Industrial Design Engineering is an undergraduate program and upon successful completion, the student is given the title of "Industrial Design Engineer". Students who successfully complete this program earn a "Bachelor of Science (B.Sc.)" degree. Undergraduate education usually lasts 4 years and provides students with training in the basic principles of industrial design, product development process, materials science, design software, engineering principles and aesthetics.

An Industrial Design Engineering undergraduate degree provides graduates with the ability to successfully manage industrial design projects, oversee the design and manufacturing processes of products and ensure that products are user-friendly, aesthetic and functional. These graduates can usually work in areas such as product design and development, industrial design consultancy, improvement of manufacturing processes and similar areas.

The Industrial Design Engineering undergraduate program aims to provide students with a broad set of knowledge and skills in the fundamental principles of industrial design, product design processes, and product development. Industrial Design Engineering undergraduate program profile:

Basic Science and Engineering Courses: The program provides students with fundamental knowledge in mathematics, physics, chemistry, and engineering sciences.

Industrial Design Fundamentals: The program teaches students the fundamental principles of product design, aesthetic evaluation, and functional design.

Materials Science: Students learn about the properties, areas of use, and limitations of different materials. Material selection plays a critical role in product design.

CAD (Computer Aided Design): Students learn to create and model their designs using computer-based design software. This speeds up and visualizes the design process.

Product Development Process: The program covers the product development process, including all steps from product design to prototyping to manufacturing.

Human-Machine Interaction: Industrial design engineers develop their ability to understand how users will use products and create user-friendly designs.

Project Management and Collaboration: Students gain the skills to effectively manage design projects, collaborate, and work as a team.

Aesthetics and Art: The program encourages designers to develop their sense of aesthetics and make their products visually appealing.

Sustainability: Industrial design engineers gain knowledge in sustainable product design and material selection, and work to minimize environmental impacts.

Internships and Project Work: The program offers students the opportunity to intern in industry and work on real-world projects.

The Industrial Design Engineering undergraduate program provides students with creative and technical skills, while helping them understand the design process to improve the functionality, aesthetics, and usability of products. Graduates from this program may have a range of career opportunities, including product design, product development, consulting, or establishing their own design studios.

The basic competencies that a student graduating from the Industrial Design Engineering undergraduate program should gain are;

Basic Engineering Knowledge: Industrial Design Engineering students must have basic engineering knowledge. They must develop knowledge and skills in mathematics, physics, chemistry and other basic engineering sciences.

Manufacturing and Materials Knowledge: It is important to understand the properties and processing methods of materials used in the design of products.

Visual Communication: Industrial designers must be able to effectively communicate their ideas and designs. They must have drawing skills, prototyping skills and other visual communication tools.

Product Design: The ability to design products in terms of aesthetics and ergonomics. The ability to understand user needs and develop products that meet these needs.

Technical Knowledge: The ability to use technical tools such as CAD (Computer Aided Design), CAE (Computer Aided Engineering Analysis), CAM (Computer Aided Manufacturing).

Project Management: The ability to effectively plan, manage and follow up on large projects.

Sustainability: The ability to direct design processes in accordance with sustainability principles.

Teamwork: Industrial design projects are often carried out with multidisciplinary teams, so the ability to work effectively in a team.

Marketing and Consumer Research: The ability to conduct research on the target audience and market of products.

Ethics and Professional Responsibility: The ability to comply with professional ethics and standards.

These competencies are based on the general objectives of the Industrial Design Engineering undergraduate program and are necessary to ensure that graduates can successfully carry out design projects and have a successful career in industrial design. Program details and competencies may vary depending on the undergraduate program's curriculum and institutional goals.

Graduates of the Industrial Design Engineering undergraduate program have a wide employment potential in various sectors. Industrial Design Engineers work by combining design and engineering principles to improve the appearance, functionality and usability of products. Here are some areas where graduates of the Industrial Design Engineering undergraduate program can work:

Product Design: Industrial design engineers can work in the design of various products (electronic devices, furniture, home appliances, automobile parts, etc.).

Automotive Sector: They can work in automobile design and part design.

Electronics and Technology Sector: They can work in the design and user experience development of mobile devices, computers, tablets and other electronic products.

Furniture Design: They can work in furniture design and production in furniture companies.

Consumer Products: They can work in the design of food processing equipment, toys, sports equipment and other consumer products.

Medical Devices: They can work in the design and development of medical devices and equipment in the medical industry.

Packaging Design: They can work on the aesthetic and functional design of product packaging.

Interior Design: They can work in the design of furniture, lighting and decoration in interior spaces.

Consulting and Freelancing: They can establish their own design firms or provide consultancy on industrial design issues.

Research and Development (R&D): They can work in R&D departments to design and develop new products.

Industrial Design Engineers can contribute to making products more functional, attractive and sustainable with their creative thinking skills, technical skills and user-focused approaches. Employment opportunities may vary by country and region, but graduates who have received training in this field are generally a sought-after talent pool.

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.