امینی، ا. خوشرو، س، ح. 1396. تخمین حجم بلوکهای برجای سنگ با استفاده از فاصلهداری درزهها در معادن تراورتن آذرشهر. نشریه علمی پژوهشی مهندسی معدن.
ملایی امامزاده، ا. بهاالدینی، م. سعیدی، غ. محمدی، م. 1398، تعیین حجم بلوک و شاخص مقاومت زمینشناسی GSI با استفاده از روش فتوگرامتری: مطالعه موردی معدن گل گهر سیرجان. نشریه علمی پژوهشی مهندسی معدن.
Bieniawski, Z.T., 1989. Engineering Rock Mass Classifications: A Complete Manual for Engineers and Geologists in Mining, Civil, and Petroleum Engineering. John Wiley & Sons.
Bonilla-Sierra, V., Donzé, F. V., Scholtès, L., & Elmouttie, M. K., 2012. The use of photogrammetry and 3D Discrete Element Models to better assess Rock Slope Stability.
Buyer, A., Schubert, W., 2017. Calculation the spacing of discontinuities from 3D point clouds. Procedia engineering, 191, 270-278.
Chesley, J. T., Leier, A. L., White, S., & Torres, R., 2017. Using unmanned aerial vehicles and structure-from-motion photogrammetry to characterize sedimentary outcrops: An example from the Morrison Formation, Utah, USA. Sedimentary Geology, 354, 1-8.
Dearman W.R., 1991. Engineering geological mapping. Butterworth - Heinemann Ltd., Oxford.
Dewez, T., Girardeau-Montaut, D., Allanic, C., & Rohmer, J., 2016. Facets: A cloudcompare plugin to extract geological planes from unstructured 3d point clouds.
Elmouttie, M. K., Poropat, G. V., 2012. A method to estimate in situ block size distribution. Rock mechanics and rock engineering, 45(3), 401-407.
Gaich, A., Poetsch, M., & Schubert, W., 2006. Acquisition and assessment of geometric rock mass features by true 3D images. In Golden Rocks, The 41st US Symposium on Rock Mechanics (USRMS). American Rock Mechanics Association.
Gigli, G., Casagli, N., 2011. Semi-automatic extraction of rock mass structural data from high resolution LIDAR point clouds. International Journal of Rock Mechanics and Mining Sciences, 48(2), 187-198.
Jaboyedoff, M., Metzger, R., Oppikofer, T., Couture, R., Derron, M.H., Locat, J., Turmel, D., 2007. New insight techniques to analyze rock-slope relief using DEM and 3Dimaging cloud points: Coltop-3D software. In: Francis, T. (Ed.), Rock Mechanics: Meeting Society’s Challenges and Demands. Proceedings of the 1st Canada–U.S. Rock Mechanics Symposium, Vancouver, Canada, May 27–31, pp. 61–68.
Jaboyedoff, M., Oppikofer, T., Abellan, A., Derron, M.H., Loye, A., Metzger, R., Pedrazzini, A., 2012. Use of LiDAR in landslide investigations: a review. Nat. Hazards 61, 5–28.
Guo, J., Liu, Y., Wu, L., Liu, S., Yang, T., Zhu, W., & Zhang, Z. (2019). A geometry-and texture-based automatic discontinuity trace extraction method for rock mass point cloud. International Journal of Rock Mechanics and Mining Sciences, 124, 104132.
Kemeny, J., Post, R., 2003. Estimating three-dimensional rock discontinuity orientation from digital images of fracture traces. Computers & Geosciences, 29(1), 65-77.
Lato, M.J., Voge, M., 2012. Automated mapping of rock discontinuities in 3D LiDAR and photogrammetry models. Int. J. Rock Mech. Min. Sci. 54, 150–158.
Monsalve, J. J., 2019. Integrating Laser Scanning with Discrete Element Modeling for Improving Safety in Underground Stone Mines (Doctoral dissertation, Virginia Tech).
Mosch, S., Nikolayew, D., Ewiak, O., & Siegesmund, S., 2011. Optimized extraction of dimension stone blocks. Environmental Earth Sciences, 63(7-8), 1911-1924.
Palmstrom, A., Sharma, V. I., & Saxena, K., 2001. In-situ characterization of rocks. Chapter 2: Measurement and characterization of rock mass jointing. balkema publ, 1-40.
Powers, P. S., Chiarle, M., & Savage, W. Z., 1996. A digital photogrammetric method for measuring horizontal surficial movements on the Slumgullion earthflow, Hinsdale county, Colorado. Computers & Geosciences, 22(6), 651-663.
Priest, S., Hudson, J., 1976. Discontinuity spacings in rock. International Journal of Rock Mechanics and Mining Sciences & Geomechanics Abstracts. Elsevier, pp. 135–148.
Riquelme, A. J., Abellán, A., & Tomás, R., 2015. Discontinuity spacing analysis in rock masses using 3D point clouds. Engineering Geology, 195, 185-195.
Riquelme, A., Cano, M., Tomás, R., & Abellán, A., 2017. Identification of rock slope discontinuity sets from laser scanner and photogrammetric point clouds: A comparative analysis. Procedia engineering, 191, 838-845.
Riquelme, A., Tomás, R., Cano, M., Pastor, J. L., & Abellán, A., 2018. Automatic mapping of discontinuity persistence on rock masses using 3D point clouds. Rock Mechanics and Rock Engineering, 51(10), 3005-3028.
Riquelme, A.J., Abellán, A., Tomás, R., Jaboyedoff, M., 2014. A new approach for semiautomatic rock mass joints recognition from 3D point clouds. Comput. Geosci. 68, 38–52.
http://dx.doi.org/10.1016/j.cageo.2014.03.014 (URL:
http://www.sciencedirect. com/science/article/pii/S0098300414000740)
Sen, Z., Eissa, E. A., 1992. Rock quality charts for log-normally distributed block sizes. In International journal of rock mechanics and mining sciences & geomechanics abstracts (Vol. 29, No. 1, pp. 1-12). Pergamon.
Slob, S., van Knapen, B., Hack, R., Turner, K., Kemeny, J., 2005. Method for automated discontinuity analysis of rock slopes with three-dimensional laser scanning. Transp. Res. Rec. 1913, 187–194.
Sousa, L. M. O. (2010). Evaluation of joints in granitic outcrops for dimension stone exploitation. Quarterly Journal of Engineering Geology and Hydrogeology, 43(1), 85-94.
Sturzenegger, M., Stead, D., 2009a. Close-range terrestrial digital photogrammetry and terrestrial laser scanning for discontinuity characterization on rock cuts. Eng. Geol. 106, 163–182.
http://dx.doi.org/10.1016/j.enggeo.2009.03.004 (URL:
http://www. Sciencedirect.com/science/article/pii/S0013795209000556).
Sturzenegger, M., Stead, D., 2009b. Quantifying discontinuity orientation and persistence on high mountain rock slopes and large landslides using terrestrial remote sensing techniques. Nat. Hazards Earth Syst. Sci. 9, 267–287.
Sturzenegger, M., Stead, D., Elmo, D., 2011. Terrestrial remote sensing-based estimation of mean trace length, trace intensity and block size/shape. Eng. Geol. 119, 96–111.
Tannant, D. D. (2015). Review of photogrammetry-based techniques for characterization and hazard assessment of rock faces. International Journal of Georesources and Environment-IJGE (formerly Int'l J of Geohazards and Environment), 1(2), 76-87.
Thiele, S. T., Grose, L., Samsu, A., Micklethwaite, S., Vollgger, S. A., & Cruden, A. R., 2017. Rapid, semi-automatic fracture and contact mapping for point clouds, images and geophysical data. Solid Earth, 8(6), 1241.
Yarahmadi, R., Bagherpour, R., Kakaie, R., Mirzaie, N. H., & Yari, M., 2014. Development of 2D computer program to determine geometry of rock mass blocks. International Journal of Mining Science and Technology, 24(2), 191-194.