Robotics Engineering · District of Columbia
Robotics Engineering colleges in District of Columbia
CampusPin lists 8 U.S. colleges in District of Columbia that offer Robotics Engineering programs. Compare tuition, acceptance rate, and enrollment in the table below, every figure links back to the institution's official IPEDS data.
Robotics engineering blends mechanical, electrical, and computer engineering to build machines that sense, decide, and act through integrated control systems and embedded software.
Schools in District of Columbia that offer Robotics Engineering
George Washington University
Washington, DC · University · Private
Tuition
$64,990
Acceptance
44%
Enrollment
25,029
Howard University
Washington, DC · University · Private
Tuition
$33,344
Acceptance
35%
Enrollment
12,830
Institute of World Politics
Washington, DC · University · Private
Tuition
$30,953
Acceptance
65%
Enrollment
8,568
Pontifical John Paul II Institute for Studies on Marriage and Family
Washington, DC · University · Private
Tuition
$30,953
Acceptance
75%
Enrollment
7,082
Strayer University-District of Columbia
Washington, DC · University · Private
Tuition
$13,920
Acceptance
100%
Enrollment
352
Strayer University-Global Region
Washington, DC · University · Private
Tuition
$13,920
Acceptance
100%
Enrollment
12,776
The Catholic University of America
Washington, DC · University · Private
Tuition
$55,834
Acceptance
84%
Enrollment
5,095
University of the District of Columbia
Washington, DC · University · Public
Tuition
$6,152
Acceptance
100%
Enrollment
3,638
Robotics Engineering programs in District of Columbia: by the numbers
A quick comparison of the 8 schools listed above, drawn from each institution's published IPEDS data.
Schools listed
8
Public / private
1 / 7
Universities / 2-year
8 / 0
Cities represented
1
In-state tuition range
$6,152–$64,990
Median in-state tuition
$30,953
Lowest published in-state tuition
University of the District of Columbia
$6,152
Most selective
Howard University
35% acceptance
Largest by enrollment
George Washington University
25,029 students
Figures reflect the schools currently listed and each institution's most recent reported data. Verify current tuition and admissions details with the school before applying.
What you'll study in a Robotics Engineering program
- Mechatronics: integrating mechanical, electrical, and software subsystems into one machine
- Control systems, feedback loops, and the dynamics of motion
- Sensors, actuators, and signal conditioning for real-world perception and movement
- Embedded systems and microcontroller programming for real-time operation
- Kinematics, dynamics, and motion planning for robotic mechanisms
- Electronics, circuits, and power for electro-mechanical hardware
- Mathematics and physics that underpin modeling and analysis
- Computer-aided design, simulation, and prototype build-and-test workflows
- A capstone or project sequence that assembles a working autonomous or automated system
Where a Robotics Engineering degree can lead
- Robotics Engineer
- Mechatronics Engineer
- Automation Engineer
- Controls Engineer
- Embedded Systems Engineer
- Autonomous Systems Engineer
Typical pay: Early-career wages vary by employer, region, and experience (BLS, 2024 engineers, all other median $117,750).
A Robotics Engineering major, classified under Mechatronics, Robotics, and Automation Engineering, teaches you to apply mathematical and scientific principles to the design, development, and operational evaluation of computer-controlled electro-mechanical systems. The field centers on mechatronics and control: integrating mechanisms, electronics, sensors, actuators, control systems, and embedded software into machines that perceive their surroundings and respond. Rather than studying any one parent discipline in isolation, you work at their intersection, where motors, microcontrollers, and feedback loops must function together as one autonomous or automated system. This sets robotics apart from mechanical engineering, which emphasizes physical hardware and mechanics, from electrical engineering, which centers on circuits and power, and from computer engineering, which focuses on processors and digital logic. Robotics borrows from all three, yet its organizing question is how a machine can sense a changing environment and act on it reliably, accurately, and safely under real-world conditions.
The common entry credential is a bachelor's degree, often a Bachelor of Science in robotics or mechatronics engineering, which carries a heavy load of mathematics, physics, and hands-on laboratory and project work. Coursework typically pairs theory with build-and-test studios where you assemble sensor and actuator systems, program embedded controllers, and tune control loops on working prototypes. Graduates work in automation, manufacturing, autonomous vehicles, medical devices, aerospace, and research settings, designing and evaluating robotic and automated products with embedded electronics. Because robotics sits within engineering, some career paths and graduate study reward additional specialization in areas such as control theory, perception, or artificial intelligence. Engineering programs are commonly accredited by ABET, and many engineering careers lead toward Professional Engineer (PE) licensure, which requires an accredited degree, exams, and supervised experience, so verify a program's ABET status and your state's licensure path.
In federal data for the closely related occupation of engineers, all other, the U.S. Bureau of Labor Statistics reports a 2024 median wage of $117,750 and projects employment to grow about 2.1% from 2024 to 2034; a bachelor's degree is the typical entry-level education for that occupation. National figures are occupation-wide medians across all experience levels, not starting wages or graduate outcomes.
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