1st Year
- Engineering Programming with MATLAB / 3 Credits
- Self-Design Seminar / 1 Credit
- At the beginning of enrollment, first-year students and professors meet to improve intimacy and help students adjust to university life through close guidance.
(Prevent dropouts by assisting first-year students to feel more comfortable and attached to the school) - Provide opportunities for students to design their careers through guidance and understanding of college life and majors.
- At the beginning of enrollment, first-year students and professors meet to improve intimacy and help students adjust to university life through close guidance.
- Advanced Engineering Mathematics 1 / 3 Credits
- Dynamics / 3 Credits
- Advanced Programming / 2 Credits
2nd Year
- Mechanics of Materials / 3 Credits
- Fundamental material property values are published for all common metallic and non-ferrous materials and new materials used in mechanical, shipbuilding, aeronautical, architectural, and civil engineering.
Dept. of Biomedical & Robotics Engineering is the study of analyzing the strength-dynamic stability of the basic mechanical structures of bio-robotic systems, which have become the main elements of all engineering systems, including the machines listed above, with materials like these.
- Fundamental material property values are published for all common metallic and non-ferrous materials and new materials used in mechanical, shipbuilding, aeronautical, architectural, and civil engineering.
- Circuit Theory / 3 Credits
- Thermodynamics / 3 Credits
- This course provides an understanding of the basic thermodynamics concepts, an essential skill for engineering students.
Learn the definitions of work, heat, and energy and the first law of thermodynamics and thermodynamic properties of closed systems.
You'll learn about the first and second laws of thermodynamics, entropy, and how to apply them to analyze open systems.
- This course provides an understanding of the basic thermodynamics concepts, an essential skill for engineering students.
- Robot Dynamics and Control / 3 Credits
- Advanced Engineering Mathematics 2 / 3 Credits
- • Object-Oriented Programming / 2 Credits
- Cell Biotechnology 1 / 3 Credits
- To help engineering students understand the biofield and develop their biotechnological analysis skills, this course comprehensively covers the functions and operations of the cell, the basic unit of life.
Understand the concept of cells and how proteins are crucial to life phenomena from an engineer's perspective, and learn about the various activities of cells.
- To help engineering students understand the biofield and develop their biotechnological analysis skills, this course comprehensively covers the functions and operations of the cell, the basic unit of life.
- Digital Logic Circuit / 3 Credits
- Electromagnetic Theory / 3 Credits
- System Dynamics 1 / 3 Credits
- Material Engineering / 3 Credits
- Learn the basic concepts of materials, essential elements of industrial society, and how to select and apply different materials.
- Digital Circuit Experiments / 2 Credits
- Fluid Mechanics / 3 Credits
- Learn about the definition of fluids, the properties of fluids, fluid hydrostatics, the law of conservation of mass, non-viscous flow, and the law of conservation of momentum.
Based on this, you will learn how to mathematically describe physical phenomena such as energy conservation, dimensional analysis, and modeling of fluid systems, non-rotating flows, and compressible flows.
- Learn about the definition of fluids, the properties of fluids, fluid hydrostatics, the law of conservation of mass, non-viscous flow, and the law of conservation of momentum.
- CAD Shape Modeling / 3 Credits
- Understand the basic principles and methods of three-dimensional design, which are fundamental to product design and production, and learn how to use software for this purpose and its various applications.
- Cell Biotechnology 2 / 3 Credits
- Design Engineering / 3 Credits
- Automatic Control / 3 Credits
- This course covers classical and modern control theory, including modeling of dynamic systems, response characteristic analysis of systems, and design of controllers. It ultimately aims to develop students' ability to design controllers.
3rd Year
- System Dynamics 2 / 3 Credits
- Mechanical Vibrations / 3 Credits
- All systems in the natural world, including all structures on Earth, are exposed to external forces that are either constant or vary in magnitude over time, including in extreme cases such as earthquakes.
In this case, every structure has a natural frequency, and if the frequency of the external force matches it, the structural system becomes unstable and damaged.
In Mechanical Vibration, you will learn design techniques to avoid this dangerous vibration phenomenon from destabilizing your mechatronic system.
- All systems in the natural world, including all structures on Earth, are exposed to external forces that are either constant or vary in magnitude over time, including in extreme cases such as earthquakes.
- Mechanical Engineering Lab / 2 Credits
- Microprocessors / 3 Credits
- Numerical Analysis / 3 Credits
- Since the birth of the computer in the mid-20th century, the use of computers has become indispensable in all fields of study, including engineering. In particular, in combining theories developed in math and physics, which are pure sciences, with engineering, which is an applied science, it is impossible to obtain accurate theoretical solutions as in pure sciences, and it takes a lot of time. Therefore, bio-robotic systems majors and engineering majors will quickly learn how to use computers to approximate engineering values.
- Probability And Statistics 3 Credits
- Vital Signs and Systems 3 Credits
- Biomedical Engineering experiment 1, 2 / 2 Credits
- Computational Systems Analysis and Optimization / 3 Credits
- Robotics / 3 Credits
- Robotics is the study of various electronic circuitry technologies that allow students to formulate concepts and design multiple mechanical and electronic control command devices and interfacing techniques with computer systems. In addition, to cover advanced control techniques for electric power equipment, this course covers the control of actuators (direct and alternating current electric motors) and servo mechanisms, feedback and feedforward control theory, software techniques for smooth movement of power conversion devices and systems, and principles and applications of computer peripherals. Also, the students develop their analysis and application skills by modeling facilities operated in the field, such as robot and conveyor systems.
- Smart Mobility 3 Credits
- Computer Structural Theory 3 Credits
- Communication Systems 3 Credits
- Electronic Circuits 3 Credits
- Bioinformatics 3 Credits
4th Year
- Introduction to AI / 3 Credits
- Reliability-driven Design and Production / 3 Credits
- Design Optimization / 3 Credits
- It is a technique used in many engineering fields to design products with optimal performance by formulating a mathematical function minimization problem based on the design and requirements of the product and solving it through engineering and mathematical knowledge. This course aims to develop an understanding of optimization techniques and the ability to apply them to solve engineering design problems. To do this, students learn formalization and numerical techniques and apply them to solve actual problems.
- RISE-based Undergraduate Research / 3 Credits
- Understand how to utilize the knowledge gained across the curriculum by studying practical engineering problems.
- Capstone Design 1, 2 / 1 Credit
- Based on the knowledge of the major, students perform design tasks for various products to understand the entire process from development to production and plan, design, produce, and evaluate products by themselves. It is a comprehensive design education to develop creativity and on-site practical skills that industrial companies need.
- Biomechanics / 3 Credits
- Biomedical Electronics / 3 Credits
- Video Signal Processing / 3 Credits
- Introduction to Human Anatomy and Physiology / 3 Credits