The students graduating from this study specialization will have: knowledge on advanced methods and techniques of shaping, constructive processing, presentation – rendering and rapid prototyping of complex three-dimensional space objects in mechanical engineering and other branches of science and technology, including the theory of constructive projective geometry and aesthetics, as well as modern computer methods of practical modelling and display of positional and metric invariants of space using both classical technical documentation and virtual and augmented reality; knowledge on the structural, kinematic and dynamic characteristics of different types of classical mechanisms; knowledge and skills of design, simulation and motion analysis of classic mechanisms, primarily using modern software tools; ability to design modern, highly sophisticated devices and systems using synergy of mechanical engineering, electronics and modern information technologies; ability to model complex machine parts and assemblies using advanced CAD methods, improve the aesthetic characteristics of the modelled forms, present machine parts and assemblies with appropriate assembly and workshop drawings, design and analyse the movements of various types of mechanisms, perform simulation and analysis of the movement of projected mechanisms, present complex three-dimensional forms using methods and techniques of virtual and augmented reality, and install mechatronic systems.