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Mechatronics engineering, also called mechatronics, is an interdisciplinary branch of engineering that focuses on the integration of mechanical engineering, electrical engineering, electronic engineering and software engineering, [1] and also includes a combination of robotics, computer science, telecommunications, systems, control, automation and product engineering.
It builds upon the integrative approach of mechatronics, but not with the aim of only improving the functionality of a machine. Mechatronics is the multidisciplinary field of science and engineering that merges mechanics, electronics, control theory, and computer science to improve and optimize product design and manufacturing.
Model-based design (MBD) is a mathematical and visual method of addressing problems associated with designing complex control, [1] signal processing [2] and communication systems. It is used in many motion control , industrial equipment, aerospace , and automotive applications.
Electronic systems design is the subject within electrical engineering that deals with the multi-disciplinary design issues of complex electrical and mechanical systems. [ 86 ] The term mechatronics is typically used to refer to macroscopic systems but futurists have predicted the emergence of very small electromechanical devices.
Reynaerts D, Van Brussel H, Design aspects of shape memory actuators, MECHATRONICS, 8(6), pp. 635–656, 1998. De Fonseca P, Sas P, Van Brussel H, A comparative study of methods for optimising sensor and actuator locations in active control applications, JOURNAL OF SOUND AND VIBRATION, 221(4), pp. 651–679, 1999.
Bio-mechatronics is a rapidly growing field but as of now there are very few labs which conduct research. The Shirley Ryan AbilityLab (formerly the Rehabilitation Institute of Chicago), University of California at Berkeley, MIT, Stanford University, and University of Twente in the Netherlands are the researching leaders in bio-mechatronics ...
Design and control of an exoskeleton for the elderly and patients. IEEE/ASME Transactions on mechatronics, 11(4), 428–432. Kong, K., Bae, J., & Tomizuka, M. (2009). Control of rotary series elastic actuator for ideal force-mode actuation in human–robot interaction applications. IEEE/ASME transactions on mechatronics, 14(1), 105–118.
The Mecatron Projects and Consulting Junior is the Junior Enterpriseof course control engineering and automation (mechatronics) at UNICAMP. Formed only by undergraduates, the Mecatron carries out projects in the field of control and automation affordable, helping the development of micro and small enterprises in the region. [11]