Mechatronic engineers require at least a Bachelor’s degree, whereby most of these professionals have completed undergraduate studies in mechanical engineering. The field, though, transcends this traditional discipline into a variety of fields of study such as electronics, decision-making theories, and information technology, among others. With a Master’s degree in mechatronic engineering, an individual has the credentials to assume management and more advanced research posts. Graduate programs often feature traditional classroom instruction with practical industry experience. Coursework traditionally explores practices in automation theory, methodology, and analysis. An example mechatronic engineering class at the Massachusetts Institute of Technology (MIT), for example, instructs the design of mechatronic systems which integrate mechanical, electrical, and control systems engineering. For those seeking a less rigorous option of entering the field, an associate's degree in mechatronics can be attained at a community college or technical institution. These 2-year degree programs equip candidates with the skills to assume entry-level positions, whereby they troubleshoot maintenance processes. Classroom instruction typically entails course work in robotic design as well as training in engineering drawing.
Students of mechatronics have gone on to develop many of the “smart” devices that have transformed a medley of industries around the world. From robots and anti-lock brakes to photocopiers and computer drives, mechatronics professionals are changing the way people work and live, according to the American Society of Mechanical Engineers (ASME). The technology is also found in humidity-sensitive clothes dryers and windshield wipers as well as in healthcare, agriculture, construction, entertainment, automobiles, and tools for the disabled and elderly communities. These technological innovations reflect the dedication these professionals have to become life-long learners. With a bevy of associations, professional organizations, societies, and resources like the American Society for Engineering Education (ASEE), the Technology Student Association (TSA), and the National Society of Professional Engineers (NSPE), among others, students and seasoned professionals have seamless access to the knowledge and resources necessary to bolster their education and skills as the industry evolves over time. Organizations such as these also provide mentoring and networking opportunities that have the potential to enhance the prowess of an individual seeking transformative career opportunities and guidance as well as for institutions seeking to attract and nurture talent to their efforts. In addition, esteemed institutions such as MIT offer free online course programs for students and professionals through its Open Course Ware initiative.
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