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Joukowsky Institute for Archaeology

 

 

Joukowsky Institute for Archaeology & the Ancient World
Brown University
Box 1837 / 60 George Street
Providence, RI 02912
Telephone: (401) 863-3188
Fax: (401) 863-9423
[email protected]

BEVAN, B., & J. KENYON. 1975. Ground probing radar for historical archaeology. MASCA Newsletter 11:2-7.

BRADLEY, J & M. FLETCHER. 1996. Extraction and Visualization of Information for Ground Penetrating Radar Surveys, in. H. Kamerman & K. Fennema, (eds.). Computer Applications and Quantitative Methods in Archaeology – Interfacing the Past, Volume 1:103-110. University of Leiden, Holland.

CAMPBELL, K. & A. ORANGE. 1974. A continuous profile of sea ice and freshwater ice thickness by impulse radar. Polar Record 17(106): 31-41.

CONYERS, L. 1995. The Use of Ground-Penetrating Radar to Map the Buried Structures and Landscape of the Ceren Site, El Salvador. Geoarchaeology, 10(4):275-299.

CONYERS, L. & D. GOODMAN. 1997. Ground-Penetrating Radar: An Introduction for Archaeologists. Walnut Creek, Calif.: AltaMira Press.

FISHER, S., R. STEWART & H. JOL. 1994. Processing Ground Penetrating Radar Data, in Proceedings of the Fifth International conference on Ground Penetrating Radar. Waterloo Centre for Groundwater Research, Waterloo, Canada: 661-675.

GOODMAN, D. 1994. Ground-penetrating radar simulation in engineering and archaeology. Geophysics 59(2):224-232.

GOODMAN, D. 1996. Comparison of GPR Time Slices and Archaeological Excavations, in Proceedings of the Sixth International Conference on Ground Penetrating Radar. Department of Geoscience and Technology, Tohoku University, Sendai, Japan: 77-82.

GOODMAN, D. & Y. NISHIMURA. 1992a. 2-D synthetic radargrams for use in archaeological investigation in Proceedings of the 4th International Conference on Ground Penetration Radar, Rovaneimi: Finland Geological Survey. Special Paper 16: 339-43.

GOODMAN, D. & Y. NISHIMURA. 1992b. Radar archaeometry and the use of synthetic radargrams to investigate burial grounds in Japan in Proceedings of the 28th International Symposium on Archaeometry, Los Angeles: 167.

GOODMAN, D. & Y. NISHIMURA. 1993. A ground-radar view of Japanese burial mounds. Antiquity 67:349-354.

GOODMAN, D., Y. NISHIMURA, H. HONGO & M. OKITA. 1997. 3-D GPR Amplitude Rendering of the Saitobaru Burial Mound #13, in M. Cucarzi and P. Conti (eds.). Filtering, Optimisation and Modelling of Geophysical Data in Archaeological Prospecting. Fondazione Carlo Maurilio Lerici, Politecnico di Milano, 50th Anniversary Issue: 93-101.

GOODMAN D., Y. NISHIMURA, H. HONGO & M. OKITA. 1998. GPR amplitude rendering in archaeology, in Proceedings of the GPR’98 Seventh International Conference on Ground Penetrating Radar. Lawrence, Kansas: 91–92.

GOODMAN, D., Y. NISHIMURA, H. HONGO, N. HIGASHI & H. INAOKA. 2005. Introduction to GPR Static-tilt Corrections for Archaeology, in S. Piro (ed.). 6th International Conference on Archaeological Prospection 6th International Conference on Archaeological Prospection, Proceedings Extended Abstract, Rome: 133-137.

GOODMAN, D., Y. NISHIMURA, H. HONGO & N. HIGASHI. 2006. Correcting for Topography and the Tilt of Ground-penetrating Radar Antennae. Archaeological Prospection 13:157-161.

GOODMAN, D. Y. NISHIMURA & J. ROGERS. 1995. GPR Time-slices in Archaeological Prospection. Archaeological Prospection 2:85-89.

GOODMAN, D., Y. NISHIMURA, T. UNO & T. YAMAMOTO. 1994. A ground radar survey of medieval kiln sites in Suzu City, western Japan. Archaeometry 36(2): 317-326.

GRASMUECK, M. 1996. 3-D Ground Penetrating Radar Applied to Fracture imaging in Gneiss. Geophysics 61(4): 1050-1064.

GRASMUECK, M. 1994. Applications of Seismic Processing Techniques to Discontinuity Mapping with Ground-Penetrating Radar in Crystalline Rock of the Gotthard Massif, Switzerland, in Proceeding of the fifth International Conference on Ground Penetrating Radar. Waterloo Centre for Groundwater Research, Waterloo, Canada: 1135-1139.

GRASMUECK, M., R. WEGER & H. HORSTMEYER. 2004. Three-dimensional ground-penetrating radar imaging of sedimentary structures, fractures, and archaeological features at submeter resolution. Geology 32(11): 933-936.

GRASMUECK, M., R. WEGER & H. HORSTMEYER. 2005. Full-resolution 3D GPR imaging. Geophysics 70 (1):K12-K19.

GRASMUECK, M. & D. VIGGIANO. 2006. 3D/4D GPR Toolbox and Data Acquisition Strategy for High-Resolution Imaging of Field Sites, presented at the 11th International Conference on Ground Penetrating Radar, June 19-22.

GSSI. 2003a. RADAN for Windows Version 5.0 User's Manual. New Hampshire: Geophysical Survey Systems, Inc.

GSSI. 2003b. 3DQuickdraw User's Manual. New Hampshire: Geophysical Survey Systems, Inc.

HYUNDOK, O., S. JOHGWOO, D. GOODMAN & Y. NISHIMURA. 2005. Archaeological interpretation of GPR data applied to Wolseong fortress in Gyeongju, Korea, in S. Piro (ed.). 6th International Conference on Archaeological Prospection6th International Conference on Archaeological Prospection, Proceedings Extended Abstract, Rome: 129-132.

JOHNSON, J. (ed.) 2006. Remote Sensing in Archaeology: An Explicitly North American Perspective. University of Alabama Press. – Chapter 7

KENYON, J. 1977. Ground-Penetrating Radar and Its Application to a Historical Archaeological Site. Historical Archaeology 11:48-55.

KOPPENJAN, S., M. STREETON, H. LEE, M. LEE & S. ONO. 2004. Advanced Signal Analysis for Forensic Applications of Ground Penetrating Radar, in E. Slob, A. Yarovoy & J. Rhenbergen (eds.) Proceedings of the Tenth International Conference on Ground Penetrating Radar, Delft 2:443-446.

LECKEBUSCH, J. 2000. Two- and three-dimensional ground-penetrating radar surveys across a medieval choir: a case study in archaeology. Archaeological Prospection 7:189-200.

LECKEBUSCH, J. 2003. Ground Penetrating Radar: A Modern Three-dimensional Prospection Method. Archaeological Prospection 10:213-240.

LECKEBUSCH, J. & R. PEIKERT. 2001. Investigating the True Resolution and Three-dimensional Capabilities of Ground-penetrating Radar Data in Archaeological Surveys: Measurements in a Sand Box. Archaeological Prospection 8:29–40.

LECKEBUSCH, J., R. PEIKERT & M. HAUSER. 2001. Advances in 3D visualization of georadar data, in Proceedings for the 4th International Conference on Archaeological Prospection, Vienna: 143-144.

LECKEBUSCH, J. & J. RYCHENER. 2005. Three-dimensional Comparison Between GPR and Excavation Results, in S. Piro (ed.). 6th International Conference on Archaeological Prospection 6th International Conference on Archaeological Prospection, Proceedings Extended Abstract, Rome: 223-226.

LEHMANN, F. & A. GREEN. 2000. Topographic migration of georadar data: implications for acquisition and processing. Geophysics 65(3):836–848.

MALAGODI, S., L. ORLANDO, S. PIRO & F. ROSSO. 1996. Location of Archaeological Structures Using GPR Method: Three-Dimensional Data Acquisition and Radar Signal Processing. Archaeological Prospection 3:13-23.

MILLIGAN, R. & M. ATKIN. 1993. The use of Ground-Probing Radar within a digital environment on archaeological sites, in J., Andresen, T. Madsen, and I. Scollar (eds.). Computer Applications and Quantitative Methods in Archaeology. Aarhus University Press: 21-32.

NEUBAUER, W., A. EDER-HINTERLEITNER, S. SEREN & P. MELICHAR. 2002. Georadar in the Roman Civil Town Carnuntum, Austria: An Approach for Archaeological Interpretation of GPR Data. Archaeological Prospection 9:135–156.

NISHIMURA, Y. 2002. A Trial GPR Survey For Detecting Posthole Buildings - Target Identification in Low Contrasted Soil Structures, in Recent Work in Archaeological Geophysics Conference. London: Geological Society.

NISHIMURA, Y. 2006. Comparative Geophysical Survey Results in Japan, presented at the XV International Summer School in Archaeology, Geophysics for Landscape Archaeology, Grosseto, 10-18 July.

OLHOEFT, G. 1981, Electrical properties of rocks, in Y. Touloukian, W. Judd, & R. Roy (eds.). Physical Properties of Rocks and Minerals. New York: McGraw-Hill: 257-330.

SELLEMAN, P., S. ARCONE & A. DELANEY. 1983. Radar Profiling of Buried Reflectors and the Ground Water Table. Cold Regions Research and Engineering Laboratory Report 83-11:1-10

VAUGHAN, C. 1986. Ground-penetrating radar surveys used in archaeological investigations. Geophysics 51(3):595-604.

VICKERS, R., L. DOLPHIN & D. JOHNSON. 1976. Archaeological Investigations at Chaco Canyon Using a Subsurface Radar, in Remote Sensing Experiments in Cultural Resource Studies: Non-Destructive Methods of Archaeological Exploration, Survey, and Analysis. Reports of the Chaco Center. National Park Service and University of New Mexico, Albuquerque, New Mexico 1:81-101.

VICKERS, R. & L. DOLPHIN. 1975. A Communication on an Archaeological Radar Experiment at Chaco Canyon, New Mexico. MASCA Newsletter 11(1):6-8.

VICKERS, R., L. DOLPHIN, & D. JOHNSON. 1976. Archaeological Investigations at Chaco Canyon Using a Subsurface Radar, in T. Lyons (ed.). Remote Sensing Experiments in Cultural Resource Studies at Chaco Canyon. Albuquerque, New Mexico: USDI-NPS and the University of New Mexico: 81-101.

WATTERS, M. 2004b. GPR: A tool for archaeological management, in Proceedings of the 10th International GPR Conference 2004. Delft, Netherlands: 811-815.

YELF, R. 2004. Where is true time zero?, in E. Slob, A. Yarovoy & J. Rhenbergen (eds.). Proceedings of the Tenth International Conference on Ground Penetrating Radar, Delft 1:279-282.

YOUN, H. & C. CHEN. 2004a. Landmine Classification Based on High-Resolution Temporal-Spatial GPR Template, in E. Slob, A. Yarovoy & J. Rhenbergen (eds.). Proceedings of the Tenth International Conference on Ground Penetrating Radar, Delft 2:681-684.

YOUN, H. & C. CHEN. 2004b. Autonomous UXO Classification using fully Polarimetric GPR Data, in E. Slob, A. Yarovoy & J. Rhenbergen (eds.). Proceedings of the Tenth International Conference on Ground Penetrating Radar, Delft 2:701-703.

YOUNG, R. & S. JINGSHENG. 1994. Recognition and removal of Subsurface Scattering in GPR Data, in Proceedings of the Fifth International Conference on Ground Penetrating Radar. Waterloo Centre for Groundwater Research, Waterloo, Canada: 735-746.