In this thesis, we set up and analyse the performance of a computer model of a hypothetical (imaginary) tourist ski lift centre. In the first part of the thesis, we reviewed the current modelling environments, namely AnyLogic, Arena, ExtendSim and FlexSim. We compared the listed environments and chose AnyLogic to solve our problem, based on the criteria of free use, ease of use, intuitive use of the graphical interface, possibility to configure the model and ease of running a large number of simulations with the option of modelling random events. We presented the individual building blocks offered by the chosen environment, which were later used to build the planned model and to carry out a model analysis of the performance of a hypothetical tourist ski lift centre. In the second part, we presented the model scheme and described all its features. We then set up the scheme in the chosen environment and presented its graphical and logical parts. In the third part, we carried out a load and stress analysis of the performance of the tourist centre in terms of visitor throughput through simulations. The analysis was carried out with the operation of the gondola, the hotel and the chair lift during the summer season and with the operation and non-operation of both drag lifts with the operation of the chair lift and the gondola throughout the winter ski season. We also looked for the optimal relationship between the satisfaction of the centre manager and the satisfaction of the visitors, which we illustrated with two metrics, namely average number of people waiting for the chair lift and ratio between queuing time and lifetime of each visitor in the simulation.