Geomechanical mod-692 elling of sinkhole development using distinct elements: model verification 693 for a single void space and application to the dead sea area, Solid Earth, vol.694, issue.9, pp.1341-1373, 2018. ,
Electrical resistivity and seismic refraction tomography to de-740 tect buried cavities, Geophysical Prospecting, vol.58, pp.685-695 ,
Detection of cavity migration and 745 sinkhole risk using radar interferometric time series. Remote Sens-746 ing of Environment, vol.147, pp.56-64, 2014. ,
,
Detection of hazardous cavities below 750 a road using combined geophysical methods, Survey in Geophysics, vol.35, pp.751-1003, 2014. ,
Apero, an open source bundle adjus-753 ment software for automatic calibration and orientation of set of images, 2011. ,
, Proceedings of the ISPRS Symposium, 3DARCH11 . volume 269277
Solar radiation. Solar Enginieering 756 of Thermal Processes, pp.3-17, 1980. ,
The application of 758 airborne remote sensing to the detection of solution features in limestone, 1987. ,
, Geological Society, London, Engineering Geology Special Publications, vol.4, pp.760-125
, , 2014.
,
Viii. the effect of weather changes on soil tempera-767 tures, Proceedings of the Royal Society of Edinburgh, vol.40, pp.56-79, 1921. ,
Accurate, dense, and robust multiview 769 stereopsis, IEEE Transactions on Pattern Analysis and Machine Intelli-770 gence, vol.32, pp.1362-1376, 2010. ,
Evaporation and transpiration, In Biophysical Ecology, vol.772, pp.307-344, 1980. ,
Heat flux measurement from thermal infrared imagery in low-775 flux fumarolic zones: Example of the ty fault, vol.774, 2013. ,
, Journal of Volcanology and Geothermal Research, vol.267, pp.47-56
The climate near the ground, 1965. ,
, , p.780
Remote thermal ir surveying to detect aban, 2008. ,
, , vol.849
,
, , p.852
, Characterization of a cave by means of micrograv-853 ity and electrical resistivity 3d-inversions: Z de braga cave, J, 2018.
, , vol.36, pp.29-34
, , vol.856
, P. R, vol.858, 2000.
, High-resolution thermal inertia mapping from the mars ground cavities
, Geophysical Prospecting, vol.35, pp.393-423
Generation of ther-874 mal inertia image over a part of gujarat: A new tool for geolog-875 ical mapping, International Journal of Applied Earth Observation, vol.876, pp.129-139, 2005. ,
,
Remote sensing for analysis 880 of mine subsidence and mine wastes, Environmental Geosciences, vol.3, pp.11-27, 1996. ,
Apparent thermal inertia and 882 the surface heterogeneity of mars, Icarus, vol.191, pp.68-94, 2007. ,
Elements of Photogrammetry, vol.886, 1948. ,
Detection of 888 subterranean cavities and anomalies using multichannel analysis of surface 889 wave, Geomechanics and Geoengineering, vol.0, pp.1-14, 2020. ,
Airborne infrared thermal detection of caves and crevasses, 1975. ,
Characteristics of sinkhole development 895 and implications for potential cavity collapse, p.11, 1963. ,
Remote sensing : principles and interpretation, 2007. ,
Thermal Infrared Imagery and Its Application 900 to Structural Mapping in Southern California, GSA Bulletin, vol.80, pp.397-404, 1969. ,
,
A photoelectric method for 905 determining the optical properties of plant leaves, p.906, 1958. ,
, English translation.) Fiziol. Rastenii, vol.5, p.973
Modeling the world from 908 internet photo collections, International Journal of Computer Vision, vol.80, pp.909-189, 2008. ,
, , vol.942
Geologic applications of thermal infrared images. Pro-944 ceedings of the IEEE, vol.63, pp.128-137, 1975. ,
Vegetation 946 assessment using a combination of visible, near-ir, and thermal-jr avhrr 947 data, IEEE Transactions on geoscience and remote sensing, vol.112, pp.107-948, 1986. ,
, , p.950
Deep valley radiation and surface energy budget microcli-951 mates. part i: Radiation, Journal of Applied Meteorology, vol.28, pp.414-426, 1989. ,
, , 1979.
On developing thermal cave 959 detection techniques for earth, the moon and mars. Earth and Planetary 960 Science Letters, vol.272, pp.240-250, 2008. ,
, , 2019.
, Arid Environments, vol.177, 104132.
,