Basic concepts of control theory, classification of systems, forms of presentation and description of the dynamic characteristics of cybernetic systems.
History and directions of further development of control theory and systems, cyber systems, logical system.
Mathematical methods for the description of linear dynamical systems, operator transfer, transient, and frequency of static properties and characteristics.
Basic types of dynamic behavior of control and controlled systems.
Continuous controllers and their properties.
Algebra block diagrams, control circuit as an example of a cybernetic system.
Stability of continuous and discrete linear dynamic systems, the assessment criteria of stability.
Synthesis of control systems, steering precision, control accuracy, quality assessment activities of regulatory circuits.
Multi-parameters branched and cyber systems, autonomy and invariance.
Status interpretations of linear dynamic systems, design of state controller.
Influences on the behavior of nonlinear dynamic systems, extreme control.
Hierarchical and distributed control systems, industrial control and information systems, modular type.
Problems of optimization of static and dynamic systems, applications, optimizing the control systems.
The role of optimal control and methods of its solution.
History and directions of further development of control theory and systems, cyber systems, logical system.
Mathematical methods for the description of linear dynamical systems, operator transfer, transient, and frequency of static properties and characteristics.
Basic types of dynamic behavior of control and controlled systems.
Continuous controllers and their properties.
Algebra block diagrams, control circuit as an example of a cybernetic system.
Stability of continuous and discrete linear dynamic systems, the assessment criteria of stability.
Synthesis of control systems, steering precision, control accuracy, quality assessment activities of regulatory circuits.
Multi-parameters branched and cyber systems, autonomy and invariance.
Status interpretations of linear dynamic systems, design of state controller.
Influences on the behavior of nonlinear dynamic systems, extreme control.
Hierarchical and distributed control systems, industrial control and information systems, modular type.
Problems of optimization of static and dynamic systems, applications, optimizing the control systems.
The role of optimal control and methods of its solution.