: 0 Render date: 2024-04-23T05:49:20.559Z Has data issue: false hasContentIssue false
  • English
  • Français

CORONA satellite photography: an archaeological application from the Middle East

Published online by Cambridge University Press:  02 January 2015

G. Philip ,
D. Donoghue ,
A. Beck  and
N. Galiatsatos
G. Philip
Affiliation:
Department of Archaeology, University of Durham, South Road, Durham DH1 3LE, England.
D. Donoghue
Affiliation:
Department of Geography, University of Durham, South Road, Durham DH1 3LE, England.
A. Beck
Affiliation:
Department of Archaeology, University of Durham, South Road, Durham DH1 3LE, England.
N. Galiatsatos
Affiliation:
Department of Geography, University of Durham, South Road, Durham DH1 3LE, England.
Get access Rights & Permissions [Opens in a new window]

Extract

The declassification of CORONA high-resolution space photography has made a valuable new resource available for the study of ancient landscapes. Using a recent case-study from Syria, examples are given of various ways in which CORONA imagery can significantly enhance regional survey work.

Keywords

Satellite imagery: CORONAarchaeological surveySyrialandscapes
Type
Papers
Information
Antiquity , Volume 76 , Issue 291 , March 2002 , pp. 109 - 118
Copyright
Copyright © Antiquity Publications Ltd. 2002

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Comfort, A., Abadie-Reynal, G. & Ergeç, R.. 2000. Crossing the Euphrates in antiquity: Zeugma seen from space, Anatolian Studies 50: 99126.Google Scholar
Dentzer, J.-M. (ed.). 1985. Hauran I. Recherches sur la Syrie du sud a l’époque hellénistique etromaine. Paris: Institut Français d’archéologie du Proche-Orient. Bibliothèque Archéologique et Historique Tome .Google Scholar
Donoghijk, D. N. M. 2001. Remote sensing, in Brothwell, D. R. & Pollard, A. M. (ed.), Handbook of archaeological science: 55563. London: John Wiley & Sons.Google Scholar
D, Donoghue., Pihlip, G., Galiatsatos, N. & Reck, A.. 2002. Satellite imagpry for archaeological applications: a case study from the Orontes valley, Syria, in Bewley, R. H. & Raçzkowski, W. (ed.), Aerial archaeology: developing future practice: 21123. Amsterdam: IQS Press. NATO Science Series, series I: Life and Behavioural Sciences 337.Google Scholar
Gentelle, P. 1985. Eléments pour une histoire des paysages et du peuplement du Djebel Hauran septentrional, in Dentzer (ed.): 19–62.Google Scholar
Goossens, R., de Man, J. & de Dapper, M., forthcoming. Research into possibilities of CORONA-satellite-data to replace conventional aerial photographs in geo-archaeological studies, practised on Sai (Sudan), in Proceedings of the 20th EARSeL (European Association of Remote Sensing Laboratories) Meeting, June 2000, Dresden, Germany.Google Scholar
Kennedy, D. 1998. Declassified satellite photographs and archaeology in the Middle East: case studies from Turkey, Antiquity 72: 55361.Google Scholar
Marcolgngo, B. & Barisano, E., 2000. Télédetection et archéologie: concepts fondamentaux, état de l’art et examples, in Pasquinucci, M. & Trément, F. (ed.), Non-destructive techniques applied to landscape archaeology: 1530. Oxford: Oxbow. The Archaeology of Mediterranean Landscapes 4.Google Scholar
McDonald, R. A. 1995. CORONA: success for space reconnaissance. A look into the Cold War, and a revolution for intelligence, Photogrammetric Engineering and Remote Sensing 61: 689720.Google Scholar
McDonald, R. A. (Ed.). 1997. Corona between the Sun and the Eurlh. The first NRO reconnaissance eye in space. Bethesda (MD): American Society for Photograrnmetry and Remote Sensing.Google Scholar
Oštir, K., Stančič, Z. & Trušnovec, M.. 1999. Multispectral classification of satellite images, in Gillings, M., Mattingly, D. & van Dalen, J. (ed.), Geographic Information Systems and landscape archaeology: 12531. Oxford: Oxbow. The Archaeology of Mediterranean Landscapes 3.Google Scholar
Petrik, G. F. 1999. High resolution space imagery, Survey Ireland Winter 1999: 1–10.Google Scholar
Philip, G., Jabour, F., Beck, A., Bsiiesh, M., Grove, J., Kirk, A. & Millard, A. R.. In press. Settlement and landscape development in the Homs region, Syria: research questions, preliminary results 1999–2000 and future potential, Levant 34.Google Scholar
Ponikakov, V., Kuzlov, V., Artemov, A. & Kalis, A.. 1964. Geological Map of Syria 1:200,000 (Sheets I-36-XVIII; 1–37- XIII). Syrian Arab Republic Ministry of Industry. Moscow: VC.O. Technoexport.Google Scholar
Sarris, A. & Jones, R.. 2000. Geophysical and related techniques applied to archaeological survey in the Mediterranean: a review, Journal of Mediterranean Archaeology 13(1): 375.Google Scholar
K, Verhoeven. & Dales, L.. 1994. Remote sensing and Geographical Information Systems (GIS) for archaeological research (applied in Mesopotamia), in Casche, H., Tanret, M., Janssen, C. & Degraeve, A. (ed.), Cinquantc-dcux reflexions sur lc Proche-Orient ancien: 51939. Ghent: Peeters.Google Scholar
Villeneuve, F. 1985. L’économie rurale et la vie des campagnes dans le Hauran antique (Ier siècle avant J.-C.-VIc siècle après J.-C.), in Dentzer (ed.): 63136.Google Scholar
Wilkinson, T. J. 2000. Regional approaches to Mesopotamian archaeology: the contribution of archaeological survey. Journal of Archaeological Rcεcarch 8: 21967.Google Scholar
Wilkinson, T. J. & Tucker, D.. 1995. Settlement in the north fazira, Iraq: a study of the archaeological landscape. London: British School of Archaeology in Iraq.Google Scholar