At Mason Engineering, our students teach robots how to move and sense their surroundings, and use teamwork to accomplish tasks.
Making this happen requires knowledge of mechanical engineering, with the building of the body and movement; bioengineering, with vision and sensing; and computer engineering and computer science for processing, control, and learning. Robots will go where people can't, inspecting bridges, venturing into faltering nuclear power plants, and exploring space. Be part of a robotics and artificial intelligence team that builds the next step in human technology.
See the university catalog for courses that students who are interested in robotics can take.
Educational Programs Related to Robotics
Educational programs to improve robot intelligence and autonomy, especially in multi-agent systems, are one of the hallmarks of Volgenau. Students use computer science applications to program robots; electrical and computer engineering students use their skills to operate them; and mechanical engineers construct better and smarter robots.
Bioengineering, also referred to as biomedical engineering, is the application of engineering tools and approaches to solve problems in biology and medicine. It is a broad and growing field that draws upon rapid advances in technology and computation, as well as on unprecedented growth in basic biological understanding.
Computer Science is the discipline concerned with the design, implementation, and maintenance of the computer software systems used in almost all other professions. Computer scientists must be well-grounded in the technologies needed for the acquisition, representation, storage, transmission, transformation, and use of information in digital form and must be capable of working closely with members of other professions associated with computing.
Electrical engineers design and build the equipment that most of us take for granted—computers, cell phones, televisions, rockets, satellites, communications and computer networks, mobile radios, environmental control systems, robots, weapons, and cars, to name a few. Electrical engineering is the foundation on which computer engineering and computer science rest. Students in this program learn the fundamentals of electrical engineering and then choose a focus in one of the major fields of electronics—communications, networks and signal processing, computer engineering, or controls and robots.
The Master of Science in computer science offers students the opportunity to combine a sound foundation in computer science with concentrated knowledge in the latest developments in particular areas. Our faculty have expertise in many areas of computer science, including algorithms and theory, artificial intelligence, computer gaming, computer networks, databases, data mining, graphics, image and video processing, information security and assurance, information systems, knowledge engineering, pattern recognition, programming languages, real- time systems, robotics, software engineering, and vision.
The Department of Electrical and Computer Engineering offers an MS in electrical engineering with specializations in: bioengineering, communications and networking, signal processing, control and robotics, microelectronics/nanoelectronics, and system architectures. Graduate students are offered a progressive environment with ample opportunities for the type of advanced research needed to confront the complex realities of the 21st century.
The doctoral program in bioengineering is designed to prepare future leaders in bioengineering. Rapid advances in understanding the molecular bases of disease have opened up new opportunities to advance human health through research that integrates knowledge in modern biology, engineering, physics, and computer science. The doctoral program will prepare leaders in bioengineering in this broader, integrative sense of the discipline. A major distinguishing feature of the curriculum is that it is designed to educate leaders who understand and appreciate how biomedical technology is translated from the bench to the bedside.
The Computer Science Department offers the PhD in computer science and participates in the PhD in Information Technology. The latter has concentrations in information systems, information security and assurance, and software engineering. Students work closely with a faculty mentor, performing original research, and tackling challenging and unsolved problems.
The PhD program in electrical and computer engineering educates students to do original research on ECE topics and become technical leaders in their fields. Students may choose research areas such as communications, networking, computer engineering, control and robotics, signal processing, micro/nano-electronics, and bioengineering. With a strong and growing department reputation for excellence, graduates have become professors at other universities and researchers in industrial and government research centers.
RoboPatriots Going for New Goals
Since 2008, our RoboPatriots have sent a team to the Robotics World Cup; an international challenge environment that propels advances in robotic controls, articulation, and program engineering by assigning simulated physical tasks from soccer.
More than just moving, kicking and dodging under remote control, the robot dubbed "Johnny 5" was the first robot in the history of the competition to "learn" soccer skills on the field in the midst of play.
This presence and flexibility of reasoning and learning in robotics is a frontier of artificial intelligence. Mason has staked our flag on the far horizon of this field with the establishment of the Autonomous Robotics Laboratory. There, our engineers design behaviors, programs and practical applications for future generations of task automation.
Where Teamwork Really Counts
George Mason University has actively supported FIRST robotics competitive teams and leagues throughout the area. The program invites young students to engage with computer science and engineering in a fun and imaginative team environment.