Students in a robotics program develop advanced theoretical knowledge in the fundamental areas of actuation, sensing and computation. Theoretical concepts are used in practical applications, where students spend time in laboratory settings building robots. Top programs require internships and participation in robotic competitions.
Basic prerequisites include a high school diploma or equivalent. However, many programs are competitive; robotics programs often require substantial financial backing, and accepted students must possess diverse skill sets. Applicants might also need to submit standardized test scores, letters of recommendation, a personal statement and a portfolio of work.
Bachelor's Degree in Robotics
Formal coursework in this bachelor's degree program is combined with extended time spent in a laboratory setting in order to provide an applied education. In addition to specialized robotics topics, students also take advanced mathematics courses. Programs often culminate in capstone seminars involving a large-scale robotics project. A few classes that might appear in the curriculum include:
- Introduction to robotics
- Differential equations
- Industrial robotics
- Applied physics
- Unified robotics
- Mechanical movement
Employment Outlook and Salary Information
Graduates of bachelor's degree programs in robotics commonly find work as industrial, mechanical or robotics engineers. The U.S. Bureau of Labor Statistics (BLS) reports that employment of mechanical engineers was predicted to grow by 5% between 2014 and 2024, and the expected increase for industrial engineers was 1% (www.bls.gov). In 2015, the annual median salary for mechanical engineers was $83,590 and $83,470 for industrial engineers.
Master's degrees in robotics are available to interested students who have already earned a bachelor's degree. These programs typically take 1-2 years to complete. A research-based thesis or final presentation is often required in order to graduate.
Bachelor's degree programs in robotics combine in-class coursework and practical applications. Students complete robotics courses as well as advanced math and physics classes to prepare for careers in industrial, mechanical or robotics engineering.