Research on the Technique of Determining the Internal Structure of Ancient Stone Pagodas Based on the Discriminant Features of Ground Penetrating Radar
This work is licensed under the Creative Commons Attribution 4.0 International License.
SONG S H, Distribution and appreciation of the existing ancient pagodas in China[J]. Journal of Hefei University of Technology (Social Sciences), 2001(01): 82-89. (in Chinese)Search in Google Scholar
LIN Z M. Research on the Application of Radar Technology to the Identification of Characteristic Parameter of Masonry Pagoda[D]. Yangzhou University, 2012. (in Chinese)Search in Google Scholar
BAI B, ZHOU J. Development and Application Status of Ground Penetrating Radar Testing Technology[J]. Chinese Journal of Rock Mechanics and Engineering, 2001(04): 527-531. (in Chinese)Search in Google Scholar
WANG D W, LV H T, TANG F J, et al. Intelligent Detection Technology of Contact State Between Asphalt Pavement Layers Based on 3D Ground Penetrating Radar Technology[J]. Journal of Beijing University of Technology, 2022, 48(06): 572-579. (in Chinese)Search in Google Scholar
Vickers R S, Dolphin L T. A communication on an archaeological radar experiment at Chaco Canyon, New Mexico[J]. MASCA Newsletter, 1975.Search in Google Scholar
P. M. Barone, T. Bellomo, E. Mattei, S. E. Lauro, E. Pettinelli. Ground-penetrating Radar in the Regio III (Pompeii, Italy): Archaeological Evidence[J]. Archaeological Prospection, 2011, 18(3).Search in Google Scholar
Schultz, J.J., Using ground-penetrating radar to locate clandestine graves of homicide victims - Forming forensic archaeology partnerships with law enforcement[J]. Homicide Studies, 2007. 11(1): 15-29.Search in Google Scholar
Lazar, C., et al., Ground penetrating radar prospection in Romania. Mariuta-la movila necropolis, a case study[J]. Mediterranean Archaeology & Archaeometry, 2011. 11(2): 79-89.Search in Google Scholar
Moffat, I., et al., Mapping unmarked graves with Ground Penetrating Radar at the Walkerville Wesleyan Cemetery, Adelaide[J]. Australian Archaeology, 2020. 86(1): 57-62.Search in Google Scholar
HU Q W, WANG S H, FU C W, et al. Lidar Remote Sensing Technology Archaeology--Discover the Remnants of Human Activities that Will Disappear[J]. Chinese Journal of Nature, 2018, 40(03): 191-199. (in Chinese)Search in Google Scholar
Qin T, Zhao Y H, Lin G C, et al. The application of GPR to underwater archaeological investigation of Shanglinhu Yue kiln relics[J]. Geophysical and Geochemical Exploration, 2018, 42(03): 624-630.(in Chinese)Search in Google Scholar
You J B, Chen F L. Locating Wulei/Qiemo Ancient Cities with Spatial Analysis Together with the Assessment of the Long wavelength Radar in Subsurface Archaeology[J]. Remote Sensing Technology and Application, 2017, 32(5): 794-800. (in Chinese)Search in Google Scholar
ZONG X, WANG X Y, LIU C S, et al. Experiments and Applications of Ground Penetrating Radar in the Investigation of Subsurface Archaeological Interest[J]. Journal of Geo-information Science,2016, 18(02): 272-281. (in Chinese)Search in Google Scholar
GAO S Q, WANG X B, HU Q L, et al. Application of Ground Penetrating Radar to Archaeological Exploration in Jinsha Ruins Site[J]. Site Investigation Science and Technology, 2008(06): 59-61. (in Chinese)Search in Google Scholar
ZHU W P, HUANG S Q, LI J L. On LeiFeng Tower Site In Hangzhou Using Underground Remote Sensing Archaeology[J]. Journal of Geo-information Science, 2002(02): 104-107. (in Chinese)Search in Google Scholar
Ground-penetrating Radar and Its Application in Archaeological Prospection[J]. Archaeology, 2000(08): 75-86.(in Chinese)Search in Google Scholar
WANG P. Application of ground penetrating radar in detection of underground diseases of sidewalk[J]. Bulletin of Surveying and Mapping, 2019(S1): 199-203.Search in Google Scholar
