Note: This course version is currently under review and is subject to change.

ProgramsEngBE HonsBE Hons CombinedBE Hons/BPM ( -2018)Biomedical / Project Management (2015)


Show information forcommencing students (ie. started First Year then).
 


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Select plan for Major/Pathway

Year 1 - Semester 1

TypeCPCP From
Core
6ENGG1801: Engineering Computing
Core
6ENGG1850: Introduction to Project Management
Core
6ENGG1960: Introduction to Biomedical Engineering
Core
3MATH1001: Differential Calculus


Note:  This unit is discontinued from 2018. Replacement unit is MATH1021.
Core
3MATH1002: Linear Algebra

Year 1 - Semester 2

TypeCPCP From
Core
6CHEM1101: Chemistry 1A


Note:  This unit is discontinued from 2018. Replacement unit is CHEM1111.
Core
3MATH1003: Integral Calculus and Modelling


Note:  This unit is discontinued from 2018. Replacement unit is MATH1023.
Core
3MATH1005: Statistical Thinking with Data
Core
6MBLG1001: Molecular Biology and Genetics (Intro)
Core
6PSYC1002: Psychology 1002

Year 2 - Semester 1

TypeCPCP From
Core
6ELEC1103: Fundamentals of Electrical and Electronic Engineering
Core
6ENGG2850: Project Cost and Finance
Core
6ENGG2851: Project Analytics
Core
6MATH2067: DEs and Vector Calculus for Engineers


Note:  This unit is discontinued from 2018. Replacement unit is MATH2021.

Year 2 - Semester 2

TypeCPCP From
Core
6AMME1362: Introduction to Engineering Materials
Core
6CHEM1102: Chemistry 1B


Note:  This unit is discontinued from 2018. Replacement unit is CHEM1112.
Core
6ELEC2104: Electronic Devices and Circuits
Core
6MECH2901: Anatomy and Physiology for Engineers

Year 3 - Semester 1

TypeCPCP From
Core
6BUSS1040: Economics for Business Decision Making
Core
6MECH3660: Manufacturing Engineering


Note:  From 2018 BE(Biomedical) students should take AMME3660 instead of MECH3660.
6Project Management Electives
6Bioelectronics & Biomedical Control Units

Year 3 - Semester 2

TypeCPCP From
Core
6ENGG2852: Project Based Organisational Behaviour [not offered in 2020]
Core
6ENGG2855: Project Acceptance
Core
6MECH3921: Biomedical Design and Technology
6Engineering Systems Units

Year 4 - Semester 1

TypeCPCP From
Core
6ENGG3853: Project Risk Management: Tools & Techniques
Core
6PMGT3858: Adapting to Project Context
12Select from
Biomedical Recommended Electives

Year 4 - Semester 2

TypeCPCP From
Core
6ENGG3854: Legal Aspects of Projects
Core
6PMGT3855: Project Variance Analysis
6Biomedical Recommended Electives
6Project Management Electives

Year 5 - Semester 1

TypeCPCP From
Core
6AMME4111: Thesis A
Core
6AMME4971: Tissue Engineering
Core
0ENGG4000: Practical Experience
6Applied Biomedical Computing Units
6Project Management Electives

Year 5 - Semester 2

TypeCPCP From
Core
6AMME4112: Thesis B
Core
6MECH4961: Biomechanics and Biomaterials
6Biomedical Recommended Electives
6Project Management Electives

No streams/majors defined for this course version.

Block 1 - Project Management Electives (Min CP: 24,Max CP: 24)

Unit Code Unit Name CP Sessions Offered
PMGT2854 Executing Projects 6 Semester 2
PMGT3856 Sustainability and Knowledge Management 6 Semester 1
PMGT3857 International Project Management 6 Semester 2
ELECTIVE Free Electives 6  

Block 2 - Engineering Systems Units (Min CP: 6,Max CP: 6)

Unit Code Unit Name CP Sessions Offered
AMME2261 Fluid Mechanics 1 6 Semester 1
AMME2262 Introduction to Thermal Engineering 6 Semester 2
CHNG2803 Heat and Mass Transfer 6 Semester 1
ELEC2302 Signals and Systems 6 Semester 2
MECH2400 Mechanical Systems Design 1 6 Semester 1

Block 3 - Bioelectronics & Biomedical Control Units (Min CP: 6,Max CP: 6)

Unit Code Unit Name CP Sessions Offered
AMME4790 Introduction to Biomechatronics 6 Semester 2
ELEC3802 Fundamentals of Biomedical Engineering 6 Semester 1

Note: AMME4790 has been replaced by AMME5790 from 2017

Block 4 - Applied Biomedical Computing Units (Min CP: 6,Max CP: 6)

Unit Code Unit Name CP Sessions Offered
AMME4981 Applied Biomedical Engineering 6 Semester 1
COMP5424 Information Technology in Biomedicine 6 Semester 1
COMP5456 Introduction to Bioinformatics [not running] 6 Semester 2

Block 5 - Biomedical Recommended Electives (Min CP: 18,Max CP: 18)

Unit Code Unit Name CP Sessions Offered
AMME4710 Computer Vision and Image Processing 6 Semester 2
AMME4990 Biomedical Product Development 6 Semester 1
AMME4992 Regulatory Affairs in the Medical Industry 6 Semester 2
AMME5931 Nanomaterials in Medicine 6 Semester 1
AMME5951 Fundamentals of Neuromodulation 6 Semester 1
AMME5958 Nanotechnology in Biomedical Engineering 6 Semester 2
AMME5962 Introduction to Mechanobiology 6 Semester 2
AMME5995 Advanced Bionics 6 Semester 1
CHNG5601 Membrane Science 6 Semester 1
CHNG5602 Cellular Biophysics 6 Semester 2
CHNG5603 Advanced Industrial Modelling and Analysis 6 Semester 1
CHNG5604 Advanced Membrane Engineering 6 Semester 2
CHNG5605 Bio-Products: Laboratory to Marketplace 6 Semester 2
COMP5048 Visual Analytics 6 Semester 1
Semester 2
ELEC3305 Digital Signal Processing 6 Semester 1
ELEC3404 Electronic Circuit Design 6 Semester 1
ELEC3803 Bioelectronics [not offered in 2021] 6 Semester 2
ELEC5514 Networked Embedded Systems 6 Semester 2
ELEC5614 Real Time Computing 6 Semester 1
ELEC5701 Technology Venture Creation [not offered in 2021] 6 Semester 2
HTIN5002 Quality Frameworks for Health Innovation 6 Semester 2 Block Mode
MECH4902 Orthopaedic and Surgical Engineering 6 Semester 2
MECH5310 Advanced Engineering Materials 6 Semester 1
MECH5720 Sensors and Signals 6 Semester 2
MECH5907 Orthopaedic and Surgical Engineering 6 Semester 2
MTRX5700 Experimental Robotics 6 Semester 1

Note: MECH4902 has been replaced by MECH5907 from 2017. At least 18 credit points (three units of study) must be selected from the units listed above including at least one of the following: AMME4990, AMME4992, CHNG5605 or ELEC5701.

Course: Biomedical / Project Management (2015)
CP Required: 240
Min FT Duration: 5.00 Years
Min PT Duration: N/A
Faculty/School: Faculty of Engineering
Years Offered: 2018, 2017, 2016, 2015
Requirements: 1. To qualify for the award of the combined degree, a candidate must successfully complete 240 credit points, comprising: (a) The core units of study as set out in the Bachelor of Project Management unit of study table; (b) The units of study specified for the relevant stream of Engineering and (c) Any additional elective units of study as may be necessary to gain credit to co mplete the requirements of the degree.

2. Candidates are required to achieve a minimum HWAM (Honours Weighted Average Mark) of 65% to qualify for the Engineering Honours degree. Students who satisfy all requirements for graduation except the HWAM required for honours will be awarded the PASS degree Bachelor of Engineering.

NOTE: This course outline should be read in conjunction with the course rules specified in the Faculty handbook at http://sydney.edu.au/handbooks/
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