Concentrations: Biomedical || Energy || Engineering Computation || Environment & Sustainability || Manufacturing Design || Materials || Process Data Analytics
Course 10-ENG: Bachelor of Science in Engineering with Concentration
Manufacturing Design
This concentration covers concepts, methodologies, algorithms, and software tools for the analysis and design of advanced manufacturing systems. The state of the art in advanced manufacturing has been enabled by reductions in the cost of computer hardware and by the increased availability of powerful software for process simulation and systems analysis and design.
Note: Two of the four concentration courses can be selected to count towards the mechanical engineering minor (https://meche-mit-edu.ezproxy.canberra.edu.au/education/undergraduate/meche-minor), which requires four additional courses.
Students in this concentration are required to take
10.490 Integrated Chemical Engineering
and three subjects taken from three categories.
A. Basics (select at least one, normally taken during first two years)
| Number | Name | Units | GIR | Prerequisites |
| 1.021/3.021/10.333/22.00 | Introduction to Modeling and Simulation | 12 | REST | 3.016, 18.03, or permission of instructor |
| 1.000 | Computer Programming for Engineering Applications | 12 | REST |
B. Process Systems (select at least one, taken during the last two years)
| Number | Name | Units | GIR | Prerequisites |
| 10.450 | Process Dynamics, Operations, and Control | 9 | 10.302 and 18.03 | |
| 10.352 | Modern Control Design | 9 | ||
| 10.353 | Model Predictive Control | 9 |
Approved Graduate Subject Alternatives
| Number | Name | Units | GIR | Prerequisites |
| 10.34 | Numerical Methods Applied to Chemical Engineering | 9 | Permission of instructor | |
| 10.551 | Systems Engineering | 9 | 10.213, 10.302, and 10.37 |
C. Systems & Control (select at least one)
| Number | Name | Units | GIR | Prerequisites |
| 1.053[J]/2.003[J] | Dynamics and Control I | 12 | REST | Physics II (GIR) |
| 2.004 | Dynamics and Control II | 12 | Physics II (GIR) and 2.003 | |
| 2.008 | Design and Manufacturing II | LAB | 2.007; or Coreq: 2.017 and (2.005 or 2.051) | |
| 2.14 | Analysis and Design of Feedback Control Systems | 12 | 2.004 | |
| 2.729[J]/EC.729[J] | D-Lab: Design for Scale | 12 | Permission of instructor | |
| 6.9080 | Introduction to EECS via Robotics | 12 | LAB | 6.0001 or permission of instructor |
| 6.2060 | Microcomputer Project Laboratory | 12 | LAB | 6.002, 6.003, or 6.004 |
| 6.2061 | Microcomputer Project Laboratory – Independent Inquiry | 12 | 6.002, 6.003, or 6.004 | |
| 6.7201 | Optimization Methods | 12 | 18.06 | |
| 6.3100 | Feedback System Design | 12 | 2.003, 6.003, or 16.002 | |
| 10.450 | Process Dynamics, Operations, and Control | 9 | 10.302 and 18.03 | |
| 10.352 | Modern Control Design | 9 | ||
| 10.353 | Model Predictive Control | 9 |
Approved Graduate Subject Alternatives
| Number | Name | Units | GIR | Prerequisites |
| 6.7100[J]/16.338[J] | Dynamic Systems and Control | 12 | 6.003 and 18.06 | |
| 10.551 | Systems Engineering | 9 | 10.213, 10.302, and 10.37 |
Some subjects are listed in both categories B and C; a subject taken under B cannot also be used to satisfy the requirement of category C.