Doctor of Philosophy in Systems Engineering
|Major Code:||9097||Degree Awarded:||Doctor of Philosophy|
|Delivery Mode(s):||Classroom||Location(s):||Main Campus - Melbourne|
|Admission Status:||Graduate||Age Restriction:||No|
The Ph.D. program in systems engineering is designed to provide advanced education and research opportunities to qualified students with master’s degrees. The program prepares students to conduct independent scholarly work, teach in academia or pursue advanced research careers in government, commercial or private sectors.
Applicants should have a master’s degree in systems engineering from an accredited institution, though applicants with degrees in other engineering disciplines, physical sciences, computer science or mathematics will also be considered. Applicants must have a graduate degree GPA of at least 3.5 on a 4.0 scale. International applicants must submit paper-based TOEFL scores of 550 (or the equivalent computer- or Internet-based scores) or higher in addition to the GPA requirement. All students are required to have a combined verbal/quantitative GRE score of 315 or higher (using the 130-170 point per part scoring system).
General admission requirements and the process for applying are presented in the Academic Overview section of the university catalog.
The program is ideally suited to applicants with a master’s degree in systems engineering and admissions preference will be given to these applicants. If an applicant does not have a master’s degree in systems engineering, five master’s-level core courses (or equivalents as determined by the department) are required to be successfully completed before beginning doctoral-level coursework, as follows:
|SYS 5310||Systems Engineering Principles|
|SYS 5350||Systems Modeling and Analysis|
|SYS 5365||Decisions and Risk Analysis|
|SYS 5370||Research Methods in Systems Engineering|
|SYS 5460||System Requirements Analysis|
The Ph.D. in systems engineering requires a minimum of 48 semester credit hours beyond the master’s degree including 24 semester credit hours of doctoral-level coursework and 24 semester credit hours of dissertation research. In addition to the 24 semester credit hours of coursework, the student’s major advisor may require additional courses to better prepare the student for conducting research in the selected topic.
Following successful completion of all necessary coursework, students must pass a comprehensive examination and then prepare a written dissertation proposal and have their dissertation topic approved by a committee formed according to graduate policy. Students who successfully pass the comprehensive examination and have their dissertation topic approved are then admitted to candidacy for the doctoral degree.
Students admitted to candidacy must then conduct the necessary research to prepare a written dissertation satisfying the elements agreed to by the student’s doctoral committee and successfully defend the dissertation research and the written dissertation for the committee.
A candidate should have at least one technical paper in review for a refereed journal before the dissertation defense and have completed one conference paper and presented that paper at a recognized conference.
General degree requirements are presented in the Academic Overview section of the university catalog.
The coursework consists of a set of required courses and a set of elective courses as outlined below. Students who are newly admitted must submit a program plan of study and have that program plan approved by their designated major advisor and department head before registering for any course to be applied toward graduation requirements. Students must not register for any course not on their approved program plan without the approval of their major advisor and department head.
There are four required courses that all students must take as listed below. In addition, students must take at least four elective courses, subject to the restrictions shown below.
|SYS 6010||Advanced Topics in Decision and Risk Analysis|
|SYS 6020||Advanced Topics in Systems Modeling and Analysis|
|SYS 6030||Advanced Topics in Process Engineering|
|SYS 6040||Seminar in Systems Engineering|
In consultation with the major adviser, the student selects four courses applicable to the program and the student’s intended research focus. Latitude is permitted with the consent of the major advisor. The advisor may require the student to take additional courses (beyond the minimum total of eight) if it is felt these courses are needed for research preparation.