The term Mechatronics is used to denote a very wide and complex geometrical field, which combines mechanical engineering, electrical engineering, computer engineering and electronics engineering and develops amazingly from day to day. This field of engineering The design of any product involves the integration of mechanical and electronic systems, in which the coordinator acts as a control system.

the description
The Mechatronics engineer consolidates the principles of mechanics, electronics and computing to create a simpler, more economical and reliable system. Mechatronics is concentrated in mechanics and electronics, computing, control engineering, molecular engineering (nanochemistry and biology), and photovoltaic engineering, side by side, and it is possible to generate the simplest, most economical and versatile systems. A "mechatronic" travel bag formulated by Mori Tetsuro, and senior engineers from Japanese company Yaskawa in 1969. The industrial robot is a shining example of the mechatronics system, but includes aspects of electronics, mechanics, computing and day-to-day job opportunities.

The science of automatic control of geometry deals with the mechanics of mechatronics control. They are used to monitor or regulate such a system. Through collaboration, Mechatronics units implement production targets and flexible manufacturing inherit the characteristics and flexibility of the production system. Modern production equipment consists of mechatronics units which are integrated according to the control structure. The most famous control structures include: hierarchy control, multithreaded control, HTTP structure control and hybrid control. Techniques for technical efficiency can be described as control algorithms, which can be used as methodological or other methods to design these algorithms.

The importance of hybrid systems for mechatronics includes: production systems, hybrid power engines, space exploration robots, automotive sub-systems such as anti-lock braking systems, rotary aids, and daily equipment such as automatic lens settings for cameras, camcorders, hard drives and CD players.

Scientific content
Mechatronics students study subjects from different scientific fields and include the following areas:

electrical engineering
Mechanical engineering
Materials Science
Electronic Engineering
Computer Engineering
computer science
Engineering Control Systems
Optical Engineering
Science Robotics
Objectives of specialization
Graduating engineers with solid knowledge of integrated and multi-axial design methods in mechanical, electrical, control and computer engineering.
Graduates capable of scientific research, product design, intelligent machines and integrated production methods.
Graduation of individuals capable of professional interaction and effective engagement with a multidisciplinary task force to solve complex, multidimensional problems.
Graduates are able to self-learn and develop themselves as professional and ethical commitment to society.
Consolidate the partnership between the Department of Mechanical Engineering and Industry to solve industrial problems and find solutions to the needs of local and future industry.
Fields of work of graduates
Plant management, production lines, maintenance of industrial machinery and quality management.
Design of machines within an engineering office or in the production sector.
Design and supervise the implementation of mechanical systems.
Turkish Universities in the field of Mechatronics Engineering
Istanbul Istanbul University
University of Sabanga
Izmir Economic University
Istanbul Gulishim University
Istanbul Commercial University
University of Okan
University of Ischik
University of Gedek