Students who graduate from the Industrial Engineering Undergraduate Program receive a bachelor's degree. This degree is awarded by the relevant faculties of universities. The bachelor's degree is usually given with a title called "Industrial Engineer".

The Industrial Engineering Undergraduate program is an undergraduate program that teaches the skills and knowledge required for the effective management and improvement of production and business systems by combining engineering principles and business management techniques.

In this department, students take basic engineering courses such as mathematics, physics, statistics and computer science, as well as business courses such as production systems, business management, quality control, logistics, finance and marketing. In addition, decision-making techniques, productivity improvement methods, project management, supply chain management and industrial design are also taught in this department.

The Industrial Engineering Undergraduate program offers students the opportunity to analyze and improve production and business systems, and specialize in topics such as cost reduction, quality control, productivity improvement, resource use optimization and supply chain management.

Graduates can usually find jobs in various sectors such as production, engineering, logistics, finance, health, transportation and public sectors. In addition, students who complete the industrial engineering undergraduate program can continue their education in postgraduate programs for advanced education.

The generally accepted Program Competencies (Achievements) of the Industrial Engineering Undergraduate Program are as follows:

Ability to solve engineering problems using basic concepts in mathematics and science

Ability to understand and apply basic concepts, principles and methods in the industrial engineering discipline

Developing the ability to solve engineering problems with technological tools and methods

Ability to approach problems from a holistic perspective by conducting interdisciplinary studies

Ability to work effectively within the framework of professional ethical principles using communication and social skills

Developing leadership, teamwork and responsibility skills by working in multidisciplinary teams

Ability to offer solution suggestions to industrial problems using analytical, modeling and simulation approaches

Ability to have basic knowledge in management, economics and business administration

Developing continuous learning, research and innovation skills

These competencies aim to provide students with the basic skills and knowledge required to work as industrial engineers after completing the program. In addition, they provide a foundation that will allow graduates to pursue postgraduate studies.

The Industrial Engineering undergraduate program offers job opportunities in different positions in many sectors. Industrial Engineers can work in manufacturing, logistics, finance, healthcare, telecommunications, energy, defense and many other sectors.

Industrial Engineers usually specialize in areas such as productivity improvement, cost savings, quality control and supply chain management. They can also specialize in production processes, production line arrangements, inventory control, project management and data analysis.

Industrial Engineering graduates can analyze the processes and operations of businesses and offer suggestions to increase their productivity, reduce operating costs and improve business activities. In addition, they are preferred by many businesses because they are experts in project management.

Industrial Engineering graduates can find jobs in different areas such as production, planning, logistics, supply chain management, data analysis, quality control, project management, operational excellence, research and development. There are also job opportunities in the public sector.

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, practice, and practical work depending on the course. In the credit system, the type of mid-term and final evaluations and their weights (exams, homework, practice, etc.) are reported to the relevant department head by the instructor giving the course within the first two weeks of the term and announced to the students by the relevant teaching unit administration. The final evaluation is determined by the instructor giving 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 homework given during the semester on the final grade is 40%, the impact of 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.