Introduction to Mechatronics Engineering

Mechatronics engineering is a combination of interdisciplinary disciplines covering the common goals of mechanical engineering, electrical engineering, control engineering, computer engineering and molecular engineering. The goal of mechatronics is to achieve simpler, cheaper, easier, and more flexible systems.

Today, systems technology science is required to design many complex systems that include different subsystems and different disciplines. For example, designing a satellite as a space system requires various branches of engineering, including aerospace, electricity, computers, mechanics, materials, and so on. Systems engineering knowledge, by creating connections between different branches and macro-management of such complex projects, leads to the efficient advancement of large projects. Mechatronics engineering represents indeed an application of system engineering in electromechanical systems.

Mechatronics engineering comprises a combination of mechanical, electronic, computer and control engineering. This field seeks to bear an integrated look at systems consisting of mechanical, electronic, control and software components. The goal of mechatronics is to produce and use internal communication between engineering disciplines related to automation and automation, to serve as an indicator of advanced control in hybrid systems.

Mechatronics is used in significant and attractive fields such as automation, robotics, machine vision, medical engineering, service and instrumentation systems, control and measurement systems, automotive engineering, computer-aided machine control, expert systems, aerospace, etc. The purpose of applying the mechatronics model in engineering is to create synergies in the quality of products and technologies developed. Due to the increasing need of the industry to hire skilled workers in mechatronic engineering, manpower training in this field has become more important than ever. The important point in mechatronics education is a mechatronics engineer must have interdisciplinary specializations, which means that mastering the basic principles of mechanical, electronic, computer and control engineering is essential for him because he must be able to design in various fields. And at long last allow the integration of these areas. Currently, in a significant number of schools of electrical and mechanical engineering in the world, the mechatronics trend is established at the undergraduate and more senior levels.