BENGBHMEB Bachelor of Engineering (Biomedical) (Honours), Master of Engineering (Biomedical)

Overview

The Bachelor of Engineering (Biomedical) (Honours), Master of Engineering (Biomedical) requires 5 years of full-time study (or the equivalent part-time). The double degree course is offered by the College of Science and Engineering.

Course offerings

Tonsley

Courses / qualifications may not be offered in all locations and modes each year. For more information on Mode of Delivery, visit Mode definitions

Student guidance

Study planner

Program of study overview

Program of study notes

1. This Program of Study serves as a suggested study plan. When core topics are offered in both halves of the year, students may enrol in these topics in either half of the year as long as requisites are met

2. ENGR3710 International Engineering Practicum should be selected by those students intending to undertake their Practicum outside of Australia. Enrolment is subject to approval by the College and will consider the quality and appropriateness of the placement

3. With the permission of the Course Coordinator students may undertake ENGR9405 Engineering Work Experience plus 9 units of upper-level topics in place of ENGR3700 Engineering Practicum or ENGR3710 International Engineering Practicum. Upper-level topics must be selected from COMP, ENGR, MATH or STAT topics at 2000-level and above. Please see the topic coordinator for further details

4. Students must undertake the Masters Research Project topics over a minimum of two semesters

5. With the permission of the Course Coordinator students may choose 9 units of MMED option topics in Year 4 and 5

6. With the permission of the Course Coordinator eligible students may replace an option topic with Advanced Studies for Engineering

Program of study
180 Units

Year 136 Units

Core36 Units

First half18 Units

Second half18 Units

Year 236 Units

Core31.5 Units

Option4.5 Units

Year 336 Units

Core22.5 Units

Option9 Units

Elective4.5 Units

Year 436 Units

Core13.5 Units

Option13.5 Units

Option9 Units

Year 536 Units

Core22.5 Units

Option13.5 Units

Admission requirements

Admission requirements

Pre-requisites

Assumed knowledge

English Language requirements

Aims

The double degree course has been designed to provide graduates with:

A strong understanding of both the theoretical and the practical aspects of engineering, particularly those relevant to the systematic development of biomedical engineering systems
An awareness of social, economic, cultural and environmental aspects of (biomedical) engineering
An ability to critically analyse and evaluate information and solve complex problems
An understanding of professional and ethical responsibilities and a commitment to them
Well developed written and oral communication skills
Structured engineering work experience
The ability to work and interact professionally as an individual and as a member of multi-disciplinary teams
An understanding of the need to undertake lifelong learning and the capacity to do so
An ability to undertake a substantial research-oriented project
Preparation for future management roles as professional engineers

The double degree course provides the foundations that will underpin ongoing professional development, preparing graduates for further study or for a career in an engineering related field or in other areas where the range of skills and knowledge acquired is needed or desirable.

Learning outcomes

On completion of the course you will be able to:

Skillfully use professional skills and knowledge in the systematic development of complex biomedical engineering systems

Demonstrate a broad understanding of the biomedical engineering discipline and a deeper understanding of some areas of biomedical engineering

Apply advanced skills and knowledge in a professionally responsible manner

Communicate effectively with other engineers and the wider global community using a wide range of communication technologies

Work professionally as an individual and in a team

Understand and describe the processes through which current knowledge was developed

Develop engineering solutions appropriate to the social, political, international, economic and environmental contexts in which they are applied

Engage in the process of continuing learning needed to retain the necessary level of professional skills and knowledge in the area of biomedical engineering

Contribute successfully to project management

10.

Plan and execute a research project, applying relevant methodologies and knowledge

11.

Apply skills adopted through the thesis and advanced discipline topics to postgraduate level research or advanced industrial investigation

Professional accreditation and recognition

Professional accreditation

Associations

Double degree association