| | Industrial Systems Engineering | | |
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| School | University of Regina - Faculty of Graduate Studies and Research | | |
| Location | Regina, SK, Canada | | |
| School Type | Graduate School | | |
| School Size | Full-time Undergraduate: 10,000
Full-time Graduate: 800 | | |
| Degree | Doctorate | | |
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| Co-op | | | |
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| Prerequisites Notes | Admission normally requires that the applicant has obtained a thesis-based Master's degree in the discipline. At the time the recommendation is made, the supervisor(s) must be identified, and in faculties lacking formal departments, the Dean of the faculty or designate must indicate approval. An applicant with an honours bachelor's degree of first class standing (including a thesis) from an accredited university may be considered for direct entry to a doctoral program. An applicant who is judged deficient in background training or in courses prerequisite to scholarly work in the particular subject(s) of study and research will not be admitted as a doctoral student. An applicant may be admitted as a Master's student and be required to undertake specific courses or activities towards establishing appropriate credentials, but any graduate study undertaken for this purpose cannot be counted as time spent toward formal requirements for the degree. Alternatively, an applicant may be accepted at the Master's level as a means of illustrating suitability to enter a doctoral program, and after the first year may request, through the academic unit, a transfer to a Ph.D. program | | |
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| Description | The major areas of specialization are in manufacturing, control, process engineering and energy systems. Activities include CAE, Facilities design, Quality control, Performance evaluation of manufacturing systems, Fatigue analysis, Vibration and noise analysis, Design and manufacturing of pressure vessels, Non-linear dynamics fracture mechanics, Modeling/simulation/ design/ implementation of robotic human powered , Sensor-based motion planning, Optimal control, Artificial Neural networks, Virtual reality, Artificial/Computational sapiens (wisdom), Metabotics, Greenhouse gas technology control including Solubility of gases in liquids, PVT studies, Mass transfer with chemical reactions, Kinetics, Corrosion and degradation, Calorimetry, Physical and transport properties measurements, Pilot plant design and operations, Fuel cells, Biomass, Modeling and simulation of industrial systems, Renewable energy studies dealing with wind and solar energies. | | |
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