Lecture content: • Basic measurement methods for tracking of movements. • Organization of deformation testing programs. • The plan and program of measurements. • Optimum accuracy and cost-effectiveness measurements. • Monitoring of displacements and deformations by automatic measuring systems. • Analysis of deformations. • Geodetic methods of data collection for deformation detection. • Surveying and surveying facilities (dams, bridges). • Geotechnical methods and special instruments for collecting deformation data. • Methods of congruence of geodetic networks. • Pelzer methods. • Karlsruhe method. • Identification of unstable points. • Application of Helmert and Unimodal transformation in deformation analysis. • Mihailovic deformation analysis method (lower limit of displacements). • Pergdef1 deformation analysis method. • The trigonometric alignment method. Method of application of the leveling in determining the uplift/subsidence. • Movement analysis and interpretation. • Reliability of deformation analysis methods • Practice content: Practical application, in lectures, presented concepts. Project and realisation of deformation measurements.