The master's thesis presents a new method for crane rail geometry determination, i. e. based on measurements obtained by using a terrestrial laser scanner and a dedicated computer programme which, on the basis of the rail points cloud, determines the horizontal and vertical path of the crane rail. The method was tested on the crane rails of Krško Hydroelectric Power Plant and Brestanica Thermal Power Plant, where, after scanning the point cloud, the upper and the lateral internal surface of railheads was derived. Each crane rail was divided into segments, through which the planes were fitted and the characteristic rail lines were determined. Based on the profiles, positional and height rail offsets were determined between the characteristic points on the same profile, as well as the actual span and the height difference between the crane rails. Furthermore, it was verified whether the calculated geometry parameters complied with the rules set by the standard in question. The thesis also examined how the rail geometry parameters – as determined by the terrestrial laser scanning method – correspond with the parameters determined by the classical polar method of surveying. Furthermore, it was tested how the determination of patterns is influenced by the length of the segment as well as the density of rail points. Based on the conclusions drawn during the elaboration of this thesis, certain guidelines are given on how to ensure the quality of crane rail geometry determination using terrestrial laser scanning technology.