• Fundamental measuring procedures in monitoring of movements. • Organization of the programme for deformation reserach. • Project in homogeneous observation system and the selection of measuring points. • Measuring plan and programme. • Optimal measuring accuracy and economy. • Monitoring deviations and deformations using automated measuring systems. • Deformation analysis. • Statistic parameters, tests, classifications – introduction to deformation analysis. • Functional and stochastic standardization models. • Data Snooping method. • Variation homogenity. • Global analysis. • Estimation of Variance Components. • Methods of deformation analysis of multi epoch of measurements. • Hannover model. • Karlshrue model. • A generalized method for the analysis of deformation measurements. • The movements localization. • Interpretation of measuring results. • Movement approximation for individual measuring point in a structure. • Correlation between deviations of individual structure points. • Total structure deformation. • Results of survey. • Congruence models. • Successive Decomposition of the Quadratic Form. • Robust methods in deformation analysis. • Rigid Body Displacement. • Modern methods of determining deformations (Fuzzy logic, Neural networks, Strain analysis). • Systems for continuous monitoring of engineering facilities.