Course Title: Management of Mechanical Design and Research
Part A: Course Overview
Course Title: Management of Mechanical Design and Research
Credit Points: 12.00
Terms
Course Code |
Campus |
Career |
School |
Learning Mode |
Teaching Period(s) |
MIET1199 |
Bundoora Campus |
Undergraduate |
115H Aerospace, Mechanical & Manufacturing Engineering |
Face-to-Face |
Sem 2 2006, Sem 2 2007, Sem 2 2008, Sem 2 2009, Sem 1 2010, Sem 1 2011, Sem 1 2012, Sem 1 2013, Sem 2 2014, Sem 2 2015, Sem 2 2016 |
MIET1199 |
Bundoora Campus |
Undergraduate |
172H School of Engineering |
Face-to-Face |
Sem 2 2017 |
MIET2078 |
SHAPE, VTC |
Undergraduate |
115H Aerospace, Mechanical & Manufacturing Engineering |
Face-to-Face |
Offsh2 15 |
MIET2355 |
Stansfield College |
Undergraduate |
115H Aerospace, Mechanical & Manufacturing Engineering |
Face-to-Face |
Offsh 3 09, Offsh 4 09, Offsh 1 10 |
Flexible Terms
Course Code |
Campus |
Career |
School |
Learning Mode |
Teaching Period(s) |
MIET2078 |
SHAPE, VTC |
Undergraduate |
172H School of Engineering |
Face-to-Face |
OFFSe12018 (VM5) |
MIET2078 |
SHAPE, VTC |
Undergraduate |
172H School of Engineering |
Face-to-Face |
OFFJan2024 (All) |
MIET2479 |
Kaplan Singapore |
Undergraduate |
172H School of Engineering |
Face-to-Face |
OFFJan2020 (KA4) |
MIET2479 |
Kaplan Singapore |
Undergraduate |
172H School of Engineering |
Face-to-Face |
OFFMay2023 (KA5M) |
Course Coordinator: Dr Hamid Khayyam
Course Coordinator Phone: +61 3 9925 4630
Course Coordinator Email: hamid.khayyam@rmit.edu.au
Pre-requisite Courses and Assumed Knowledge and Capabilities
Mechanical Design 1 or equivalent
Course Description
In this course you will actively explore contemporary issues and practices relating to the management of engineering design and research projects and product design in particular in a wide range of industrial settings. In conjunction with this, you will be encouraged to explore in-depth and apply in integrated engineering design and/or research contexts broader issues including critical review of appropriate information, relevant aspects of intellectual property, professional ethics, risk/hazard management, costing, project management, environmental principles and sustainability in general. Contextual studies involving feasibility and value analysis will be used to provide you, working in a team with an opportunity to explore real-world problems relating to product design and development.
Objectives/Learning Outcomes/Capability Development
This course develops and assesses the following program learning outcomes of the Bachelor of Engineering (Honours):
- Knowledge of contextual factors impacting the engineering discipline.
- Understanding of the scope, principles, norms, accountabilities and bounds of contemporary engineering practice in the specific discipline.
- Fluent application of engineering techniques, tools and resources.
- Application of systematic engineering synthesis and design processes.
- Ethical conduct and professional accountability
- Professional use and management of information.
- Orderly management of self, and professional conduct.
- Effective team membership and team leadership.
Course Learning Outcomes (CLOs)
Upon successful completion of this course you should be able to:
- Identify contemporary issues and practices relating to the management of design and research and more specifically of product design and development in a commercial environment.
- Apply a systematic approach to design and research, (independently and in teams) using a range of appropriate tools and techniques that are currently recognised worldwide as best practice.
- Conduct comprehensive planning and feasibility studies, identify product/research requirements and generate alternative solutions that best meet these requirements, then evaluate and select preferred designs.
Overview of Learning Activities
Learning activities include lectures, tutorials, group projects including team-based discussion and problem solving, individual work in assignments and as part of group projects, and a final exam.
Overview of Learning Resources
There are class notes, lecture slides, design standards and several recommended references.
Overview of Assessment
X This course has no hurdle requirements.
☐ All hurdle requirements for this course are indicated clearly in the assessment regime that follows, against the relevant assessment task(s) and all have been approved by the College Deputy Pro Vice-Chancellor (Learning & Teaching).
Assessment tasks
Assessment Task 1: Concept generation project
Weighting 20%
This assessment task supports CLOs 1 - 3
Assessment Task 2: Product design assessment
Weighting 20%
This assessment task supports CLOs 1 - 3
Assessment Task 3: Product design report
Weighting 20%
This assessment task supports CLOs 1 - 3
Assessment Task 4: Final Exam
Weighting 40%
This assessment task supports CLOs 1 - 2