Mechatronic Systems

Description: The discipline covers the study of the integration of mechanical, electronic and information technologies to create complex systems. Prepares undergraduates for the development, analysis and management of complex mechatronic systems that are used in a wide variety of fields, from automotive to medical engineering.

Amount of credits: 5

Course Workload:

Component: Component by selection

Cycle: Base disciplines

Goal

• Training specialists for research and creative innovation in the field of analysis and synthesis of mechatronic and robotic systems and control systems of mechatronic and robotic modules and systems.

Objective

• To prepare specialists for project activities in the field of creation and implementation of mechatronic and robotic systems, control systems of mechatronic and robotic modules and systems

Learning outcome: knowledge and understanding

• Principles of operation and mathematical description of the components of mechatronic and robotic systems (information, electromechanical, electrohydraulic, electronic elements and computer equipment)

Learning outcome: applying knowledge and understanding

• Apply deep natural science, mathematical knowledge in the field of analysis, synthesis and design to solve scientific and engineering problems of production and operation of mechatronic and robotic devices and systems, including their control systems

Learning outcome: formation of judgments

• Formulate problems and solutions like a specialist using a range of qualitative and quantitative information

Learning outcome: communicative abilities

• Apply communication skills (readiness for effective oral and written communication in the course of their professional activities, including in a foreign language

Learning outcome: learning skills or learning abilities

• Integrate knowledge in the field of analysis, design, production and operation of mechatronic and robotic devices and systems with knowledge from related fields

Teaching methods

- Classical lecture training; - Teaching with the help of audiovisual technical means; - "Consultant" system; - Teaching with the help of an educational book; - Computer training; - Blended learning.

Key reading

• Карнаухов Н.Ф. Электромеханические и мехатронные системы. – Ростов н/Д: Феникс, 2006. -320 с Подураев Ю.В. Основы мехатроники: Учебн. пособие. –М.: МГТУ “СТАНКИН”,2000 –80 с.