Monash University Handbook 2010 Undergraduate - Course

3282 - Bachelor of Mechatronics Engineering and Bachelor of Science

NOTE: This course has been updated - please refer to the Undergraduate handbook change register for details.

This course entry should be read in conjunction with information provided in the 'Faculty information' section of this Handbook by the Faculty of Engineering

Managing faculty	Engineering
Abbreviated title	BMechatronicsEng/BSc
CRICOS code	056077E
Total credit points required	240
Standard duration of study (years)	5 years FT, 10 years PT
Study mode and location	On-campus (Clayton)
Contact details	Telephone +61 3 9905 3404, email eng.info@eng.monash.edu.au or visit http://www.eng.monash.edu.au
Course coordinator	Visit http://www.eng.monash.edu.au/current-students/course-information.html#1

Description

This program provides the opportunity to combine studies in mathematics, physics, astrophysics or computer science disciplines with mechatronics engineering. The mechatronics engineering studies are undertaken in either a generic sequence or a computer science sequence and restrictions have been imposed in terms of prescribed units to ensure that students pursue studies that suitably equip them for the subsequent levels in science and engineering.

Objectives

This program provides an opportunity to combine studies in several areas of science with mechatronics engineering.

Vacation work/industrial experience

In order to fulfil the requirements of the various degree regulations and Engineers Australia, all engineering students must complete 12 weeks of approved engineering work experience and submit a report on that work. Such work is normally undertaken in the vacations between second and third years and/or between third and fourth years (but may also be taken between first and second years). Students who have completed all academic requirements for their degrees are not eligible to graduate until this work experience has been completed and a satisfactory report submitted.

Professional recognition

For information about professional recognition of Faculty of Engineering courses visit http://www.monash.edu.au/pubs/2010handbooks/undergrad/eng-03.html

Structure

Students must complete major and minor sequences towards the science component of this double-degree. Students may pursue a science major sequence in:

astrophysics
mathematics
physics
computer science

There are two streams in the mechatronics engineering component of the degree which allows students to undertake either a generic sequence or a computer science sequence. Students wishing to take the computer science stream will need to undertake computer science as a major science sequence.

In order to pursue a particular sequence, students must take the necessary science prerequisites in their first level of study. For details of major and minor sequences in science disciplines refer to the 'Science areas of studies and sequences - Clayton' in the Faculty of Science section of this handbook at http://www.monash.edu.au/pubs/2010handbooks/undergrad/sci-ug-study-clayton-intro.html.

Students should contact the appropriate science or engineering course adviser before enrolling in any level of the double-degree program, to ensure that the program they wish to follow will satisfy prerequisites necessary for higher levels. In some special cases, students may choose to overload at levels two or three if they have not completed all of the prerequisites for their chosen science major sequences.

In this double-degree course, restrictions have been imposed in terms of prescribed units to ensure that students pursue studies that suitably equip them for the subsequent levels in science and engineering.

The award of an honours degree in engineering is based on academic achievement.

Requirements

Students must complete 240 points of units as listed for each sequence below. The engineering component requires not less than 132 points that must be obtained in units prescribed by this course list, and the science component requires at least 108 points.

The choice of either MTH1020 and MTH1030 or MTH1030 and MTH2010 at level one is determined by the level of preparation from VCE studies, and students who have not completed year 12 physics should take PHS1080 rather than PHS1011.

Students in this double-degree must complete either two major sequences in different science disciplines or a double major and a minor sequence in a different science discipline.

Level one - Generic sequence

ENG1030 Electrical engineering
ENG1040 Engineering dynamics
PHS1011 Physics (or PHS1080 Foundation physics)
PHS1022 Physics

Select one pair of mathematics units from:

MTH1020 Analysis of change and MTH1030 Techniques for modelling
MTH1030 Techniques for modelling and MTH2010 Multivariable calculus

Select one pair of science units from:

ASP1010 Earth to cosmos - introductory astronomy and ASP1022 Life and the universe
BIO1011 Biology I and BIO1022 Biology II
CHM1011 Chemistry and CHM1022 Chemistry
ESC1011 Planet earth and its environment: The cosmic connection and ESC1022 Planet earth: Dynamic systems, environmental change and resources
FIT1002 Computer programming and FIT1008 Computer science
STA1010 Statistical methods for science and MTH1112 Numbers, logic and graphs

Total: 48 points

Level two

Generic sequence

ENG2092 Advanced engineering mathematics B
MTH2021 Linear algebra with applications
MTH2032 Differential equations with modelling and MTH2010 Multivariable calculus (if not taken at level one)
PHS2011 Physics: quantum concepts and technologies
PHS2022 Physics for communications and measurement
TRC2100 Mechatronic design
TRC2300 Digital electronics
TRC2400 Computer programming (or engineering elective if FIT1002 taken)

Computer science sequence

ENG2092 Advanced engineering mathematics B
FIT2004 Algorithms and data structures
FIT2014 Theory of computation
MTH2021 Linear algebra with applications
MTH2032 Differential equations with modelling and MTH2010 Multivariable calculus (if not taken at level one)
TRC2100 Mechatronic design
TRC2300 Digital electronics
Engineering elective

Total: 48 points

Level three

Generic sequence

TRC2000 Mechatronics project I
TRC2200 Thermo-fluids and power systems
TRC2201 Mechanics
TRC2500 Electronics
24 points of approved science units to complete a major sequence in science*

Computer science sequence

TRC2000 Mechatronics project I
TRC2200 Thermo-fluids and power systems
TRC2201 Mechanics
TRC2500 Electronics
24 points of computer science units to complete a major sequence in computer science, including one of FIT2001 or FIT2024, plus FIT3014, FIT3036 and one computer science level three elective from the Faculty of Science approved list available at http://www.monash.edu.au/pubs/2010handbooks/aos/sci-ug-computer-science-sci.html.

Total: 48 points

Level four

Generic sequence

TRC3000 Mechatronics project I
TRC3300 Microprocessor systems
TRC3500 Sensors and artificial perception
TRC3801 Mechatronics and manufacturing
24 points of approved science units to complete a second major sequence in science*

Computer science sequence

TRC3000 Mechatronics project I
TRC3300 Microprocessor systems
TRC3500 Sensors and artificial perception
TRC3801 Mechatronics and manufacturing
24 points of approved science units to complete either a major sequence in mathematics or a double major sequence in computer science

Total: 48 points

Level five - All sequences

MTE2544 Functional materials
TRC3200 Dynamical systems
TRC3501 Power electronics and drives
TRC3600 Modelling and control
TRC4000 Mechatronics final year project I
TRC4002 Professional practice
TRC4800 Robotics
TRC4801 Digital

Total: 48 points

* Any sequence in science may be taken, provided the appropriate sequence requirements and prerequisites are completed. In some cases, students may elect to seek approval for an overloaded course of up to 12 points at level two or three to enable these requirements to be completed in addition to the required science units at level two.

** Students considering entry to honours in computer science need to complete at least 24 points of level three computer science units, which may require an overloaded course to be approved if a double major in computer science is not completed at level four.

Progression to further studies

Students may apply for admission to an honours level in science following the completion of an approved combination of at least 144 points of units including all of the normal science requirements for the Bachelor of Science and Bachelor of Mechatronics Engineering, with at least 96 points of science units and no more than 48 points of level one science units.

Students who are considering doing honours in science prior to completing the double-degree should consult with the Faculty of Science regarding their unit selection prior to re-enrolling for level three.

Alternative exit(s)

Students may graduate with a Bachelor of Science following the completion of an approved combination of at least 144 points of units including all of the normal science requirements for the Bachelor of Science and Bachelor of Mechatronics Engineering, with at least 96 points of science units and no more than 48 points of level one science units.

Students may exit from the double-degree program and graduate with the single engineering component providing all requirements for the engineering degree have been met.

Award(s)

Bachelor of Science

Bachelor of Mechatronics Engineering

Bachelor of Mechatronics Engineering (with Honours)

Where more than one award is listed for one or both components of the double degree the actual award(s) conferred may depend on units/majors/streams/specialisations studied, the level of academic merit achieved, or other factors relevant to the individual student's program of study.