Graduate
Unmanned Systems

Graduate Unmanned Systems

Embry-Riddle’s M.S. in Unmanned Systems is a non-engineering degree that focuses on this emerging industry by addressing topics including policy design, ethics, and systems management. You will gain knowledge in many areas that contribute to the successful operation of missions supported by unmanned systems along a spectrum of autonomy — from remote-controlled to human-supervised to fully autonomous.

Aeronautics and Design, Human Factors, Space Systems, Safety/Emergency Response, Operations, Education, Aviation/Aerospace Management, and Aviation/Aerospace Research are the concentrations from which you will choose.

Each curriculum is designed to provide the necessary expertise to place you in a challenging and fulfilling position.

DEGREE
DETAILS
Prescott Campus

Prescott, AZ, Campus

Associate

Bachelor’s

Master’s

Ph.D.

Daytona Beach Campus

Daytona Beach, FL, Campus

Associate

Bachelor’s

Master’s

Ph.D.

Worldwide Campus

Worldwide Campus

Associate

Bachelor’s

Master’s

Master of Science in Unmanned Systems

Take the next step toward your M.S. in Unmanned Systems through Embry-Riddle’s Worldwide Campus. This program is offered at an expanding number of locations. Use the "Find a Location" feature on the Worldwide homepage to locate one in your area.

Ph.D.


Are you looking for an undergraduate degree in this field?

ERAU
ADVANTAGE

Embry-Riddle has been a pioneering institution in the field of unmanned and robotics education, and its Master of Science in Unmanned Systems degree provides students with an education focused on the application, development, and management of unmanned systems, policies and regulations, and related technology necessary to support the growing and dynamic needs of the industry.

This program supports the growth, innovative development, and effective use of unmanned system technology across the respective domains (air, space, ground, and maritime) to address major challenges within the industry, including interoperability, autonomy, airspace integration, communications, education and training, propulsion and power, teaming, and regulation.

To accomplish these educational goals, ERAU provides an interactive learning environment to acquire and apply knowledge, work in independent and team settings, communicate across a geographically and experientially diverse population, and assume leadership roles, which represent the fundamental skills necessary to establish or advance a successful career in today’s competitive and collaborative working environment.

Ground crewmen prepare the Ikhana research aircraft for flight.

CAREERS

According to a study by the Association for Unmanned Vehicle Systems International, more than 100,000 unmanned aerial systems jobs are projected by 2025. Degree holders work in a number of industries including military, government, energy, transportation, telecommunications and even entertainment.

Unmanned Systems graduates are in-demand candidates for careers in the following professions and with the following industry leaders:

SPOTLIGHTS