2. Requirements

To qualify for the award of the Master of Professional Engineering in this specialisation, a candidate must complete 144 credit points, including core and elective units of study as listed here.

Admission to candidature

Admission to candidature requires: EITHER (a) a Bachelor of Engineering from the University of Sydney, OR (b) equivalent qualification, with a minimum credit average; OR (c) a non-engineering bachelor's degree with a minimum credit average, with studies equivalent to 48 credit points in mathematics, physics, chemistry, biology, geology, computing or statistics, as related to the intended engineering specialisation.

All candidates for admission must have prior learning equivalent to 48 credit points in total, which, in the estimation of the Dean, is comparable to the requirements for the first year of a Bachelor of Engineering at this University in the stream sought for admission.

Credit for previous study

A maximum of 72 credit points may be granted towards the Master of Professional Engineering from external postgraduate studies where no award has been, or will be made, provided the studies are acceptable to the Program Director Dean and are equivalent to units of study offered in the Master of Professional Engineering.

Candidates transferring from the Master of Engineering to the Master of Professional Engineering may transfer up to 24 credit points provided units are equivalent to units of study offered in the Master of Professional Engineering. Any additional credit is subject to the approval by the Dean.

Progression

Candidates are required to meet the progression requirements as specified in the University's Coursework Rule, and required to have a WAM >= 65% based on the results of all units of study once a minimum of 48 credit points have been first attempted. Candidates who do not meet this WAM requirement will have their enrolment transferred to the Graduate Diploma in Engineering (Professional Engineering).

Transitional provisions

These resolutions apply to students who commenced their candidature after 1 January 2013 and students who commenced their candidature prior to 1 January 2013 who elect to proceed under these resolutions.

Candidates who commenced prior to 1 January 2013 may complete the requirements in accordance with the resolutions in force at the time of their commencement.

Course resolutions

This course is administered under course resolutions published in the Faculty Handbook at http://sydney.edu.au/handbooks/

3. Semesters

Year 1 - Semester 1

Type	CP	CP From
Core	6	AMME5302: Foundations of Materials 1
Core	6	AMME5500: Foundations of Engineering Dynamics
Core	6	AMME5700: Foundations of Instrumentation
Core	6	ENGG5801: Foundations of Engineering Computing

Note: Year 1 covers foundation units only. Students with a prior Bachelor of Engineering degree or equivalent in the field related to this specialisation are exempt from these foundation units.

Year 1 - Semester 2

Type	CP	CP From
Core	6	AMME5200: Foundations of Thermodynamics and Fluids
Core	6	AMME5301: Foundations of Mechanics of Solids 1
Core	6	AMME5901: Anatomy and Physiology for Engineers
Core	6	MECH5400: Foundations of Mechanical Design 1

Note: Year 1 covers foundation units only. Students with a prior Bachelor of Engineering degree or equivalent in the field related to this specialisation are exempt from these foundation units.

Year 2 - Semester 1

Type	CP	CP From
Core	6	AMME5501: Foundations of System Dynamics and Control
Core	6	MECH5261: Foundations of Fluid Mechanics 2
Core	6	MECH5362: Foundations of Materials 2
Core	6	MECH5660: Foundations of Manufacturing Engineering

Year 2 - Semester 2

Type	CP	CP From
Core	6	AMME5921: Biomedical Engineering Technology 2
Core	6	AMME5971: Applied Tissue Engineering
Core	6	ENGG5214: Management of Technology
Core	6	MECH5361: Foundations of Mechanics of Solids 2

Year 3 - Semester 1

Type	CP	CP From
Core	6	AMME5020: Capstone Project A Note: See Streams/Majors for full details. Students achieving an average mark of 75% or higher over 48 credit points of units of study in the Year Two Table or equivalent are eligible for the Research pathway and may replace AMME5020 and 6cp of electives with AMME5222 Dissertation A.
Core	6	AMME5981: Computational Biomedical Engineering
Core	6	AMME5990: Biomedical Engineering Technology 1
Core	0	ENGG5217: Practical Experience
Biomedical Electives	6	Select from Unit Block: Biomedical Electives

Year 3 - Semester 2

Type	CP	CP From
Core	6	AMME5021: Capstone Project B Note: See Streams/Majors for full details. Students achieving an average mark of 75% or higher over 48 credit points of units of study in the Year Two Table or equivalent are eligible for the Research pathway and may replace AMME5021 and 6cp of electives with AMME5223 Dissertation B.
Core	6	AMME5961: Biomechanics and Biomaterials
Core	6	ENGG5103: Safety Systems and Risk Analysis
Biomedical Electives	6	Select from Unit Block: Biomedical Electives

4. Pathways

Captsone Project

Type	CP	CP From
Core	6	AMME5020: Capstone Project A
Core	6	AMME5021: Capstone Project B

Note: Capstone Project must be completed by all students, unless undertaking Research Pathway (conditions below). Capstone Project is normally completed across two semesters in two stages through AMME5020 (6cp) and AMME5021 (6cp). However, it may also be completed in a single semester (12 cp).

Extended Capstone Project

Type	CP	CP From
Core	6	AMME5020: Capstone Project A
Core	12	AMME5022: Capstone Project B Extended

Note: Students take Capstone Project units AMME5020 and AMME5022 (total 18 cp) in place of Capstone Project AMME5021 and 6 cp of elective units.

Students achieving an average mark of 70% or higher over 48 credit points of units of study in the Year Two Table or equivalent are eligible for the Extended Capstone Project.

Research Pathway

Type	CP	CP From
Core	12	AMME5222: Dissertation A
Core	12	AMME5223: Dissertation B

Note: Research pathway students take Dissertation units AMME5222 and AMME5223 (total 24 cp) in place of Capstone Project units and 12 cp of elective units.

Students achieving an average mark of 75% or higher over 48 credit points of units of study in the Year Two Table or equivalent are eligible for the Research Pathway.

Course:	Master of Professional Engineering (Biomedical) (2013)
CP Required:	144
Min FT Duration:	3.00 Years
Min PT Duration:	N/A
Faculty/School:	Faculty of Engineering
Years Offered:	2024, 2023, 2022, 2021, 2020, 2019, 2018, 2017, 2016, 2015, 2014, 2013, 2012, 2011, 2010

Unit Code	Unit Name	CP	Sessions Offered
AERO5010	Optimisation Methods in Engineering	6	Semester 2
AERO5301	Applied Finite Element Analysis	6
AMME5202	Computational Fluid Dynamics	6	Semester 1
AMME5271	Computational Nanotechnology	6	Semester 2
AMME5310	Engineering Tribology	6	Semester 1
AMME5912	Crash Analysis and Design	6	Semester 1
AMME5951	Fundamentals of Neuromodulation	6	Semester 1
CHNG5602	Biophysics and Biosensors	6	Semester 2
ELEC5803	Advanced Bioelectronics [Not Offered 2019]	6	Semester 1
ENGG5202	Sustainable Design, Engineering & Management	6	Semester 1
MECH5255	Air Conditioning and Refrigeration	6	Semester 2
MECH5275	Renewable Energy	6	Semester 2
MECH5304	Materials Failure	6	Semester 2
MECH5310	Advanced Engineering Materials	6	Semester 1
MECH5416	Design of Micro- and Nanosystems	6	Semester 1
MECH5701	Computers in Real Time Control and Instrumentation	6	Semester 1
MECH5720	Sensors and Signals	6	Semester 2
MTRX5700	Experimental Robotics	6	Semester 1

Faculty of Engineering

Master of Professional Engineering (Biomedical) (2013)

1. Overview