Comprehensive Interdisciplinary Program

The Mechatronics Engineering program at Tishk International University provides students with a robust interdisciplinary foundation integrating five major engineering domains. The carefully structured curriculum balances theoretical knowledge with practical skills, preparing graduates for modern industrial demands.

Curriculum Structure

The program is organized into five core domains:

Computer and Programming

  • Computer Programming and Algorithms

  • Object-Oriented Programming

  • Microprocessor and Programming

  • Embedded Systems and Real-Time Applications

  • Advanced Microprocessor & Microcontroller

  • Field Programmable Gate Array (FPGA)

  • Programmable Logic Controller (PLC)

Electrical and Electronics

  • Electrical Circuits and Network Analysis I & II

  • Electronics Principles and Devices

  • Analog Devices and Circuits

  • Digital Logic Design

  • Signals and Systems

  • Control Systems

  • Instrumentation and Measurement

  • AC and DC Drives

Mechanical and Mechatronic Systems

  • Engineering Mechanics (Statics)

  • Engineering Mechanics (Dynamics)

  • Strength of Materials

  • Pneumatic and Hydraulic Systems

  • Theory of Machinery

  • Design of Machine Elements

  • Design of Transmission Systems

Production and Design

  • Engineering Drawing

  • SolidWorks and Simulation

  • CNC Machining and Metrology

  • Production Technology

  • Manufacturing Technology

Robotics and Specialized Technologies

  • Robotics

  • Robotics and Machine Vision Systems

  • Robotics Simulation Tools

  • Human-Robot Interaction (HRI)

Specialized and Emerging Technology Courses

Emerging Technologies

  • Artificial Intelligence (AI) Applications

  • Nanoscience

  • Renewable Energy

Transportation & Mobility

  • Electric Vehicle Systems

  • Automotive Electronics

Industrial Applications

  • Industrial Mechatronics

  • Medical Mechatronics

This comprehensive curriculum ensures graduates are well-prepared for diverse careers in mechatronics engineering, combining traditional engineering principles with cutting-edge technological applications.

Keywords: Mechatronics Engineering, Curriculum Structure, Interdisciplinary Education, Robotics, Embedded Systems, Industrial Automation, Engineering Education, Technical Skills, Emerging Technologies