“Statistical simulation of energy-intensive electromechanical systems”
Section 1. Mathematical apparatus for statistical simulation of energy-intensive systems.
Topic 1.1. Basic definitions and concepts of probability theory.
Topic 1.2. Numerical characteristics of random variables.
Topic 1.3. Moments, centering, moments of higher orders.
Topic 1.4. Basic distributions of random variables.
Section 2. Elements of statistical simulation of energy-intensive electromechanical systems.
Topic 2.2. Statistical simulation of random processes of functioning of energy-intensive electromechanical systems.
Topic 2.2. Experiment planning and processing of experimental data by mathematical statistics using an example of multiplication pressure research.
Section 3. Programming tasks of statistical simulation with the development of interface in the language C ++ Builder.
Topic 3.1. Designing the interface in C ++ Builder.
Topic 3.2. Programming the task of statistical simulation according to a given version of the distribution law.
“Mathematical modeling of electromechanical systems”
Section 1. Mathematical modeling of electromechanical systems with programming in Mathcad.
Topic 1.1. Classical discrete mathematical models of electromechanical systems.
Topic 1.2. Synthesis of Mathematical Models of Elements of Electromechanical Systems. By the Dawlbert Method and their Identification.
Section 2. Nonlinear mathematical models of discrete and continuum systems.
Topic 2.1. Nonlinear models and parametric resonance.
Topic 2.2. The equation of mathematical physics for the identification of continuum systems.
Topic 2.3. Wave model of the strike of Saint-Venan. Sears model.
Section 3. Mathematical modeling of electromechanical systems with AutoLISP programming in the AutoCAD environment.
Topic 3.1 Programming elements in ALISP language and parameterization of objects
Topic 3.2. Synthesis of technical objects in modern modeling and CAD systems.
Course project on academic discipline “Complexes, machines and equipment of electromechanical systems”
Section 1. Formulating an Explanatory Note
Topic 1.1. Information section of the project.
Topic 1.2. Synthesis of the design of the main assembly unit.
Topic 1.3. Modeling and determining the main parameters.
Section 2. Formation of the graphic part of the project.
Theme 2.1. Formation of drawings of the complex and assembly unit in the AutoCad system.
Topic 2.2. Formation of drawings of parts taking into account tolerances and plantings.
Section 2. Application of design automation methods.
Topic 3.1. Synthesis of construction as an element of the automated design system.
Topic 3.2. Application of AutoLisp programming and Solidworks tool.
“Energy saving intelligent machines and equipment for electromechanical systems”
Section 1. Intelligent machines, operating equipment and their parameters.
Topic 1.1. Introduction. Engineering support for the design of energy-saving intelligent machines and equipment for electromechanical systems.
Topic 1.2. Tolerances and landing in design.
Topic 1.3. Basing and forming assembly equipment units of electromechanical systems.
Section 2. Energy-saving machines and intelligent equipment in the oil and gas complex.
Topic 2.1. Energy-saving exploitation of oil and gas wells.
Topic 2.2. Methods of intensification of mining of minerals.
Section 3. Application of Neural Networks in Intelligent Electromechanical Systems
Topic 3.1 Elements of the theory of intelligent electromechanical systems based on neural networks.
Topic 3.2. Methods of teaching neural networks.
Topic 3.3. Exploitation of intelligent machines and equipment of electromechanical systems.
“Identification and Information Technologies functioning of electromechanical systems”
Section 1. Complexes, machines, working equipment and their parameters.
Topic 1.1 Complexes, machines and equipment for open work.
Topic 1.2. Kinematical analysis and synthesis of manipulators of complexes.
Topic 1.3. Methods of identification of functioning of electromechanical systems and information technologies of their engineering support.
Section 2. Mechatronics in electromechanical systems of complexes.
Topic 2.1. Basic concepts of mechatronics.
Topic 2.2. Hydraulic and electrohydraulic actuators and their characteristics.
Section 3. Information technologies in the mechatronics of tunneling complexes.
Topic 3.1. Passage boards and methods for their identification.
Topic 3.2. Panel systems for the construction of tunnels.
Section 4. Information Technologies of Intelligent Electromechanical Systems.
Topic 2.1 Basic concepts and definitions of intellectual systems.
Topic 2.2 Intelligent systems based on fuzzy sets.