Top Robotics Degree Programs by State: Navigate Your Education Options

Interested in pursuing a career in robotics and wondering where to start? The search for robotics degree programs by state can be daunting, and you likely have a clear question in mind: What are the best robotics degree programs available in my state? This article will provide you with an informative state-by-state breakdown of robotics degree programs, comparing programs based on criteria like research performance and degree-specific rankings. Find out which universities align with your academic and career goals, all without wading through piles of data. Get ready to embark on a journey towards finding the right robotics degree program for you, in your state.

Key Takeaways

  • The state-by-state guide to robotics degree programs provides rankings based on research performance, degree-level rankings, and number of degrees awarded to help students find programs that align with their interests and offers a comparison tool like College Combat.

  • Robotics degree programs vary by region in the United States, with prestigious institutions offering specialized tracks, hands-on research opportunities, and interdisciplinary studies in robotics engineering across undergraduate, master’s, and doctoral levels.

  • When selecting a robotics program, students should consider factors such as the geographical location, campus facilities, faculty expertise, research focus, and interdisciplinary opportunities to ensure alignment with personal interests and career aspirations.

State-by-State Guide to Robotics Degree Programs

Map of the United States with highlighted regions for robotics degree programs

The process of selecting an appropriate college and degree might feel overwhelming. A useful tool to simplify this process could be a state-by-state guide such as the one we are about to present. This guide aims to assist students in sifting through the numerous options and making decisions that align with their personal and professional aspirations. Whether you’re interested in human-robot interaction or robotics within the biomedical field, this guide has got you covered.

The rankings we present are not chosen at random. They are determined based on robust criteria such as research performance in Robotics, combined degree-level rankings, and the number of degrees awarded at each level. This comprehensive approach ensures that the rankings are reflective of the quality and breadth of the robotics programs offered by each institution.

This guide is not just a list of institutions and rankings. It’s a tool that will help you:

  • Identify schools that offer the degree level and focus area that align with your interests

  • Whether you’re considering an undergraduate or a graduate program, this guide will provide you with a clear direction

  • Tools such as College Combat can be used to evaluate colleges based on specific criteria, helping you to narrow down your options and make an informed decision.

While guides like this are extremely beneficial, it’s always recommended to cross-check the information you gather. Always double-check with the university website to confirm details about awarded degrees and robotics courses. Understanding the methodology behind the rankings will also give you a clearer picture of what the rankings represent.

Northeast Region

The Northeast region of the United States is home to some of the most prestigious universities offering outstanding robotics programs. The Massachusetts Institute of Technology (MIT), for example, offers a comprehensive robotics engineering program that spans from Bachelor of Science to doctoral studies. The program at MIT is structured to provide students with a strong foundation in the field, while also offering opportunities for advanced study and research.

Another renowned institution in the Northeast is Carnegie Mellon University. Offering a range of degree options from minors to PhDs in robotics, Carnegie Mellon’s program is designed to cater to a variety of student needs and interests. The undergraduate program encompasses essential subjects like robotics principles, perception, and manipulation, along with specialized tracks in areas such as Human-Robot Interactions and intelligent robotics. Moreover, students at Carnegie Mellon’s Robotics Institute have the opportunity to gain practical experience by participating in advanced research labs and centers. Graduates of the program have secured research positions with esteemed organizations like NASA and Google, while others have continued their studies in doctoral programs. The acceptance rates for these prestigious institutions are competitive, making admission a notable achievement.

Midwest Region

The Midwest region also prides itself in housing numerous esteemed institutions that provide exemplary robotics engineering programs. One such institution is the University of Michigan – Ann Arbor, which has made significant contributions to the field of robotics. The university’s robotics program is designed to provide students with an in-depth understanding of the complexities of robotics engineering while equipping them with the necessary skills to excel in the field.

The program at the University of Michigan – Ann Arbor offers a unique blend of theoretical and practical learning experiences. Students are exposed to advanced coursework and research opportunities that are instrumental in their academic and professional growth. The program’s curriculum is comprehensive, covering key areas such as:

  • Robot mechanics

  • Dynamics

  • Control systems

  • Autonomous robotics

Graduates of the program are well-positioned to pursue careers in a variety of fields including manufacturing, automation, and aerospace.

South Region

Institutions like the Georgia Institute of Technology and the University of Florida, located in the South, are known for their strong robotics programs. Georgia Institute of Technology offers a professional Master of Science in Robotics program designed to equip engineers for industry roles, as well as a PhD in Robotics for those who wish to delve deeper into the research aspects of the field. The institution emphasizes the contributions of its accomplished researchers to the robotics sector through various outreach activities.

The University of Florida offers degree programs in a diverse range of areas including:

  • Aerospace Systems

  • Autonomous Systems

  • Biomechanics & Biofluids

  • Cellular Mechanics

  • Computational Science

  • Design

  • Dynamics and Controls

This diversity allows students to tailor their education to their interests and career goals, making the University of Florida a popular choice for students interested in robotics engineering.

West Region

Moving to the West, Stanford University and the California Institute of Technology stand out for their exceptional robotics programs. Stanford University offers a comprehensive robotics track within its undergraduate and graduate programs. The curriculum encompasses essential subjects such as mechanics, dynamics, and control systems, along with specialized courses in robotics, computer vision, and machine learning. This blend of foundational and advanced coursework ensures that students gain a well-rounded understanding of the field.

Practical learning opportunities are a key component of Stanford’s program. Students have the chance to participate in research projects at centers such as the Stanford Robotics Lab and Artificial Intelligence Laboratory, working alongside faculty and industry partners on innovative robotics projects. This hands-on experience, combined with rigorous academic training, equips students with the skills and knowledge needed to excel in the rapidly evolving field of robotics engineering.

Exploring Different Robotics Degrees

Diverse group of students collaborating on robotics project

There are multiple degree options available in the field of robotics engineering. Whether you’re just starting your journey in the field or looking to deepen your expertise, there’s a degree program that’s right for you. From bachelor’s to doctoral programs, each level of education offers unique opportunities for learning and growth.

A typical Bachelor’s Degree program in Robotics Engineering comprises basic courses in science, mathematics, humanities, and communication skills. It also offers specialized courses covering topics such as robot sensors and signals, control, movement, systems engineering, and cognition. These programs prepare students for advanced studies in related fields like computer science, computer engineering, electrical engineering, and mechanical engineering.

Contrastingly, a Doctoral Degree in Robotics Engineering extends beyond the fundamentals, concentrating on advanced research and innovation in the field. The average duration for completing a doctoral degree is approximately five to six years, providing ample time for in-depth study and research.

Bachelor’s Degree in Robotics Engineering

Entering the field of robotics engineering usually starts with a Bachelor’s degree. This foundational program covers a wide range of subjects, providing students with a comprehensive understanding of the field. The curriculum generally comprises fundamental engineering subjects like mechanics, dynamics, and control systems, in addition to specialized courses in robotics, computer vision, and machine learning. Furthermore, students have the option to delve deeper into their area of interest by enrolling in elective courses such as Models of Robotic Manipulation, Bio-Inspired Locomotion, Intro to Linear Dynamical Systems, Theory of Social Technology Networks, Game Theory, Applied GPU Programming, and Introduction to Robotics.

Besides theoretical knowledge, practical experience is a crucial part of a Bachelor’s degree program in Robotics Engineering. Institutions like MIT offer significant practical learning experiences, enabling students to engage in real-world robotics projects within cutting-edge research facilities and centers. This hands-on experience not only reinforces theoretical learning but also equips students with essential skills, preparing them for a successful career in robotics engineering.

Master’s Degree in Robotics Engineering

A Master’s degree program provides an opportunity for those wishing to extend their education in robotics engineering to deepen their understanding of the field. Master’s programs typically focus on advanced coursework and research opportunities, enabling students to specialize in their area of interest. For example, the interdisciplinary program at the Technical University of Munich integrates robotics, computer science, and artificial intelligence, offering advanced coursework that emphasizes the integration of these fields.

Research is a key component of a Master’s degree program in Robotics Engineering. Students have the opportunity to participate in research activities at different facilities and laboratories. This hands-on research experience not only enhances learning but also prepares students for potential doctoral studies or research-oriented careers.

Doctoral Degree in Robotics Engineering

A Doctoral Degree represents the highest level of academic achievement in Robotics Engineering. Candidates for this degree typically require a Bachelor’s degree from an accredited institution, GRE scores, letters of recommendation, and often a Master’s degree in a related field. The doctoral coursework entails the completion of 36 semester hours with a letter grade, covering computer science, electrical and computer engineering, mathematics, and mechanical engineering, in addition to a research qualifier and a thesis.

Doctoral programs in robotics are primarily focused on:

  • Educating and preparing students to become world-class researchers in the field of robotics

  • Conducting research on diverse aspects of robotics

  • Propelling students into academic and research-oriented careers

  • Making significant contributions to the field of robotics engineering

This focus on research and innovation is what sets doctoral programs apart and makes them an excellent choice for those seeking to advance their knowledge and expertise in robotics.

Top Online Robotics Degree Programs

With the rise of the digital era, online education has gained popularity. Online degree programs offer flexibility and convenience, making them an attractive option for many students. In the field of robotics engineering, there are several online degree programs that offer high-quality education. These programs are designed to provide students with the same rigorous curriculum as traditional in-person programs, but with the added benefit of being able to study from anywhere in the world.

Several leading online Bachelor’s degree programs in Robotics Engineering are offered by institutions like the largest university of applied sciences in Germany and Grand Canyon University. These programs offer a comprehensive curriculum that covers the key areas of robotics engineering, providing students with a solid foundation in the field. Moreover, online degree programs offer a flexible schedule, allowing students to balance their studies with other commitments.

Online Bachelor’s Programs

Online Bachelor’s programs in Robotics Engineering offer a degree path that is flexible and easily accessible. The course structure of these programs is designed to accommodate the needs of diverse learners, allowing students to study at their own pace. Despite being online, these programs offer a comprehensive curriculum that covers essential topics like:

  • Robotics design

  • Modeling

  • Control systems

  • Autonomous robotics

  • Machine learning

Accreditation is an important factor to consider when looking at online Bachelor’s programs. Institutions like the IU BEng in Robotics and the Grand Canyon University’s Bachelor’s degree in Robotics Engineering are both accredited and well-regarded in the field. These programs not only provide a strong academic foundation but also offer practical learning opportunities, ensuring that students gain both theoretical knowledge and hands-on experience in the field of robotics engineering.

Online Master’s Programs

Online Master’s degree programs in Robotics Engineering provide a distinctive combination of advanced coursework and opportunities for research. These programs are designed to deepen students’ understanding of the field and equip them with the skills needed to excel in advanced roles in robotics engineering. The curriculum of an online Master’s program includes a wide array of subjects such as:

  • robotic manipulation

  • voice recognition

  • biomechanics

  • design

  • modeling

  • control systems

  • autonomous robotics

  • machine learning

  • computer vision

Renowned institutions such as Johns Hopkins Engineering for Professionals and the University of Cincinnati offer top online Master’s programs in robotics engineering. These programs not only offer advanced coursework but also provide students with opportunities to engage in cutting-edge research. The flexibility and convenience of online learning, combined with the rigorous academic training provided by these programs, make them an excellent choice for professionals looking to advance their careers in robotics engineering.

Factors to Consider When Choosing a Robotics Program

The selection of an appropriate robotics program is a significant step in your educational path. There are several factors to consider when making this decision. While the reputation of the program and the university are important, there are other factors that can significantly impact your learning experience and future career prospects.

Considerations for choosing a university for robotics engineering include:

  • Geographical location and access to a thriving tech industry

  • Campus amenities

  • Faculty expertise and main research areas

  • Opportunities for interdisciplinary studies

Each of these factors plays a unique role in shaping your education and career in robotics engineering. For instance, the location of the university can provide access to a thriving tech industry, offering enhanced research and job opportunities. Similarly, the expertise of the faculty and their research focus can shape the curriculum and provide unique learning opportunities. Lastly, interdisciplinary opportunities can broaden your skill set and open up new avenues for career growth.

Location and Campus Facilities

State-of-the-art robotics laboratory with advanced equipment

The geographical location of a university and the quality of its campus facilities can greatly influence your educational journey. Access to state-of-the-art facilities and resources can enrich your learning experience, providing you with hands-on training and fostering an environment of innovation and collaboration. If you’re considering a program that emphasizes practical experience, having access to:

  • advanced robotics labs

  • cutting-edge research facilities

  • well-equipped libraries

  • modern classrooms

  • specialized equipment

is crucial.

In addition to the physical resources, the geographical location of the university can also play a role in your education and career prospects. Universities located in areas with a thriving tech industry can provide enhanced opportunities for internships, research collaborations, and job placements. Therefore, when choosing a robotics program, it’s important to consider not just the quality of the program but also the location and facilities of the university.

Faculty Expertise and Research Focus

When choosing a robotics program, the expertise of faculty and the main focus of their research is another essential factor to take into account. The qualifications and expertise of the faculty can greatly influence the quality of education you receive. Faculty members with extensive experience and research credentials in the field of robotics can provide valuable insights and mentorship, enhancing your learning experience.

It’s also important to consider the research focus of the program. Research is a key component of any robotics program, and the specific areas of research pursued by the faculty can shape the coursework and learning opportunities available to you. Whether you’re interested in robotics and intelligent systems, humanoid robotics, or ensuring safe and secure autonomous systems, the research focus of the program can help align your education with your personal interests and career goals.

Interdisciplinary Opportunities

Robotics is a fundamentally interdisciplinary field, merging knowledge from diverse domains like:

  • mechanical engineering

  • electrical engineering

  • computer science

  • artificial intelligence

  • cognitive science

  • bioengineering

Therefore, programs that offer interdisciplinary research opportunities can provide a more comprehensive understanding of the field, fostering innovation and enhancing your skill set.

For instance, the Robotics program at Carnegie Mellon University and the Robotics graduate program at Colorado School of Mines place emphasis on the integration of various disciplines pertinent to robotics. This broader perspective not only enhances your understanding of the field but also equips you with a diverse skill set, preparing you for a variety of roles in the rapidly evolving field of robotics engineering.

Career Prospects for Robotics Engineering Graduates

Robotics engineer working on a futuristic robotic arm

A degree in robotics engineering paves the way to a wide array of career possibilities. Here are some examples:

  • Robotics Engineer: designing and building robots

  • Automation Engineer: implementing automated systems

  • Robotics Researcher: contributing to the advancement of the field

A degree in robotics engineering can pave the way to a rewarding career for robotics engineers in biomedical engineering, as well as other exciting fields.

The job market for robotics professionals is robust, with an estimated growth rate of 10% in robotics positions. Furthermore, in the 2020-2021 academic year, colleges and universities awarded 1,243 degrees in robotics engineering, indicating a growing demand for expertise in this field.

Robotics Engineer

Working as a Robotics Engineer, you will get the chance to design and develop robotic equipment, engage in sophisticated research, and contribute to the development of innovative robotic technologies. You’ll also be responsible for testing, troubleshooting, and analyzing data to improve robot performance. This role requires a solid understanding of math and science, proficiency in programming, and strong critical thinking abilities.

In addition to these skills, a Robotics Engineer must be proficient in using various tools and software. This includes:

  • ROS tools such as RVIZ and Gazebo

  • Path planning software

  • Mechanical and electronic tools

  • Design software such as SolidWorks

  • Robotic middleware

  • Simulation software

  • Various other robotics tools

In the development process, you may engage with these tools to enhance your work.

Automation Engineer

Automation Engineers hold a significant role within the field of robotics. They are responsible for designing, testing, modifying, fabricating, and assembling manufacturing tools and electromechanical systems that incorporate automated components such as collaborative robots, conveyors, vision systems, and programmable controllers. This role requires a comprehensive set of skills, including a strong mathematical and scientific aptitude, proficiency in programming, the ability to collaborate effectively within a team, creative problem-solving capabilities, and expertise in electric soldering.

Industries such as:

  • manufacturing

  • automotive

  • pharmaceuticals

  • aerospace

  • energy

  • technology

require the expertise of automation engineers to optimize their operations and improve overall efficiency. As an Automation Engineer, you’ll have the opportunity to contribute to these industries, making a significant impact on the way we live and work.

Robotics Researcher

If your interest lies in propelling the field of robotics forward through research and innovation, a career as a Robotics Researcher could be an ideal choice for you. Robotics Researchers conduct research to develop innovative methods and technologies, which support exploration, discovery, and the creation of robust, flexible robots. This role requires significant skills and knowledge in areas such as:

  • Mathematics

  • Science

  • Programming

  • Teamwork

  • Complex problem-solving

  • Creativity

  • Active learning

  • Problem-solving

  • Electric soldering

  • Critical thinking

As a Robotics Researcher, you’ll have the opportunity to participate in a wide range of research areas, including:

  • Robotics and intelligent systems

  • Chemical and biological engineering

  • Civil and environmental engineering

  • Computer science

  • Electrical engineering

  • Human-centered robotics

  • Manipulation and locomotion

  • Sensing and perception

  • Ensuring safe, secure, and resilient autonomous systems


In conclusion, pursuing a degree in Robotics Engineering presents a world of opportunities. From choosing the right program and university to deciding between an online or traditional classroom setting, the choice is yours. Regardless of the path you choose, a degree in robotics engineering can open doors to a rewarding career in a rapidly evolving field. Whether you aspire to be a Robotics Engineer, an Automation Engineer, or a Robotics Researcher, the journey to your dream career starts with the right education. So, take the first step today and embark on an exciting journey into the world of robotics engineering.

Frequently Asked Questions

What is the best degree for robotics?

A degree in computer science is the best choice for a career in robotics, providing a strong foundation in programming and software development.

Which college has best robotics program?

The best college for robotics is Carnegie Mellon University, known for its strong robotics program.

Which program is best for robotics?

Mechanical engineering is considered one of the best majors for students interested in robotics, as it combines principles of mechanics, electronics, and control systems, allowing engineers to design, build, and test robots effectively.

Is a bachelors in robotics worth it?

Yes, a bachelor’s in robotics is worth it as it offers a rewarding career with the opportunity to work on cutting-edge technology and be a part of a rapidly expanding field.

What are the career paths available for graduates with a degree in robotics engineering?

Graduates with a degree in robotics engineering can pursue careers in industries like electronics, manufacturing, defense, and service robotics, with roles including robotics engineer, automation engineer, and machine learning engineer available.

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