D. Al-halbouni, E. Holohan, and A. Taheri, 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.

D. Al-halbouni, E. P. Holohan, A. Taheri, R. A. Watson, and U. Polom, Electrical resistivity and seismic refraction tomography to de-740 tect buried cavities, Geophysical Prospecting, vol.58, pp.685-695

L. Chang and R. F. Hanssen, 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.

,

L. De-giorgi and G. Leucci, Detection of hazardous cavities below 750 a road using combined geophysical methods, Survey in Geophysics, vol.35, pp.751-1003, 2014.

M. P. Deseilligny and I. Cléry, 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

J. A. Duffie and W. A. Beckman, Solar radiation. Solar Enginieering 756 of Thermal Processes, pp.3-17, 1980.

C. Edmonds, T. Kennie, and M. Rosenbaum, 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

L. Eppelbaum, I. Kutasov, and A. Pilchin, , 2014.

H. Springer-berlin,

T. B. Franklin, Viii. the effect of weather changes on soil tempera-767 tures, Proceedings of the Royal Society of Edinburgh, vol.40, pp.56-79, 1921.

Y. Furukawa and J. Ponce, Accurate, dense, and robust multiview 769 stereopsis, IEEE Transactions on Pattern Analysis and Machine Intelli-770 gence, vol.32, pp.1362-1376, 2010.

D. M. Gates, Evaporation and transpiration, In Biophysical Ecology, vol.772, pp.307-344, 1980.

D. Gaudin, F. Beauducel, P. Allemand, C. Delacourt, and A. Finizola, 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

R. Geiger, The climate near the ground, 1965.

D. A. Gunn, S. H. Marsh, A. Gibson, G. J. Ager, K. B. Mcmanus et al., , p.780

S. Culshaw and M. G. , Remote thermal ir surveying to detect aban, 2008.

, , vol.849

F. Martnez-moreno, F. Monteiro-santos, and J. Galindo-zaldvar,

L. Castillo, A. Pedrera, I. Bernando, S. Gonalves, and . Alves-ribeiro, , 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

M. T. Mellon, B. M. Jakosky, H. H. Kieffer, and . Christensen, P. R, vol.858, 2000.

, High-resolution thermal inertia mapping from the mars ground cavities

, Geophysical Prospecting, vol.35, pp.393-423

P. Nasipuri, D. Mitra, and T. Majumdar, 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.

,

D. C. Peters, K. E. Livo, and P. L. Hauff, Remote sensing for analysis 880 of mine subsidence and mine wastes, Environmental Geosciences, vol.3, pp.11-27, 1996.

N. E. Putzig and M. T. Mellon, Apparent thermal inertia and 882 the surface heterogeneity of mars, Icarus, vol.191, pp.68-94, 2007.

A. Quinn, Elements of Photogrammetry, vol.886, 1948.

H. Rahnema, L. Ehsaninezhad, F. Dashti, and G. Talebi, Detection of 888 subterranean cavities and anomalies using multichannel analysis of surface 889 wave, Geomechanics and Geoengineering, vol.0, pp.1-14, 2020.

J. Rinker, Airborne infrared thermal detection of caves and crevasses, 1975.

B. E. Ruth and J. D. Degner, Characteristics of sinkhole development 895 and implications for potential cavity collapse, p.11, 1963.

F. F. Sabins, Remote sensing : principles and interpretation, 2007.

J. Sabins and . Floyd-f, Thermal Infrared Imagery and Its Application 900 to Structural Mapping in Southern California, GSA Bulletin, vol.80, pp.397-404, 1969.

,

I. Shul'gin, A. Kleshnin, and N. Verbolova, A photoelectric method for 905 determining the optical properties of plant leaves, p.906, 1958.

, English translation.) Fiziol. Rastenii, vol.5, p.973

N. Snavely, S. M. Seitz, and R. Szeliski, Modeling the world from 908 internet photo collections, International Journal of Computer Vision, vol.80, pp.909-189, 2008.

, , vol.942

K. Watson, Geologic applications of thermal infrared images. Pro-944 ceedings of the IEEE, vol.63, pp.128-137, 1975.

V. S. Whitehead, W. R. Johnson, and J. A. Boatright, 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.

C. D. Whiteman, K. J. Allwine, L. J. Fritschen, M. M. Orgill, and . Simpson, , p.950

J. R. , Deep valley radiation and surface energy budget microcli-951 mates. part i: Radiation, Journal of Applied Meteorology, vol.28, pp.414-426, 1989.

P. J. Wierenga, R. M. Hagan, and D. R. Nielsen, , 1979.

J. J. Wynne, T. N. Titus, and G. C. Diaz, 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.

D. Yin, S. Chen, B. Li, and W. Guo, , 2019.

, Arid Environments, vol.177, 104132.

,