The Mechatronic Engineering Undergraduate program is usually a four-year undergraduate program. Students who complete this program are usually referred to as "Mechatronic Engineers". The degree earned will be the "Mechatronic Engineering Undergraduate Diploma" given by the university where the student completed his/her degree.

The Mechatronics Engineering Undergraduate program is a multidisciplinary engineering branch that combines disciplines such as electronics, computers and control systems, as well as machines and mechanical systems. This program provides students with basic knowledge and skills in mechanics, electronics, computers and control systems, as well as tools to understand the interactions between these disciplines.

The main goal of the program is to provide students with knowledge and skills in designing, manufacturing and analyzing both mechanical and electronic systems. In addition, students can specialize in areas such as control systems, robotics, artificial intelligence and data analysis.

In the Mechatronics Engineering Undergraduate program, students learn topics such as mathematics, physics, electronics, programming, control systems, mechanical systems, robotics and artificial intelligence, in addition to basic engineering courses. In addition, project and laboratory studies are also included in the program and help students develop their practical skills.

Graduates of the program can be employed in areas such as automotive, defense, health technologies and industrial automation. They can also continue their academic careers by taking a master's degree.

The program qualifications of the Mechatronic Engineering Undergraduate program determine the knowledge, skills and competencies that students should have upon graduation. The qualifications of this program are as follows:

Understanding the basic concepts in the fields of mechanical, electrical and electronic engineering.

Understanding the various stages of mechatronic systems such as the design, manufacturing, testing and maintenance of mechanical, electrical and electronic components.

Ability to apply mathematical and scientific methods for the design, modeling, analysis and optimization of mechatronic systems.

Ability to design mechatronic systems using computer-aided design, manufacturing and control software.

Ability to use appropriate test and measurement methods to evaluate and measure the performance of mechatronic systems.

Ability to consider safety, environmental and economic factors related to the installation, commissioning and maintenance of mechatronic systems.

Ability to prepare technical reports, projects and presentations and to communicate effectively in this process.

Ability to demonstrate behavioral skills such as teamwork, leadership, ethics and professional responsibility.

Ability to know and apply legislation and standards related to the design, manufacturing, testing and maintenance of mechatronic systems.

Ability to develop continuous learning, research and innovative thinking skills.

These competencies are the fundamental skills required for students to work and contribute effectively in the field of mechatronic engineering after graduation.

Mechatronics Engineering is a multidisciplinary engineering field that combines electronics, computers, mechanics and control engineering disciplines. Graduates of this program can work in automation, robotics, artificial intelligence, industrial control and similar fields.

Mechatronics Engineering graduates have a wide range of job opportunities. Especially in high-tech sectors such as automotive, defense industry, energy, medical, machinery and manufacturing sectors, job opportunities are quite high.

In addition, Mechatronics Engineering graduates can find jobs in research and development centers, consulting firms, universities and public institutions. Therefore, the Mechatronics Engineering Undergraduate program has a wide range of job opportunities.

The student's success in the courses is determined by evaluating the mid-term grades and the final exam grade together.

Mid-term grades consist of quizzes, mid-term exam grades and grades given to homework, applications and practical work depending on the course. In the credit system, the type and weight of mid-term and final evaluations (exams, homework, applications and similar) are reported to the relevant department head by the instructor teaching the course within the first two weeks of the semester and announced to the students by the relevant teaching unit administration. The final evaluation is determined by the instructor teaching the course with one of the following letter grades, taking into account the general success level of all students taking that course.

While the impact of the homework given during the semester on the final grade is 40%, the impact of the final exams at the end of the semester is 60%.

The student must have passed all compulsory and elective courses in the program and must not have a grade of F1, F2 or Z. In this program, the student must have a minimum of 240 ECTS credits and a general grade point average of at least 2.00 out of 4.00.