Robotics and Autonomous Systems (Mechanical and Aerospace Engineering), MS
AI, Aerospace, Artificial Intelligence, Autonomous Systems, Controls, Engineering, Mechanical, Robotics, approved for STEM-OPT extension
The mechanical and aerospace engineering concentration is one of the concentrations in the multidisciplinary MS program in robotics and autonomous systems. It emphasizes robotics, controls, autonomous systems, artificial intelligence and related fields.
This concentration is appropriate for students who wish to focus on applications in mechanical or aerospace engineering.
This program may be eligible for an Optional Practical Training extension for up to 36 months. This OPT work authorization term may help international students gain skills and experience in the U.S. Those interested in an OPT extension should review ASU degrees that qualify for the STEM-OPT extension at ASU's International Students and Scholars Center website.
The OPT extension only applies to students on an F-1 visa and does not apply to students completing the degree through ASU Online.
- College/school:
Ira A. Fulton Schools of Engineering
- Location: Tempe
Acceptance to the graduate program requires a separate application. Students typically receive approval to pursue the accelerated master’s during the junior year of their bachelor's degree program. Interested students can learn about eligibility requirements and how to apply.
30 credit hours and a portfolio, or
30 credit hours and a thesis, or
30 credit hours including the required applied project course (MAE 593)
Required Core (6 credit hours) Concentration (6 credit hours) Electives or Research (12-18 credit hours) Culminating Experience (0-6 credit hours) Additional Curriculum Information A defense is required for the thesis option. The applied project requires a written report and an oral presentation. The portfolio includes a poster presentation with content from courses taken in the program. Students must write a portfolio report that includes the highlights of the three projects. Students should see the academic unit for the approved concentration coursework as well as the available elective and research courses. Elective or research coursework must be selected from among the courses listed for the other three concentrations. Additional electives must be graduate courses in science, engineering, mathematics or others approved by the graduate program committee. Three credit hours of internship may be included among the electives.
EGR 501 Applied Linear Algebra for Engineers (3) or MAE 501 Linear Algebra in Engineering (3)
EGR 545 Robotic Systems I (3) or MAE 547 Modeling and Control of Robots (3) or RAS 545 Robotic Systems I (3)
MAE 593 Applied Project (3) or
MAE 599 Thesis (6) or
portfolio (0)
Students are required to select from one of the available concentrations and one of the approved culminating experiences for the concentration.
Applicants must fulfill the requirements of both the Graduate College and the Ira A. Fulton Schools of Engineering.
Applicants are eligible to apply to the program if they have earned a bachelor's or master's degree in engineering, science, mathematics or a related field from a regionally accredited institution.
Applicants must have a minimum cumulative GPA of 3.00 (scale is 4.00 = "A") in the last 60 hours of their first bachelor's degree program or a minimum cumulative GPA of 3.00 (scale is 4.00 = "A") in an applicable master's degree program.
All applicants must submit:
- graduate admission application and application fee
- official transcripts
- letter of intent or written statement
- professional resume
- proof of English proficiency
Additional Application Information
An applicant whose native language is not English must provide proof of English proficiency regardless of their current residency.
Session | Modality | Deadline | Type |
---|---|---|---|
Session A/C | In Person | 12/31 | Priority |
Session | Modality | Deadline | Type |
---|---|---|---|
Session A/C | In Person | 08/15 | Priority |
Robotics engineers are in high demand in various engineering specialty areas, such as manufacturing, mechanical, aerospace, biomedical-rehabilitation, autonomous vehicle and artificial intelligence engineering, among others. Skills in the design and control of robotic systems, artificial intelligence, machine learning and robot perception are valuable to consumer, automotive, aerospace and defense industries.
Career examples include:
- automation engineer
- machine learning and AI engineer
- robotics engineer
- systems engineer
School for Engineering of Matter,Transport & Enrgy
|
ECG 202
semtegrad@asu.edu
480-965-2335
3 year programs
These programs allow students to fast-track their studies after admission and earn a bachelor's degree in three years or fewer while participating in the same high-quality educational experience of a 4-year option. Students should talk to their academic advisor to get started.
Accelerated master's
These programs allow students to accelerate their studies to earn a bachelor's plus a master's degree in as few as five years (for some programs).
Each program has requirements students must meet to be eligible for consideration. Acceptance to the graduate program requires a separate application. Students typically receive approval to pursue the accelerated master’s during the junior year of their bachelor's degree program. Interested students can learn about eligibility requirements and how to apply.