Detection of exposed and subsurface archaeological remains using multi-sensor remote sensing
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[1] C. J. Tucker,et al. Soil spectra contributions to grass canopy spectral reflectance , 1977 .
[2] Thermal inertia of rocks—an HCMM experiment on Sardinia, Italy† , 1984 .
[3] Timothy Eveleigh,et al. Application of Landsat Data and Synoptic Remote Sensing to Predictive Models for Prehistoric Archaeological Sites: An Example from the Delaware Coastal Plain , 1986, American Antiquity.
[4] Detection of a buried horizon with a high thermal diffusivity using thermal remote sensing , 1988 .
[5] A THERMAL METHOD FOR ARCHAEOLOGICAL PROSPECTION: PRELIMINARY INVESTIGATIONS , 1990 .
[6] Stanton W. Green,et al. Interpreting Space: GIS and Archaeology , 1990 .
[7] J. Wynn. Applications of high-resolution geophysical methods to archaeology , 1990 .
[8] Thomas L. Sever,et al. Applications of Space-Age Technology in Anthropology , 1991 .
[9] M. E. Bauer,et al. Satellite spectral data and archaeological reconnaissance in western Greece , 1991 .
[10] G. Wadge,et al. The effects of vegetation on the ability to map soils using imaging spectrometer data , 1994 .
[11] Yong Xue,et al. Thermal inertia determination from space— a tutorial review , 1996 .
[12] Travaux menés en collaboration avec l’Ecole française d’Athènes en 1998: Itanos (Crète orientale) , 1996 .
[13] Jean-Robert Simard,et al. Improved landmine detection capability (ILDC): systematic approach to the detection of buried mines using passive IR imaging , 1996, Defense, Security, and Sensing.
[14] P. Theocaris,et al. Geophysical prospection, archaeological excavation, and dating in two Hellenic pyramids , 1996 .
[15] Dominic Powlesland,et al. Enhancing the record through remote sensing: the application and integration of multi-sensor, non-invasive remote sensing techniques for the enhancement of the Sites and Monuments Record. Heslerton Parish Project, N. Yorkshire, England , 1997 .
[16] Antonio M. Montufo. The use of satellite imagery and digital image processing in landscape archaeology. A case study from the island of Mallorca, Spain , 1997 .
[17] M. Pearson,et al. Landscape archaeology and remote sensing in southern Madagascar , 1998 .
[18] Graeme Neil Crisp,et al. Remote minefield detection system , 1999, Defense, Security, and Sensing.
[19] C. Gaffney,et al. Non-invasive investigations at Wroxeter at the end of the twentieth century , 2000 .
[20] David P. Miller,et al. Status of atmospheric correction using a MODTRAN4-based algorithm , 2000, SPIE Defense + Commercial Sensing.
[21] Apostolos Sarris,et al. Geophysical and related techniques applied to archaeological survey in the Mediterranean: a review , 2000 .
[22] Wolfgang Neubauer,et al. Images of the invisible-prospection methods for the documentation of threatened archaeological sites , 2001, Naturwissenschaften.
[23] S. M. de Jong,et al. Imaging spectrometry : basic principles and prospective applications , 2001 .
[24] A. M. Pollard,et al. Handbook of archaeological sciences , 2001 .
[25] Eyal Ben-Dor,et al. Detection of buried ancient walls using airborne thermal video radiometry , 2001 .
[26] R. Escadafal,et al. Statistical analysis of soil colour and spectroradiometric data for hyperspectral remote sensing of soil properties (example in a southern Italy Mediterranean ecosystem) , 2001 .
[27] Lalit Kumar,et al. Imaging Spectrometry and Vegetation Science , 2001 .
[28] D. Donoghue,et al. CORONA satellite photography: an archaeological application from the Middle East , 2002, Antiquity.
[29] Sabine Chabrillat,et al. Use of hyperspectral images in the identification and mapping of expansive clay soils and the role of spatial resolution , 2002 .
[30] A. Karnieli,et al. Mapping of several soil properties using DAIS-7915 hyperspectral scanner data - a case study over clayey soils in Israel , 2002 .
[31] M. Fowler. Satellite remote sensing and archaeology: a comparative study of satellite imagery of the environs of Figsbury Ring, Wiltshire , 2002 .
[32] Ian Barnes,et al. Aerial remote‐sensing techniques used in the management of archaeological monuments on the British Army's Salisbury Plain Training Area, Wiltshire, UK , 2003 .
[33] J. Ur. CORONA Satellite Photography and Ancient Road Networks: A Northern Mesopotamian Case Study , 2003, Antiquity.
[34] Graciela Metternicht,et al. Remote sensing of soil salinity: potentials and constraints , 2003 .
[35] J. Leckebusch,et al. Ground‐penetrating radar: a modern three‐dimensional prospection method , 2003 .
[36] T. J. Majumdar. Regional thermal inertia mapping over the Indian subcontinent using INSAT-1D VHRR data and its possible geological applications , 2003 .
[37] Kenneth L. Kvamme,et al. Geophysical Surveys as Landscape Archaeology , 2003, American Antiquity.
[38] A. Vafidis,et al. Mapping the ancient port at the archaeological site of Itanos (Greece) using shallow seismic methods , 2003 .
[39] Heesung Kwon,et al. Adaptive anomaly detection using subspace separation for hyperspectral imagery , 2003 .
[40] Xingfa Gu,et al. Evaluation of methods for soil surface moisture estimation from reflectance data , 2003 .
[41] Fred A. Kruse,et al. Mineral Mapping with AVIRIS and EO-1 Hyperion , 2004 .
[42] Ben H.P. Maathuis,et al. A review of satellite and airborne sensors for remote sensing based detection of minefields and landmines , 2004 .
[43] U. Benz,et al. Multi-resolution, object-oriented fuzzy analysis of remote sensing data for GIS-ready information , 2004 .
[44] The king's castle of Roscrea , 2004 .
[45] M. Fowler,et al. Detection of archaeological crop marks on declassified CORONA KH‐4B intelligence satellite photography of Southern England , 2005 .
[46] M. Altaweel. The use of ASTER satellite imagery in archaeological contexts , 2005 .
[47] A. Cliff,et al. The potential of airborne lidar for detection of archaeological features under woodland canopies , 2005, Antiquity.
[48] K. Challis. Airborne laser altimetry in alluviated landscapes , 2006 .
[49] Alain De Wulf,et al. Satellite imagery and archaeology: the example of CORONA in the Altai Mountains , 2006 .