8. Chan, L., M., H. Setan, R. Othman, Continuous Deformation Monitoring Using GPS and Robust Method, Department of Geomatic Engineering, Faculty of Geoinformation and Real Estate, Universiti Teknologi Malaysia, 2011.
9. Chen, Y. Q., Analysis of deformation surveys – A generalized method. Department of Geodesy and Geomatics Engineering, Technical Report No. 94, University of New Brunswick, Canada, 1983.
10. Chen, Y. Q., A. Chrzanowski, J. Secord, A strategy for the analysis of the stability of reference points in deformation surveys. 44. 141-149., CISM journal acsgc, 1990.
11. Dyakov, B., Comparative analysis of the methods of Costachel and Marcak, Mine Surveyor Bulletin, N6, 43-46, 2009.
12. Hamza, V., T. Ambrožič, Deformation analysis: the Caspary approach. Geodetski vestnik. 64. 68- 88. 10.15292 / geodetski-vestnik. 2020.01.68-88, 2020.
13. Ivanov, R., N. Babunska-Ivanova, Analysis of deformation surveys in geotechnical engineering: the concepts, Proceedings of the XI International Geomechanics Conference, 16- 20 September 2024, Golden Sands Resort, Bulgaria, 2024.
14. Kalinchenko, I., Development of technological solutions and research on optimization of the methods for geodetic monitoring of geotechnical systems in the polar region, PhD Thesis( in Russian), Omsk, 2014.
15. Konakoglu, B., E. Gökalp, Deformation Measurements and Analysis with Robust Methods A Case Study Deriner Dam. Turkish Journal of Science & Technology. 13. 99-103, 2018.
16. Lang, W., Deformationsmessungen an Staumauern nach den Methoden der Geodâsie. Verlag der Abteilung für Landestopographie, Bern, 1929.
17. Marjetič, A., M. Zemljak, T. Ambrožič, Deformation analysis: the DELFT approach. Geodetski vestnik. 56. 009-026. 10.15292 / geodetski-vestnik. 2012.01.009-026, 2012.
18. Milev, G., I. Milev, Applied geodesy, Part 1, Engineering surveying, Book 1: Basics, Systems and technologies of engineering surveying, Union of surveyors and land managers in Bulgaria, Sofia, 2017.
19. Neitzel, F., Identifizierung konsistenter Datengruppen am Beispiel der Kongruenzuntersuchung geodätischer Netze, München, Verlag der Bayerischen Akademie der Wissenschaften in Kommission bei der C. H. Beck ' schen Verlagsbuchhandlung München, ISSN 0065-5325 ISBN 3 7696 5004 2, 2004.
20. Niemeier, W., Classical concepts for deformation monitoring- strategies, status and limitations, 5th Joint International Symposium on Deformation Monitoring( JISDM), 20-22 June 2022, Valencia, Spain, 2022.
21. Nowel, K., Robust M-Estimation in Analysis of Control Network Deformations: Classical and New Method. Journal of Surveying Engineering. 141. 10.1061 /( ASCE) SU. 1943-5428.0000144, 2015.
22. Nowel, K., W. Kamiński, Robust estimation of deformation from observation differences for free control networks. Journal of Geodesy. 88. 10.1007 / s00190-014-0719-7, 2014.
23. Odak, I., L. Redovniković, M. Ivković, Application of Deformation Analysis on the Geodetic Measurements, The 5th International Conference on Engineering Surveying INGEO 2011, Brijuni, Croatia, 2011.
24. Penev, P., Analysis of the stability of reference points of a high-altitude base, Notice of the Universities“ Geodesy and aerial photography”( in Russian), book 4, Moscow, 2005.
25. Polak, M., Examination of the stability of reference points in distance and combined angle-distance networks, Proceedings of the II International Symposium of deformation measurements by geodetic methods, Germany, 1978.
26. Soldo, J., T. Ambrožič, Deformation analysis: The München approach. Geodetski vestnik. 62. 10.15292 / geodetski-vestnik. 2018.03.392-414, 2018.
27. Sušić, Z., M. Batilović, T. Ninkov, I. Aleksić, V. Bulatovic, Identification of movements using different geodetic methods of deformation analysis. Geodetski vestnik. 59. 537-553. 10.15292 / geodetskivestnik. 2015.03.537-553, 2015.
28. Taşçi, L., Analysis of dam deformation measurements with the robust and non-robust methods. Scientific Research and Essays. 5. 1770-1779, 2010.
122