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UNSW LIBRARY
S S H L . ,
S3T8-
SHELF
THE UNIVERSITY OF
NEW SOUTH WALES
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THE UNIVERSITY OF
NEW SOUTH WALES
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Subjects, courses and any arrangements for coursesincl uding staff aiiocated as stated in this Handbooi< arean expression of intent oniy. The University reservesthe right to discontinue or vary arrangements at anytime without notice. Information has been brought upto date as at 1 November 1996, but may be amendedwithout notice by the University Council.
CREDIT POINTS - IMPORTANT NOTE
From 1996, UNSW introduced a university wide credit point system for allsubjects offered to both undergraduate and postgraduate students. The systemmeans that a subject will have the same credit point value irrespective of whichfaculty's course it is counting towards. Students are able to determine the valueof subjects tai
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Contents
Introduction 1
Calendar of Dates 3
Staff 5
Handbook Guide 13
Faculty Information 17Some People Who Can Help You 17Entrance Requirements 17Enrolment Procedures 18Computing at UNSW 18Faculty of Engineering Library Facilities 18Student Clubs and Societies 18Students With Disabilities 18Student Equity 19
Equal Opportunity in Education Policy Statement 19International Association for the Exchange of Students for Technical Experience 19Professional Institutions 20
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Course Work Masters Degrees 28Master of Engineering Science 29Graduate Diplomas 29Graduate Subjects 30Research and Project Areas 30
Biomedical Engineering 30CHANCES 30Civil and Environmental Engineering 31Computer Science and Engineering 32Electrical Engineering 33Geomatic Engineering 34Mechanical and Manufacturing Engineering 35Naval Architecture 35Remote Sensing and GIS 36
School of Civi l Engineering 37
Undergraduate Study 38Course Outlines 393620 Civil Engineering - Full-time Course 393625 Environmental Engineering - Full-time Course 40
Combined Courses 413730 BE BSC in Civil Engineering - Full-time Course 43
3146 BE(Civil) BE(Mining) in Civil Engineering and Mining Engineering - Full-time Course434775 BE LLB in Civil Engineering and Law - Full-time Course 43
Graduate Study: Course Work Programs 448612 Master of Engineering Science 448614 Master of Engineering Science 468615 Master of Environmental Engineering Science 468617 Master of Engineering Science/Engineering Construction and Management 478618 Master of Environmental Engineering Science 475454 Graduate Diploma in Engineering Construction and Management 475498 Graduate Diploma in Waste Management 47
Subject Descriptions 48
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Combined Courses 943720 BE BA in Electrical Engineering 943725 BE BSc in Electrical Engineering 943727 Electrical Engineering/Biomedical Engineering - Full-time Course 95
Graduate Study: Course Work Programs 968501 Master of Engineering Science in Electrical Engineering 96
5435 Graduate Diploma in Electric Power Engineering 985458 Graduate Diploma in Electrical Engineering 99
Subject Descriptions 99
School of Geomatic Engineering 113
Bachelor of Engineering (Geomatic Engineering) Course 114Bachelor of Engineering in Geomatic Engineering/Bachelor of Science In Computer Science Course 114Combined Bachelor of Engineering (Geomatic Engineering)/Bachelor of Arts Course 115
Undergraduate Study: Course Outli nes 1163741 Geomatic Engineering 116
Combined Course 117
3746 Bachelor of Engineering in Geomatic Engineering/Bachelor of Science inComputer Science 117
Graduate Study 117Master of Engineering Science 1178652 Geographic Information Systems 117
8653 Land Administration 1188641 Remote Sensing 1185492 Graduate Diploma in Geomatic Engineering 1195493 Graduate Diploma in Land Administration 1195496 Graduate Diploma in Remote Sensing 119
Subject Descriptions 120
School of Mechanical and Manufactu ring Engineering 129
Undergraduate Study: Course Outlines 1303610 Aerospace Engineering/3663 Manufacturing Management/
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5456 Graduate Diploma in Mechanical Engineering 141
Subject Descriptions 142
The Graduate School of Biomedical Engineering 161
Undergraduate Study: Course Outlines 1623683 Mechanical Engineering/Biomedical Engineering - Full-time Course 1623727 Electrical Engineering/Biomedical Engineering - Full-time Course 1643728 Computer Engineering/Biomedical Engineering - Full-time Course 165
Graduate Study: Course Work Programs 1668660 Master of Biomedical Engineering 1668665 Master of Engineering Science 1675445 Graduate Diploma in Biomedical Engineering 168
Subject Descriptions 168
Graduate School of Engineering 173
Course Outlines 1748616 Master of Business and Technology 1745457 Graduate Diploma in Industrial Management 174
Subject Descriptions 174
Centres in the Faculty of Engineering 177Centre for Advanced Numerical Computation in Engineering and Science 177Centre for Manufacturing and Automation 178Centre for Remote Sensing and Geographic Information Systems 178Centre for Wastewater Treatment 179Munro Centre for Civil and Environmental Engineering 179Photovoltaics Special Research Centre 179UNSW Groundwater Centre 179
Servicing Subject Descriptions 181
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Introduction
This handbook provides information on courses of study offered by the Faculty of Engineering, atboth undergraduate and graduate levels, together with descriptions of subjects available and areasin which research may be undertaken.
The Faculty consists of the Schools of Civil Engineering, Computer Science and Engineering,Electrical Engineering, Geomatic Engineering, and Mechanical and Manufacturing Engineering. Italso has two graduate schools, the Graduate School of Biomedical Engineering and the GraduateSchool of Engineering and a number of faculty centres. Furthermore, the Faculty Is actively involved
with seven Cooperative Research Centres (CRCs).
The Faculty is dedicated to the achievement of excellence in scholarship, teaching and researchin technology and its application for the benefit of the community. Schools within the Faculty offerundergraduate courses leading to the award of the degree of Bachelor of Engineering (BE). Thereare also a number of combined degree courses available which lead to the award of two degrees,as well as a concurrent degree program leading to the award of a bachelor and masters degree. Through its schools and centres, the Faculty offers an active graduate program through formalgraduate courses both at degree and graduate diploma level, and research degrees.
The Faculty has a commitment to developing in students the technical, scientific and creative skills
required to solve all aspects of engineering problems, and to direct and manage engineeringactiv'rties. Critical to this Is an understanding of human interaction with the environment so that the
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Calendar of Dates
The academic year is divided into two sessions, each containing 14 weeks for teaching.
Between the two sessions there is a break of approximately six weeks, which includes a
one-week study period, two weeks for examinations, and three weeks recess. There is also
a short recess of one week within each session.
Session 1 commences on the Monday nearest 1 March.
Faculties other than Medicine, AGSM and University College
1997 1998
Session 1(14 weeks) 3 March to 27 March
7 April to 13 June
2 March to 9 April20 April to 12 June
Mid-session recess 28 March to 6 April 10Aprilto19Aprii
Study period 14 June to 19 June 13 June to 18 June
Examinations 20 June to 8 July 19 June to 7 July
Mid-year recess 9 July to 27 July 8 July to 26 July
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4 ENGINEERING
M 31 Last day tor students to discontinue without failuresubjects which extend over Session 1 only.HECS Census Date for Session 1Easter Monday - Public Holiday
Apri l 1997
T 1 Medicine V - Term 2 beginsSu 6 Mid-session recess ends - for Faculties other than
Medicine, AGSM and University College, ADFASu 13 Medicine VI - Term 2 endsM 14 Medicine VI - Recess beginsSu 20 Medicine VI - Recess endsM 21 Medicine VI - Term 3 beginsF 25 Anzac Day-Publ ic HolidaySu 27 Medicine IV - Term 2 endsM 28 Medicine IV -Recess begins
May 1997S 3 University College, ADFA - May recess beginsSu 4 Medicine IV-Recess endsM 5 Medicine IV - Term 3 beginsF 9 AGSM MBA program - all classes - Term 1 endsM 12 AGSM MBA program - all classes-
Examinations beginT 13 Publication of provisional timetable for June
examinationsF 16 AGSM MBA program-al l classes - Examinations endSu 18 University College, ADFA - May recess endsW 21 Last day for students to advise of examination clashes
S 24 AGSM EMBA GMQ and GDM programs -Session 1 ends
AGSM EMBA GMQ and GDM programs -Examination
T 27 AGSM EMBA Executive Year - Session 1 ends
June 1997Su 1 Medicine V - Term 2 ends
Medicine VI - Term 3 endsM 2 AGSM MBA program - all classes - Term 2 begins
Medicine VI - Term 4 beginsT 3 Publication of timetable for June examinationsM 9 Queen's Birthday - Public HolidayT 10 M di i V T 3 b i
Aug us t 1997Su 3 Medicine VI - Recess endsM 4 Medicine VI - Term 5 beginsF 8 Last day applications are accepted from students
to enrol in Session 2 subjectsLast day for students to discontinue without failure
subjects which extend over the whole academic year AGSM MBA program - all classes - Term 2 ends
Su 10 Medicine IV - Term 4 endsMedicine V - Term 3 ends
M 11 AGSM MBA program - all classes - Examinations beginMedicine IV - Recess begins
F 15 AGSM MBA program - all classes -Examinations end
Su 17 Medicine IV - Recess endsM 18 Medicine IV - Term 5 begins
Medicine V - Term 4 begins
Su 31 Last day for students to discontinue without failuresubjects which extend over Session 2 onlyHECS Census Date for Session 2
September 1997M 1 AGSM MBA program - all classes - Term 3 beginsS 6 Open DaySu 14 Medicine VI - Term 5 endsM 15 Medicine VI - Term 6 beginsF 26 Closing date for applications to the Universities
Admission CentreS 27 Mid-session recess begins - for Faculties other than
Medicine and AGSM University College, ADFA - Septembirecess beginsSu 28 Medicine IV -T er m 5 endsM 29 Medicine IV - Term 6 begins
October 1997M 6 Labour Day - Public Holiday
Mid-session recess ends - for Faculties other thanMedicine and AGSMUniversity College, ADFA - September recess ends
T 7 Publication of provisional timetable for the November
examinationsW 15 Last day for students to advise of examination clashesF 17 AGSM EMBA Executive Year Session 2 ends
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staff
Comprises Schools of Civil Engineering, Computer Science and Engineering, ElectricalEngineering, Mechanical and Manufacturing Engineering (incorporating AerospaceEngineering and Naval Architecture), Geomatic Engineering, the Graduate School ofBiomedical Engineering, the Graduate School of Engineering and Centres for PhotovoltaicDevices and Systems, Advanced Numerical Computation in Engineering and Science,Manufacturing and Automation, Wastewater Treatment, the Munro Centre for Civil andEnvironmental Engineering and the Centre for Remote Sensing and Geographic InformationSystems. The Faculty is also associated with the UNSW Groundwater Centre, and theCo-operative Research Centres for Waste Management and Pollution Control, and AerospaceStructures.
Dean
Mark Sebastian Wainwright, MAppSc Adel., PhD McM., CPEng, FTSE, FRACI, FIEAust
Presiding Member
Ian Francis Morrison, BSc BE PhD Syd., CPEng, FIAE, FIEAust, MIEE, MIEEE
As soc iate Dean (International)
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6 ENGINEERING
Department of Geotechnìcal Engineering
Includes Foundation Engineering, Soil Mechanics, RockMechanics, Pavement Engineering
Professor of Civil Engineering and Head ofDepartment
Robin Fell, BE MEngSc Old., CPEng, FIEAust
Professor
Somasundaram Valllappan, BE Annam., MS Northeastern,PhD DSc Wales, CPEng, FIEAust, FASCE
As soc iate Pro fessor
Brian Shackel, BE Shaft., MEngSc PhD UNSW, BEc Macq.GradDipEd NTU, CPEng, MIEAust
Senior LecturersNasser Khalili-Naghadeh, BSc Teh., MSc Bimri, PhDUNSWGarry Robert Mostyn, BE MEngSc UNSW, BA Macq.,CPEng, MIEAust
Lecturer
Gareth Edward Swarbrick, BE Adel., Ph D UNSW,GradlEAust
Professional OfficerPeter Kenneth Maguire, BSc N.E., GradDIp UNSWLindsay John O'Keeffe, BSc UNSW
Honorary Visiting Fellow
William Otho Yandell, ME PhD UNSW, CPEng, MIEAust
Senior Technical OfficerPaul Jonathan Gwynne
Raymond Eric Lawther, BE PhD UNSWIan James Somervaille, BE PhD UNSW, ASTC
Lecturers
Stephen James Foster, BE N.S.W.I.T., MEngSc PhD
UNSWNadarajah Gowripalan, BSc(Eng) Moratuwa, MSc PhDLeeds, MIEAust
Professional OfficerKenneth Brian Higgs, MSc Aston, MAIP
Adm in is tr at ive As is tantJanice Hutchinson
Department of Transport Engineering
Includes Traffic and Transport Engineering, Transport Analysis, Road Design, Land Use Transport Interaction, theEnvironmental Impacts and Assessment of Transport.
Senior Lecturer and Head of Department ofTransport EngineeringStephen Edmund Samuels, BE MEngSc Monash, PhDN'cle.(N.S.W.). CPEng, FIEAust, MAAS, MASA
Professor of Transport EngineeringJohn Andrew Black, BA Mane., MTCP Syd., PhD Brad.,CPEng, FIEAust
Lecturers
Michael Clarence Dunne, BSc PhD Adel.Peter Hidas, MCEng DipTP PhD Bud.Upali Vandebona BSc(Eng) Ceylon MEng A I T PhD
STAFF 7
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STAFF 7
Senior Lecturers
Richard Ian Acworth, BSc Leeds, MSc PhD Birm., FGSJames Edward Ball, ME PhD N'cle.(N.S.W.), CPEng,MIEAust, MASCÈ, MIAHR, MAWWAPeter John Bliss, BE UNSW, MSc DIG Land., ASTC,
CPEng, MIEAustBruce Gathers, BE Syd., DipHE Delft, MEngSc UNSW,PhD Mane.Penelope Anne FitzGerald, BSc Syd., CPEng, MIEAust,MASM, MAWWA, M RAG!David Andrew Luketina, BE PhD W.A., CPEng, MIEAustStephen James Moore, BE UNSW, MEngSc Adel., CPEng,MIEAust
Lecturer
Ashish Sharma, BE Roorkee, MTech l.l.T.Delhi, PhD UtahState
Professional OfficersMartin Gilbertson Beck, BAppSc U.T.S.Andrew Courtney Coates, BE UNSWVir Abhimanyu Sardana, BScEng Rour., MTech IITD, PhDUNSW, MISB, CPEng, MIEAust, MACS
Ad mi ni str at ive Assi st ants
Patricia Mary McLaughlinJuiie May O'Keeffe
Centre for Postgraduate Studies in Civil
Engineering
DirectorProfessor Robin Fell
School of Computer Science and
Engineering
Associate Prof essor of Comp ut er Science and Headof Sciiool
Paul Justin Compton, BSc, MSc UNSW
Professors of Computer Science
John Miller, BE MCom PhD UNSW, FIEAust, FIREE,MAGMGraham Reginald Hellestrand, BSc PhD UNSW, MIEEENorman Y. Foo, BE, ME Canterbury, MA, PhD Michigan
Executive Assistant to Head of SchoolDr G. R. Whale
Associate Prof essor sArthur Ramer, MS Warsaw, PhD S.U.N.Y.Claude Anthony Sammut, BSc PhD UNSW
Senior LecturersAdnan Amin, BSc DipCompSc Baghdad, DEA Orsay, DScNancy, MIEEE
Tamas Domonkos Gedeon, BSc PhD U.W.A.,GradDlpMgmnt UNSWGemot Heiser, BSc Freiburg, MSc Brock, PhD E.T.H.Achim G. Hoffman, MSc, PhD, TU Berlin, MIEEEJayasooriah, BE Sing., MEng N.U.S., PhD UNSW, MIEEEPiyush Maheshwari, BE, ME roorkee, PhD Manchester,MIEEE William Stephen Matheson, BE MEngSc Meto.,PhD Br.Col., CEng, MIEEE, MIEEAnne Hee Hiong Ngu, BSc PhD W.A.Nandan Parameswaran, BE Madr., ME , WJKanpur I.T.,
PhD I.I.Sc. BangaloreClark Nives Quinn, BA MA PhD U.C. San Diego
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8 ENGINEERING
Senior Administrative OfficerBill Atherton, BSc N'cle. upon Tyne,
Ad mi ni st rat iv e Off icerColin James Flatters
Ad mi ni st rat iv e Ass is tant s
Rita Bautarua
Cassandra Jane Nock
Yvonne Van Cornewal
Computer Systems OfficersVictor Bien Neil Francis Brown, BSc UNSW
Phillip Byrnes-Preston, BE UNSWChristian Michel Coulon, BScGradDip N.B., MInfSc UNSW
Kevin Elphinstone, BE BSc UNSWStephen Fischer, BSc RiceSimran Gambhir BSc UNSW Nicl< Maddern, BSc KentRob Moser, BSc Calif.Geoffrey Morris Oal
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STAFF 9
Professional Officers
Fabio Barone, BE UNSW
Eril< IVIaria Keller, DipLIng C.V.U.T. Prague
Bao Toan Phung, BE Wgong., MEngSc UNSW
Adjunct Professo rRonald Edward James, BSc(Eng) PhD Land., CPEng,CEng, FlEAust, MIEE, MIMechE, SMIREE
Visiting Fellow
Walter Lachs, BE MEngSc Syd., PhD UNSW, FIEEE, MIEE
Photovoltaics Special Research Centre
DirectorProfessor M. A. Green
Ass oc iate Directo rs
Associate Professor P. A. Basore Associate Professor H. R. Outhred Associate Professor S. R. Wenham
Department of Electronics School of Geomatic Engineering
Associate Professor and Head of DepartmentStuart Ross Wenham, BE BSc PhD UNSW. SMIEEE
As soc iate Professo r
Paul Austin Basore, BS Oklahoma, MS, PhD M.I.T.
Senior Lecturers
Ruey-Shing Star Huang, BS Cheng Kung Nat., MS ChiaoTung Nat., PhD UNSW, SMIEEEChee Yee Kwok, BSc BE PhD UNSW, MIEEE
LecturersChristiana Beatrice Honsberg, ME PhD Delaware
Professional Officers
Eric Gauja, BSc BE PhD UNSWMichael Taouk, BSc PhD UNSW
Professor and Head of Sclio oiJohn CharlesTrinder, BSurv PhD UNSW, MSc I.T.C. Delft,FISAust
Professor
Bruce Crosby Forster, MSurv Melb., MSc R'dg., PhDUNSW, MISAust, LSVic, MIEEE
Assoc iate Prof esso rs Arthur Harry Wil liam Kearsley, MSurvSc PhD UNSW,MISAustChristopher Rlzos, BSurv PhD UNSWJean Marc Rueger, Diping E.T.H. Zurich, PhD UNSW,
ACSM, LSSwitz, MISAust
Artur Stolz, BSurv PhD UNSW
Senior Lecturers
Bruce Raymond Harvey, BSurv GradDipHEd PhD UNSW,MIS Aust
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10 ENGINEERING
Scho ol of Mec ha nic al an d
Manufacturing Engineering
Incorporates Aerospace Engineering and Naval Architecture
Nuffield Professor of Mechanical Engineering andHead of SchoolBrian Edward Milton, BE PhD UNSW, MSc Birm., CPEng,FIEAust, FSAEA, MRAeS
Professor and Director of laboratoriesGraham Lindsay Morrison, BE PhD Melb., FIEAust
As soci ate Pro fessor and Execut ive A ssis tant toHead of School
Eleonora Maria Kopalinsky, BE PhD UNSW
As so ci ate Pro fessor and Director of Undergr aduate
Studies
Robin Arthur Julian Ford, BScEng PhD Land., CPEng, ACGI, MIEAust
As soc iate Pro fessor and Underg raduate Ad mi ss ions , A dvanced Stand ing Off icer
John Edward Baker, MSc Syd., BE MEngSc PhD UNSW
As soc iate Pro fesssor and Directo r of GraduateStudiesMasud Behnia, BSME, MSME PhD Purdue, PE, CPEng,MASME, MAIAA, FIEAust
Honorary Visiting Professors
George Bennett, BA Syd., PhD UNSW, ASTC, CPEng,FIProdEAlexander Eric Churches BE PhD UNSW ASTC FIEAust
Yefim Kotlyar, BMechEng Moscow Mech. Inst.
Philip Chi Bong Kwok, BE BeijingI nst.Aer.A Astro., CPEng,
MIEAust, MIEEE Alexander Lev Litvak, Dipllng Odessa, MEngSc UNSW,CPEng, MIEAust
Jason Trihung Nhieu, BSc Cheng Kung Nat., MEngScUNSW, CPEng, MIEAustRussell Norman Overhall, BE UNSW, CPEng, MIEAustCharles James Sanderson, BE Syd., MScEng UNSW
Computer Systems Officer
David Alexander Herd, BSc Syd.
Department of Aerospace Engineering
Senior Lecturer and Head of DepartmentJohn Randall Page, BSc Hart., MSc Gran I.T., CPEng,FBIS, MRAeS, MAIAA
Ass oc iate Prof esso r
Donald Wainwright Kelly, BE Syd., PhD Land.
Senior LecturerNoor-e-Alam Ahmed, BSc Strath., PhD Cran. I.T., CPEng,MIMechE
Department of Applied Mechanics
Professor and Head of DepartmentProfessor Eric Joseph Hahn, BE BSc PhD UNSW, CPEng,
FIEAust, MASME
P f
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Department of Fluid and Thermal Engineering Department of Naval Architecture
As soc iate Professo r and Head of Department
Eddie Leonardi, BScEng PhD UNSW, CPEng, MASME,
MIEAust, MASHRAE
ProfessorsB. E. MiltonG. L. Morrison
Ass oc iate Prof esso rs
M. BehniaE. M. Kopalinsky
Senior LecturersIan Lachlan Maclaine-cross, BE Melb., PhD Monash,MIEAust
LecturerRobert Thomas Casey, BE MESc PhD Old.
As sociate Professor and Head of Department
Lawrence Julian Doctors, BE MEngSc Syd, PhD Mich.,
CPEng, FRINA, MSNAME, FIEAustAssociate Professor
Senior Lecturers
Mahiuddin Chowdhury, BScEng Bangl.U.E.T., PhD N'cle(U.K.), Eur Ing, FRINA, MIEAustPhillip John Helmore, BE MEngSc UNSW, CPEng,MIEAust, MSNAME
Centre for Manufacturing and Automation
DirectorDr S. S. Leong
Department of Industrial Technology andManagement
Sir James Klrby Professor of ManufacturingEngineering and Head of DepartmentHartmut Kaebernick, Dipl-Ing Dr-Ing T.U. Berlin, CPEng,FIEAust, SMSME, VDI
As soci ate Professor
Roger Malcolm Kerr, BSc Land., MSc Bath., DPhil Oxf.
Graduate School of BiomedicalEngineering
Professor and Head of SchoolKlaus Schindhelm, BE PhD UNSW, FIEAust., CPEng(Biomed)
As soc iate Professo rsChristopher David Bertram, MA DPhil Oxf.,FIEAust.
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Graduate School of Engineering
Professor and Head of SchoolClifford Patterson, MA PhD Camb., FIEAust, CPEng,
FIMechE, CPhys, FInstP, FIMA, MIEE
Senior Administrative OfficerGeorge John Harris, BA UNSW
MBT Program
Director (Management)
Dr A. J. Robinson
MBT Program
Director (Corporate)Warren Stevens, ACA
Ad mi nis tr at iv e As sis tant sMargaret Elizabeth BrennanNarelle Dickson
Lecturer
Yaping Shao, DIpMet Bonn, PhD Flin.
Shenglln Di, BScEng Hefei, ME Nanjing I.T., PhDS.E.Nanjing
Ad mi ni st rat iv e Assis tant
Lili Shuartono
Li Lin
Centre for Remote Sensing and
Geographic Information Systems
(in association with the Faculty of Applied Science)
Director
Professor B. C. Forster
Centre for Advanced NumericalComputation in Engineering and
Science
(in association with the Faculty of Science)
Professor and Director
Cllve Allen John Fletcher, BScEng Land., MSc Cran.l.T.,PhD Univ.Calif.(Berkeley), CPEng, MRAes, MAIAA
UNSW Groundwater Centre
(in association with the Faculty of Applied Science)
Director
Jerzy Jankowski, MSc PhD Wroc.
Senior LecturerDr R. I. Acworth
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Handbook Guide
This handbook is divided into separate sections for each School/Unit, identified by a four-letter
code (e.g. CIVL, School of Civil Engineering). This code appears on the top right corner ofeach page relating to the School/Unit. Each School/Unit section is divided into Undergraduateand Graduate Study and includes course outlines and subject descriptions.
Read the opening sections of the handbook first, and then read the information containedunder Summary of Courses (Undergraduate or Graduate as appropriate). These sectionscover all degrees and diplomas offered by the Faculty. Detailed information on each subjectthen appears under Subject Descriptions, which Includes session/s offered, pre/corequisitedetails, class hours, credit point value, etc.
You will find that almost any course of study you wish to undertake has subjects from other
Schools, and even other Faculties. This means that in your engineering course, subjects are listedfrom other Schools in the Faculty of Engineering, each with their own identifying code, as well asfrom the School in which you are planning to do a course. If, for example, this is Mechanical andManufacturing Engineering (MECH), all the subjects for Mechanical and ManufacturingEngineering are described in the section for that School. As Mechanical and ManufacturingEngineering also includes Aerospace Engineering (AERO), Manufacturing Management (MANF)and Naval Architecture (NAVL) these subjects are also included with the School. If they areElectrical Engineeering (ELEC), Computer Science and Engineering (COMP), Civil Engineering(CIVL) or Geomatic Engineering (GMAT) subjects, then descriptions for these subjects will be
located in the appropriate School section which has that particular identifying number. Any subject which is not an Engineering subject (i.e. a subject offered by another Faculty, but
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Information Key
The following key provides a guide to abbreviations used in this book:
CP credit pointsF full year (Session 1 plus Session 2)HPW hours per week
L lecture
P/ T part-timeSI Session 1S2 Session 2
SS single session, but which session taught is not known at time ofpublication
T tutorial/laboratoryU unit value
WKS weeks of durationX externalXI summer session
Prefixes
The identifying alphabetical prefixes for each organisational unit offering subjects to studentsin the Faculty of Engineering follow.
Prefix Organisational Unit Faculty/Board
ACCT School of Accounting Commerce & Economics
AERO School of Mechanical and ManufacturingEngineering Engineering
ANAT School of Anatomy Medicine
ANCE Centre for Advanced Numerical Comput-ation in Engineerig and Science Engineering/Science
BIOM Graduate School of Biomedical Engineering Engineering
BIOS School of Biological Science Biological & Behavioural Sciences
FACULTY INFORMATION 15
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Prefix Organisational Unit Faculty/Board
MATH School of Mathematics Science
MATS School of Materials Science & Engineering Applied Science
MECH School of Mechanical & ManufacturingEngineering Engineering
MINE Department of Mining Engineering Applied Science
NAVL School of Mechanical and ManufacturingEngineering Engineering
PHPH School of Physiology and Pharmacology Medicine
PHYS School of Physics Science
PLAN School of Town Planning ArchitecturePOLS School of Political Science Arts & Social Sciences
POLY Department of Polymer Science Applied Science
SAFE Department of Safety Science Applied Science
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Faculty Information
Some People Who Can Help You
If you require advice about enrolment, degreerequirements, progression within courses, subject contentand requirements, contact the appropriate schoolrepresentative listed below:
School of Civi l Engineering: Ms K. Irvine, Room 406, CivilEngineering Building.
School of Computer Science and Engineering:Dr G.R. Whale or Mr 0. Flatters, School Office, Room 313,Electrical Engineering Building.
School of Electrical Engineering: Dr T. Hesketh,G6, orMs A. G. M. Johnson, School Office, Electrical EngineeringBuilding.
School of Mechanical and Manufacturing Engineering:Dr E.M. Kopalinsky, Room 105B, or Mr A.D. Bauman,
Course Prerequisites
Mathematics2u (60-100)2u and 3u (100-150)3u and 4u (100-200)
Addi tional subject prerequisi tesMathematics2u (90-100)
and
English2u Contemporary (60-100)2uG (53-100)2u (49-100)
3u (1-50)and
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Enrolment Procedures
All students re-enrolling in 1997 or enrolling in graduatecourses should obtain a copy of the free leaflet Re-Enrolling
1997 available from School offices and the Student Centre.This leaflet provides detailed information on enrolmentprocedures and fees, enrolment timetables, enrolment inmiscellaneous subjects, locations and hours of Cashiersand late enrolments.
Re-enrolment forms must be lodged with the appropriateSchool Office by the start of the third week in the precedingDecember. Enrolment at the University will not beauthorised until the re-enrolment form has been checked
and the program approved. Students not intending tore-enrol should advise the School. Leave of absence for upto one year is usually granted to students in good standing.It is the responsibility of students to enrol in a programconsistent with the rules governing re-enrolment andadmission to the degree.
Computing at UNSW
The Division of Information Services (DIS) encompassesinformation technology and the University Library atUNSW.
Specific University information which is frequently updatedis available on the World Wide Web (WWW) in the UNSWhome page at http://www.unsw.edu.au which has anindex to its contents which includes URLshttp://www acsu unsw edu au and http://www mlsu
Friday and 12.00 pm to 5.00 pm Saturday and Sunday.During vacations, these hours will vary.Staff assisted services are available after 10.00 amincluding help with catalogue, CD Roms, inter-library loans,maps and online searching. An information skills program
is in place with emphasis on developing basic informationaccess and management skills for first years and advancedskills for final year and postgraduate students.The Library's catalogue and selected CD-Rom databasesare available over the Campus Wide Network.
Student Clubs and Societies
Students have the opportunity of joining a wide range ofclubs and societies. Many of these are affiliated with theStudents' Union. There are numerous religious, social andcultural clubs and also many sporting clubs which areaffiliated with the Sports Association.Clubs and societies seeking to use the name of the
University in their title, or seeking University recognition,must submit their constitutions either to the Students' Unionor the Sports Association if they wish to be affiliated witheither of these bodies, or to the Academic Registrar forapproval by the University Council.
The following societies serve the interests of students in thevarious courses in the Faculty of Engineering: BiomedicalEngineering Society (BioEngSoc); Civil EngineeringSociety (CIVSOC); Computing Science Association (CSA);Electrical Engineering Society (ELSOC); Mechanical
Engineering Society (MECHSOC); Naval ArchitectureStudents' Association (NASA); Geomatic Engineering
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Student Equity
The University of New South Wales is committed toproviding an educational environment that is free fromdiscrimination and harassment. Both commonwealth andstate anti-discrimination law requires the University not to
discriminate against students or prospective students onthe following grounds: sex, race/ethnicity, age, disability,sexual harassment, racial harassment, disabil ityharassment, marital status, pregnancy, sexual preference,HIV/AIDS. Also included are acts of vilification on thegrounds of: race and HIV/AIDS.
Complaint/DisputesThe University has internal dispute handling procedures todeal with complaints against staff or other students. TheDiscrimination and Harassment Grievance Procedures arehandled by the Student Equity Unit of the Equal
Employment Opportunity Unit. Complaints that largelyconcern academic matters are usually handled through theHead of School.
Adv ocacy and Supp or t
Students can seek assistance getting disputes resolved,either in relation to discrimination or academic matters.
Assistance can be sought from var ious areas in the
University Including:
Student Equity Unit; Student Guild Advocacy Service;
Student Counselling; Equal Employment Opportunity Unit;
Course Co-ordinators; Senior Academic Staff; Heads of
School.
Students may be confident that their interests will be
protected by the University if a complaint is lodged. Thismeans that students should not be disadvantaged or
course design, curriculum content, classroom environment,
assessment procedures and other aspects of campus life
which will provide equality of educational opportunity to all
students.
Special Admissio ns SchemesThe University will encourage the enrolment of studentswho belong to disadvantaged groups through programssuch as the University Preparation Program and the
ACCESS Scheme. Where members of disadvantaged
groups are particularly under-represented in certaindisciplines, the responsible faculties will actively encouragetheir enrolment.
Support of Disadvantaged Students
The University will provide support to assist the successfulcompletion of studies by disadvantaged group membersthrough such means as the Aboriginal Education Program,the Supportive English Program and the Learning Centre.It will work towards the provision of other resources, such
as access for students with impaired mobility, assistanceto students with other disabilities, the provision of a parents'room on the upper campus, and increased assistance withEnglish language and communication.
Course Content, Curriculum Design, Teaching and Assessment, and Pr in ted Mater ialSchools and faculties will monitor course content (including
titles), teaching methods, assessment procedures, writtenmaterial (including study guides and handbook andCalendar entries) and audiovisual material to ensure thatthey are not discriminatory or offensive and that theyencourage and facilitate full participation in education bydisadvantaged people.
Equal Opportunity Adviser SchemaTh U i it ill ti it E l O t it Ad i
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Professional Institutions
1. The Institut ion of Engineers, Australia
The professional body for engineering in Australia is theInstitution of Engineers, Australia (lEAust), which has as itsfirst objective 'to promote the science and practice ofengineering in all its branches'.
The lEAust has its national headquarters in Canberra andfunctions through a series of divisions, the local one beingthe Sydney Division. Within each division are branchesrepresenting the main interests within the profession, egcivil, mechanical, electrical, engineering management and
environmental engineering.
Students of an approved school of engineering may join theInstitution as a student member (StudlEAust). Studentmembers receive the fortnightly publication Engineers,
Australia and for a small fee they also receive TheTransactions which contains articles on a particular branchof engineering.
Student members are invited to participate In theExcellence Award for Work Experience, the National Young
Engineer of the Year Award and to avail themselves of otherlEAust services including the Mentor Scheme and industrialexperiences guidance.
For more information and membership application forms,write to The Secretary, The Institution of Engineers, Australia, Sydney Division, 1st Floor, 118 Alfred Street,Milsons Point 2061.
2. The Institution of Surveyors, Australia
During their years as undergraduates students in the
the annual Congress at a special concessional rate.Membership application forms are available at the office ofthe School of Geomatic Engineering and from the InstitutionOffice, Third Floor, Guild House, 363 Pitt Street, Sydney2000.
The Association of Professional Engineers,Scientists and Managers, Aust ralia
APESMA is a professional organisation that represents theindustrial interests of its members with a major focus onproviding advice and assistance on employment relatedmatters, including individual representation and improvingsalaries and conditions for professional engineers,
scientists and managers.Students are invited to become affiliate members (free ofcharge) of the Association while they are studying. Thismembership gives students access to information andadvice on industrial experience, salary rates for graduatesand contracts of employment. Student members receiveThe Student Update, a publication designed specifically forstudents, three times a year. This gives students somepractical insight into aspect of the workplace to which theymay not have given much thought, in particular theemployment issues that affect them as professionalengineers. More information and student membershipapplication forms can be obtained from APESA, Level 1,491 Kent Street, Sydney 2000, Telephone 264 9500.
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Undergraduate StudySummary of Courses
The Faculty of Engineering offers the followingundergraduate courses:
Bachelor of Engineering
BE
in: Aerospace Engineering 3610Civil Engineering 3620Computer Engineering 3645Electrical Engineering 3640Environmental Engineering 3625Geomatic Engineering 3741Manufacturing Management 3663Mechanical Engineering 3680Mechatronic Engineering 3685N l A hit t 3700
Mechanical Engineering 3681Mechatronic Engineering 3685Naval Architecture 3701
Baclielor of Engineer ing Bacheior of Arts
BE BA
(5 years duration) in: Aerospace Engineering 3612Computer Engineering 3722Electrical Engineering 3720Manufacturing Management 3665Mechanical Engineering 3682Mechatronic Engineering 3687Naval Architecture 3702
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Concurrent Degree Courses
Full-time courses are available for the award of thefollowing degrees:
Bachelor of Engineering Master of BiomedicaiEngineeringBE IMBiomedE
(5 years duration) in:Computer Science and Engineering 3728Electrical Engineering 3727Mechanical Engineering 3683
Engineering Courses in the Faculty of
Applied Science
The University of New South Wales is unique in that there
are two faculties offering undergraduate engineeringdegrees. In addition to the courses offered by the Facultyof Engineering, the Faculty of Applied Science offers thefollowing undergraduate engineering degrees:
Bachelor of EngineeringBE
Bloprocess Engineering 3055Ceramic Engineering 3025Chemical Engineering 3040F l d E E i i 3040
engineering applications area provides the opportunity forapplying knowledge to the solution of problems and isconsequently emphasised later in the course. A feature ofthe courses at the University of New South Wales is theinclusion of a program of General Education, the
requirements for which are set out below.Basic Sciences consist of Mathematics, Physics and someChemistry. Engineering Science subjects are those whichprovide the theoretical basis for engineering applications.These include Applied Mechanics, Fluid Mechanics,Electronics, Electricity, Thermodynamics, StructuralMechanics, Materials Science. Engineering Applicationsinvolve Innovation and Design, Systems and Control,Production, Technical Communication, EnergyConversion, Management. General Education subjectsserve to provide both an introduction to the environmentsin which humans function - physical, biological,socio-economic, and technological - and an introduction tothe cultural bases of knowledge and belief.
Co-op ProgramThe University's Co-op Program in the Faculty ofEngineering consists of industry-linked, five-year coursesin Aerospace Engineering, Civil Engineering, ComputerEngineering, Electrical Engineering, EnvironmentalEngineering, Manufacturing Management, MechanicalEngineering, Mechatronics Engineering and Naval
Architecture.
Co-op scholars are selected largely on the basis ofacademic attainment, personal skills and motivation as well
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Formal advanced standing procedures apply for entry intothe following Bachelor of Engineering (BE) courses at theUniversity of New South Wales with full credit.
B E in Aerosp ace Engineer ing
Students who satisfy the requirements of the first two yearsof the Mechanical Engineering full-time degree course atany other Australian university may be admitted to atwo-year program leading to the Bachelor of Engineeringdegree in Aerospace Engineering (years 1 and 2 of thiscourse are identical with the first two years of the course inMechanical Engineering).
B E in Navai Arci i i tectureStudents who satisfy the requirements of the first two yearsof the Mechanical Engineering full-time degree course atany other Australian university may be admitted to the finaltwo years of the Bachelor of Engineering degree course inNaval Architecture. (Years 1 and 2 of this course areidentical with the first two years of the course in MechanicalEngineering.)
B E in AerospaceB E in iManufacturing lUlanagementB E in iViectianicai Engi neerin gB E in Navai Arci i i tecture
Students studying at the Charles Sturt University, WaggaWagga, may be admitted to Year 2 of the above coursesafter satisfactorily completing the one-year Bachelor ofEngineering Transfer Program (KSZ) at Wagga Wagga.
B E in Eiectricai Engineering
minimum number of years. Students are not permitted toenrol in subjects witti clashing timetables.
2. Students must satisfy the rules governing re-enrolment:in particular, these require students enrolled in the Year 1of a degree program to pass in at least half that program.
Students are also required to show cause why they shouldbe allowed to repeat a subject which has been failed morethan once. Students are also required to show cause whythey should be allowed to continue with their course If theiraverage mark in a year of study falls below 50%.
3. Students must satisfy the relevant prerequisite andcorequisite requirements. This will usually necessitatestudents completing or attempting all subjects of aparticular year or stage before proceeding to a subject in
the next part of a course. Further details are available fromthe appropriate school.
4. Only in exceptional circumstances will students bepermitted to enrol in subjects extending over more than twoyears of the course or for more than twenty-eight hours ofcourse work per week if a full-time student or fourteen hoursper week if a part-time student. Students repeating subjectsare required to choose a program which limits their hoursof course work to twenty-two per week if a full-time student,and to eleven per week if a part-time student, unless theyhave the express permission of the Head of School toexceed these hours. Previously failed subjects must beincluded, except that a failed elective may be replaced byanother elective.
5. Notwithstanding the above, before students can enrol inany non-standard program such program must meet withthe approval of the Head of School. A non-standardprogram is one which involves enrolment in subjects frommore than one year or stage, or comprises subjects which
do not normally constitute a particular year's course work.
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Prerequisites and Corequisites
A prerequisite unit Is one which must be completed priorto enrolment in the unit for which it is prescribed.
A corequisite unit is one which must either be completedsuccessfully before or be studied concurrently with theunit for which it is prescribed.
Industrial Experience Requirements
All students must complete at least 60 working days ofapproved industrial experience (or professional practice inthe case of Geomatic Engineering students) prior toenrolment in the final year of their course. The award of thedegree is dependent on the completion of the requisiteperiods of industrial employment at a standard approvedby the University.
Students enrolled in Bachelor of Engineering courses in theSchools of Civil Engineering, Computer Science and
Engineering, Electrical Engineering, and Mechanical andManufacturing Engineering are required to enrol inIndustrial Training subjects. Geomatic Engineeringstudents enrol in a professional practice subject. Schools'entries under Course Outlines and Subject Descriptionsshould be consulted for details of subject requirements.
Computing Requirements
General Education Program
UNSW requires that all undergraduate students undertakea structured program in general education as an integral
part of studies for their degree. The University believes thata General Education complements the more specialisedlearning undertaken in a student's chosen field of study andcontributes to the flexibility which graduates areincreasingly required to demonstrate. Employersrepeatedly point to the complex nature of the modern workenvironment and advise that they highly value graduateswith the skills provided by a broad general education, aswell as the specialised knowledge provided in morenarrowly defined degree programs. As well, over many
years graduates of this University have reported that theygreatly valued their General Education studies, which arefound to be relevant to both career and personaldevelopment.
The General Education Program at UNSW intends tobroaden students' understanding of the environment inwhich they live and work and to enhance their skills ofcritical analysis.
Objectives of the General Education Program
The following objectives were approved by the Council ofthe University in December 1994.
1. To provide a learning environment in which studentsacquire, develop, and deploy skills of rational thought andcritical analysis.
2. To enable students to evaluate arguments andinformation.
3. To empower students to systematically challengei d di i f k l d b li f d l
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General Education Requirements
The basic General Education requirements are the samefor students in all single degree courses. Over the courseof a degree program students:
• satisfactorily complete a minimum of 30 credit points ofstudy in General Education subjects or their equivalent;
• undertake an additional fifty-six (56) hours of study which
ensures that students examine the purposes andconsequences of their education and experience atuniversity, and fosters acceptance of professional andethical action and social responsibility. This fifty-sixhours of study may be distributed throughout the course,or exist as a separate subject, depending on the course.
Because the objectives of General Education requirestudents to explore discipline and paradigm bases other
than those of their professional or major disciplinaryspecialisation, all students are excluded from countingsubj ects toward the fulf ilment of the General Educ ationrequirement, which are similar In content or approachto subjects required In their course.
Facuity Requirements
Each Faculty has responsibility for deciding what subjects
are nof able to be counted towards the General Education
requirement for their students. The Faculty of Engineering
is committed to providing the widest range of choice of
general education electives for its students. It strongly
encourages students to make the best use of this flexibility.
In general, the only restrictions, apart from the usual need
for prerequ isite knowledge, on the choice of subjects is that,
in all but exceptional circumstances, students may not take
subjects offered by the Faculty of Engineering, or by
From the summer session of 1995-96, students will be
required to satisfy the unfilled portion of their General
Education requirement under the terms of the new
Program.
The exemption of General Education requirements for
some double or combined degree programs will continueto apply for students who enrolled in these exempt courses
prior to 1996.
Conditions for the Award of the
Degree of Bachelor of Engineering1. A candidate for the award of the degree of Bachelor ofEngineering shall:
(1) comply with the requirements for admission;
(2) follow the prescribed course of study in the appropriateSchool, and satisfy the examiners in the necessary
subjects;
(3) complete an approved program of industrial training(professional practice in the case of Geomatic Engineeringcandidates) for such periods as are prescribed. In general,this training must be completed before 31 January in the
year in which the degree is to be awarded.
2. During each year a student shall perform laboratory,drawing office and field work, attend demonstrations andexcursions to such an extent and in such a manner as isprescribed from time to time by the Academic Board on therecommendation of the Faculty. Those students who are
required to undertake field work for any subject must bed t th i t t d b i tt d
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Graduate Study
Summary of Courses
The Faculty awards higher degrees as follows: Research -Doctor of Philosophy, Master of Engineering and Master ofScience; Course Work Masters - Master of BiomedicalEngineering, Master of Cognitive Science, Master ofComputer Science, Master of Engineering Science(available in a number of areas of specialisation). Masterof Environmental Engineering Science and Master ofInformation Science. In addition, the degrees of Doctor ofScience and Master of Science may be awarded forresearch conducted in, or in association with, the Facultyof Engineering.
The Graduate School of Engineering is responsible for theMBT Program which is a joint initiative of the Faculties of
Applied Science and Engineering. The two courses offeredthrough this special unit are the Master of Business and
Technology, and the Graduate Diploma in IndustrialM t ( G d t S h l f E i i ti
component of the tests listed below is stronglyrecommended.
Minimum Acceptable Score
1. The Test of English as a Foreign Language (TOEFL)
550*
2. International English Language Testing Service (lELTS)6.0
3. Combined Universities Language Test (CULT) 65%4. Indonesia-Australia Language Foundation (IALF)*Cat 1or 2. Cat 3 may be accepted if current English programavailable.5. English for Academic Purposes C.
• Research students must have a writi ng score of 5 as well as 550
in TOEFL
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Doctor of Philosophy
PhD
This degree is awarded for a thesis considered to be a
substantially original contribution to the subject concerned.The degree is becoming a prerequisite for researchappointments in government and industrial research anddevelopment laboratories. Research for this degree maybe taken at, or externally to, the University. However theFaculty recommends that periods of residency at theUniversity totalling at least six months be included in thecandidate's research program.
Admission Guidelines: A candidate for registration for the
degree of Doctor of Philosophy should hold an honoursdegree from the University of New South Wales or anhonours degree of equivalent standing from anotherapproved university. Applications for admission should bemade to the Registrar on the prescribed form at least onecalendar month before the commencement of the sessionin which registration is to begin.
Period of Candidature: The normal period is six academicsessions (full-time) and eight academic sessions(part-time) from the date of enrolment. In special cases theminimum period of registration may be reduced by up totwo academic sessions. The maximum period ofregistration is ten academic sessions (full-time) and twelveacademic sessions (part-time). In special cases anextension of these times may be granted.
Concurrent Courseworic All new PhD candidates in theFaculty of Engineering must complete and pass threesubjects as approved by the Head of School, normally inthe first year of candidature.
Concurrent Courseworic All new Masters researchcandidates in the Faculty of Engineering must completeand pass three subjects as approved by the Head ofSchool, normally in the first year of candidature.
Course Work Masters Degrees
Course work programs: Detailed information on coursework programs is available from the schools offering thecourses and can be found in this Handbook under theappropriate School section.
Admission Guidelines: An acceptable qualification is adegree at Honours level, or at Pass level to a superiorstandard in a four-year course in an approved discipline.The latter Is defined as an average of 65% over the last twoyears of a full-time course (or last three stages of a part-timecourse) taken in minimum time. If the degree concerned isnot in an acceptable discipline, or was of less than fouryears full-time study, a bridging or qualifying program isrequired. This is normally arranged by enrolment in the
appropriate graduate diploma with the possibility oftransferring to the Masters program after completion ofrequirements prescribed by the Faculty.
Applicants for admission to a course of study leading to theaward of a Masters degree by course work commencing infirst session should apply to the Registrar on the prescribedform by the 31 st October of the year before the year in whichenrolment is to begin. Where application is for registrationcommencing In the second session, applicants shouldapply at least two months before the commencement ofsession.
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Remote Sensing 8641Structural Engineering 8612.3000Transport Engineering 8612.4000Water Engineering 8612.5000Waste Management 8612.5100
MEnvEngScCivil Engineering 8615
MInfSc
Computer Science and Engineering 8508
MTM
Master of Technology Management 8007*
External Mode Delivery
All external courses are offered only on a full fee payingbasis.
MEngScEngineering Construction and Management 8617Waste Management 8614Water and Wastewater Treatment 8614Groundwater Investigations and Management 8614
MEnvEngSc
Civil Engineering 8618
MBTBusiness and Technology 8616
'Fee paying course for which the course authority is the Faculty ofApplied ScierKe
Master of Engineering Science MEngSc
and eight academic sessions (part-time). In special casesan extension of time may be granted.
Graduate Diplomas
Courses of study leading to the award of a Graduate
Diploma in the Faculty of Engineering provide graduateswith opportunities to extend their professional knowledge.In most cases, candidates may choose from a range of
subjects in the special area of their choice. There are alsoopportunities to select subjects from other professional
areas in which candidates may be interested.Before enrolment, an applicant should submit an intendedprogram for approval by the school or centre offering the
majority of the credit points. Candidates must usuallycomplete a program totalling 96 credit points. The program
may contain subjects from other schools of the Faculty,other faculties of the University and other universities orinstitutions subject to meeting the prerequisite
requirements.
If an applicant nominates a course of study taken from thelist below, at least half of the credit points should come fromthe subjects taken in that area.
It should be noted that some candidates who have partiallycompleted or who have completed the requirements but nottaken out the diploma may be considered for upgrading tothe relevant Master program with advanced standing. Sincethe policy on upgrading varies between different schoolsand centres, further enquiries should be made with the
school or centre concerned.A li t f d i i t f t d l di t th
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Land Administration 5493
Mechanical Engineering 5456
Remote Sensing 5496
External Mode Delivery
Ail external courses are offered only on a full fee payingbasis.
Graduate Diploma in EngineeringEngineering Construction and Management 5454.1500Waste Management 5498Water and Wastewater Treatment 5498Groundwater Investigations and Management 5498Further details of the recommended programs of study maybe obtained from the course authorities concerned.
Graduate Subjects
The subjects which may be available for candidatesproceeding to the award of the degree of Master of
Biomedical Engineering, Master of Computer Science,Master of Engineering Science, Master of EnvironmentalEngineering Science, Master of Information Science, andGraduate Diploma can be found in each School section.Not all electives are necessarily offered in any particularyear.
Under the credit point system in operation in the Faculty,one credit point is normally equal to one hour's attendanceper week for one session. The qualification 'normally' isrequired because of the varying ways in which credit points
are distributed for course work, design, critical review orh i th diff t h l
Research and Project Areas
Biomedical Engineering
Analysis of patient therapies Arterial haemodynamics Arterial morphometry Artificial blood vessels Automatic modulation of cardiovascular functionBioactive materials
Biocompatibility: tissue/materials interactionsBiomaterialsBiomechanics of jointsBiomedical instrumentation and computer acquisitionBiomedical polymersBioprosthesesCardiovascular effects of bodyCell separation technologiesComputer-aided histological analysisEndothelial cell/biomaterial interactions
Extracorporeal therapiesFlow in collapsible tubesFlow visualisation and measurementImplantable sensorsInfection associated with medical devicesIn vivo mechanisms of polymer degradationMechanisms of age related arterial degradation andhypertensionMedical image processing
Modelling of artificial kidney therapyModelling of cardiac electrical potentials
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Environmental Modelling
Atmospheric dynamicsNumerical weather prediction
Climate variability Atmosphere-ocean interactions
Atmospheric Boundary layer studiesMeso-scale numerical modelling Atmospheric-Land interactionsWind erosion, soil moisture and wind breaks
Air quality
Finite Element Structural AnalysisMechanical and manufacturing engineeringLarge-scale static, dynamic and nonlinear FE analysis
Constitutive modelling for metals, adhesives and carbonfibre compositesComputational fracture mechanicsMaterial properties via inverse FE analysisBiomedical analysis
Ad ap tive so lut ion me th od ol og y and spar se matr icalgorithms
Civil and Environmental Engineering
Concrete TechnologySpecification and quality control of concreteInvestigation of alternative cementitious materialsExamination of pozzolanic potential of indigenous materialsUtilisation of industrial waste materials in concreteChemistry and mineralogy of cement and lime stabilisationDurability of concrete
High strength and high performance concreteDuctility of concrete through the use of polymer fibres
Construction managementProject management
Contracts, quality and risk managementManagement of people
Engineering economics. Financial management
Time management. Asset management. Maintenancemanagement
Marketing, strategic management
Environmental Fluid Mechanics
Two-fluid systems with small density differencesPollutant dispersionStratified flowsPhysics of inland and coastal watersTurbulence in water bodies and the atmosphere
Atmosphere/ocean interactionsComputational algorithmsNumerical modelling
Environmental Microbiology
Microbiology of waste treatment (including composting).Environmental pathogensWastewater recycle
Geotechnicai EngineeringShear strength of jointed rock, soft rock and clay soilsExpansive soils
Mine tailings disposalUncertainty in geotechnicai engineeringRisk assessment for slopes and dams
Landfill designContaminant transportSite remediationEmbankment damsLandsliding - groundwater response to rainfall, progressivefailure, probability of failure
Influence of soil fabric and mineralogy on propertiesPredicting excavatibility of rock
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Numerical Methods In GeomechanlcsFinite element techniques and their applications ingeotechnical engineering including static and dynamicloadingNumerical modelling of contaminant flow and flow infractured and porous media
Numerical modelling of partially saturated flow
Numerical techniques in static and dynamic fracturemechanics and damage mechanics
Appl icat ion of artif icial intell igence and fuzz i-sets in
geotechnical engineering
Pavement EngineeringIndustrial and airport pavementsPavement management and rehabilitationlnterlocl
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Deductive DatabasesDistributed Database Data ModellingDistributed Database SystemsDistributed Operating SystemDistributed SimulationDocument AnalysisExpert Systems
Fault Tolerant Computer SystemsFinancial Applications of Neural NetworksFormal MethodsFormal Methods of ReasoningFunctional ProgrammingFunctional ProgrammingFuzzy DatabasesFuzzy Systems and Evidence Theory
Graph-theoretic AlgorithmsHuman Computer InteractionHeterogeneous ComputingMensurational Modelling
Image ProcessingImage ProcessingImplementation & Performance Modelling
Information RetrievalInformation Retrieval/FilteringIntegrated Circuit Design and Logic TestingKnowledge AcquisitionKnowledge Based SystemsKnowledge Extraction from Training Neural NetworksLanguagesLearning AlgorithmsLearning TheoryLogic ProgrammingLogic Programming SystemsMachine Learning
Management of Uncertainty and Possibility TheoryMicroprocessor Based Equipment
Program SimilarityProgram TransformationProgramming EnvironmentsProgramming Language ImplementationQuery Language Testing
Query ProcessingReal Time SystemsReverse EngineeringRoboticsScientific ComputingSignal RecognitionSemiconductor Device SimulationSoftware EngineeringSoftware EngineerinSoftware Project Management
Software Process ImprovementSpecification and Development of Concurrent SystemsSpecification and RefinementSpecification and Verification of Real-Time ConcurrentSystemsTheory of ComputationTemporal LogicTheory of Database SystemsVirtual EnvironmentsVisualisation
VLSI Systems
Electrical Engineering
Communications
(i) Optical Communications
Optical communicationsO ti l fib d i t t d ti
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Network reliability and service availability
BISDN, ATM protocols
(vi) Communications Systems
Radar and navigational aids
Land & Satellite Mobile Communications
Mobile satellite communicationsElectric Power(i) Power SystemsPower System analysisPower System ProtectionStability,Dynamics and ControDistribution System Planning and OperationOptimisation of Hydro-electric Power SystemsElectromagnetic Transient Analysis
Static VAR CompensationPower System Planning and EconomicsLoad Management and ControlRenewable Energy Sources Photovoltaic SystemsRemote area supplyHarmonicFlexible AC Transmission System
(ii) Electrical Power Equipment and UtilizationHigh Voltage and high current phenomenaInsulating material application
Voltage disturbances in LV and MV systemsElectrical measurements and data acquisitionElectrical machines and drives
Arcing fault characteristicsPartial discharge detection and locationGaseous discharges and insulationEquipment for hazardous almospheresSynthetic loading of machinesComputer aided teachingElectrical machine modellingElectrical safet
Systems and Control
Multivariable Control, simulation, modelling, expertsystems in control design, advanced control of power plant,computer aided design and optimal control
Cybernetic engineering and advanced robotics: signal,
pattern, image and scene, analysis and processing, brainmodelling, neural computing and learning machines, visionrobotics and assembly, adaptive control, hierarchicalcontrol, formal systems and functional representation
Robust control, computation issues in control, adaptive
control
Adaptive and mult ivariable systems, mult irate control,robust digital control, robust digital control, motion controlsystems
Digital and adaptive control, real-time computing,multivariable control
Biomedical engineering, biological signal analysis,physiological systems modelling and analysis, computerhardware and software, data acquisition, signal processingecg analysis
Control and simulation, digital system and digital signalprocessing, physiological system modelling, biologicalsignal processing, computer modelling of information
processing, neural computing and learning machines,adaptive control
Robust adaptive control Theory and Applications, Robotcontrol. Fuzzy control systems. Neural Networks foridentification and control, Multirate digital control systems.
Adaptive noise cancellation. Process control systems
Geomatic Engineering
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Precise GPS navigationQuality issues in land information systemsGPS Data ManagementRadar altimetric analysis for oceanography
Remote sensing
Satellite geodesySurvey network adjustmentVoice recognition for surveying instruments
Mechanical and Manufacturing Engineering
Aeros pace Engi neeri ngComposites
Finite element analysisFatigue, fracture mechanics and damage toleranceComputational aerodynamics
Unsteady boundary layersTurbulenceLaser anemometryFlow simulationCompressor aerodynamics
Design of aircraft Aerospace CAM/CA
Initial project design Aerospace policy studiesDistributed logic satellite control systems
App lied Mechani csMechanics of solidsStress analysisFracture mechanicsImpact mechanicsSpatial and planar linkages
Pyrolysis and fires modellingRefrigeration and air conditioning
Slurries and conveying of solid dust by gasesSolar energy
Two-phase flow with and without heat transfer
Industrial Technology and ManagementProduction planning and controlJob sop scheduling
Arti ficial intel ligence in manufacturing managementExperimental and theoretical investigations of thefollowingprocesses: machining, electricdischarge
machining, laser cuttingPerformance of single and multipointDr Mathewcuttingtools including tool life andeconomics of machiningProperties of materials at highrates of strain
Engineering design analysis and tolerance technologyQuality function deploymentMetrology studies
Flexible fixtures Applicat ions of genetic algori thms and neural nets inmanufacturing
Intelligent control of manufacturing systems
Design for manufactureEcologically sustainable manufacturing techniques
Cellular manufacturing strategiesConcurrent engineeringCAD/CAMComputer-integrated manufacturing
Machine vision for manufacturing inspectionPerformance measuresQuality managementHuman factors in technology and society
Mechatronics
Applicat ions of Al in engineering
Computer interfacing
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Remote Sensing and CIS
Incorporation of auxiliary data into classification proceduresUrban Area studiesMonitoring land use change using remotely sensed data
Determining the characteristics of surface reflectanceAnalysis of image and map qualityApplication of satellite imagery to small scale mappingMultispectral linear transformationsApplication of spaceborne synthetic aperture radar dataApplication of aircraft and satellite data to arid land studiesApplication of satellite data to geological studiesSynergism of radar, visible and infrared remotely senseddata
Analysis of high resolution SPOT and Landsat TM dataApplication of remote sensing to pollution andenvironmental monitoringArtificial intelligenceForest inventory and monitoringVisualisation
MultimediaAnalysis of errors in DEM determination from radarinterferometryDevelopment of a geographic information probabilitysystem (GIPS)Vertical topology in GISQuality issues in hydrographie information systemsGIS in transport planning
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School of Civil Engineering
Head of SchoolProfessor R.I. Gilbert
Executive Assistant to Head of SchoolMr G.R. Mostyn
Senior Administrative OfficerMs K.M. Irvine
The School consists of five departments: Engineering Construction and Management (civilengineering systems, engineering economy, project planning and management and civilengineering construction); Geotechnicai Engineering (foundation, rock, dam and pavementengineering, geomechanics and environmental geomechanics); Structurai Engineering(structural analysis, structural design and concrete and materials technology); TransportEngineering (planning, design and operation of transport systems, statistical analysis, landuse and transport modelling, economic evaluations and environmental impact studies); WaterEngineering (hydraulics, hydrology, water resources, waste management and public healthengineering).
Within the five departments the School has a broad spectrum of expertise in the disciplines
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Five-yearfull-timecombined courses3730 leadingtotheawardofthedegreesofBachelorofEngineering inCivilEngineeringand Bachelor ofScienceareoffered.Five-year full-timecombined courses 3621 and 3626 leading to the award of the degrees of Bachelor ofEngineering inCiviland Environmental Engineering, respectively,and Bachelor ofArts (BEBA)willbeIntroducedforthefirsttimein1997.
ThereareformalgraduatecoursesleadingtotheawardofthedegreeofIVIasterofEngineeringScience8612, Master ofEnvironmental Engineering Science8615, andalsothe GraduateDiploma in Engineering 5459. These courses are available in specialist areas including,computationalengineering,engineeringconstructionandmanagement,projectmanagement,construction management, environmental engineering, coastal engineering, geotechnicalengineering,groundwater investigationsandmanagement, hydrologyandwater resources,publichealthengineering,structuralengineering,transport engineering,wastemanagement,waterandwastewater treatment,waterqualitymanagement andwaterengineering.WithintheMasterofEngineeringScienceandGraduateDiplomacourses,studentsmayundertakeconstructionmanagement,projectmanagementandwastemanagementbydistancelearning.
Feesarepayableforthedistancelearningcourses.
OpportunitiesareprovidedforgraduateresearchleadingtotheawardofthedegreesofMasterofEngineering2650,MasterofScience2750andDoctorofPhilosophy 1630.
Undergraduate Study
Course Objectives
ThebroadobjectiveoftheSchool'sundergraduatecoursesistodevelopwelleducatedgraduateswiththebasicskills,a t tr ibutes and knowledge requi red to practise asprofessional engineers. The desired skillsare those thatenablegraduatestobe:-
• problem solvers
• criticalthinkers
Industrialtraininghasanominalvalueof3sessionhours.For combined degree courses only the standard CivilEngineering subject resultsareused inthecalculation.Aweighted average mark of 65-69 w il l resul t in arecommendation tor Honours 2/2. A weighted averagemarkof70-74willresultinarecommendationforHonours2/1.Aweightedaveragemarkof75andabovewillresultinarecommendationforHonours1.
Recognition
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Course Out l ines
Civil Engineering offers opportunities to become involvedin projects which enhance the overall quality of life. Civil
engineers design, construct, manage, operate andmaintain the infrastructure that supports modern societyincluding buildings, bridges, roads and highways, tunnels,airfields, dams, ports and harbours, railways, new mines,water supply and sewerage schemes, Irrigation systemsand flood mitigation works. The profession is very broadand affords opportunities for involvement in many specialistactivities.
3620
Civ i l Engineer ing - Ful l - t ime Cour se
Bachelor of Engineer ing
BE (Civi l)
New course curriculum introduced for students
commencing from 1996.
HPW
SI S2
C P
HPW
S1 S2
C P
0 5 12.5
2 4 22.5
4 0 10
3 0 7.5
0 2 5
0 3 7 5
Y e a n
CHEM1808 Chemistry 1 CECIVL1011 Civil Engineering Practice 1CIVL1015 ComputingCIVL1312 StaticsC1VL1313 DynamicsCIVL1314 Mechanics of Solids
Y e a r s
CIVL3011 Civil Engineering Practice 3CIVL3015 Engineering Computations
CIVL3116 Engineering Management 1CIVL3214 Geotechnical Engineering 1CIVL3312 Structural Engineering 1CIVL3313 Structural Engineering 2CIVL3418 Transport Engineering 1CIVL3517 Water Engineering 2General Education subject
Tota l HPW Sess i on 1 21
Tota l HPW Sess i on 2 21
Total Credit Poin ts 117.5
Year 4
CIVL4008 Industrial TrainingCIVL4011 Civil Engineering Practice 4CIVL4018 Honours ThesisCIVL4116 Engineering Management 2CIVL4214 Geotechnical Engineering 2CIVL4312 Structural Engineering 3CIVL4413 Transport Engineering 2
CIVL4515 Water Engineering 3General Education subject
Plus two of the following five elective majors:CIVL4119 Construction MajorCIVL4219 Geotechnical MajorCIVL4319 Structures MajorCIVL4419 Transport MajorCIVL4519 Water Major
4 4 302 2 10
2 2 103 3 155 0 12.50 5 12.50 2 53 3 152 0 7.5
0 0 04 4 30
(3) (3) (15)
2 0 53 0 7.53 0 7.53 0 7.5
3 0 7.52 0 7.5
0 8 20
0 8 20
0 8 20
0 8 20
0 8 20
Tota l HPW Sess i on 1
Tota l HPW Sess ion 2
20(3)
20(3)
40 ENGINEERING
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HPWSI S2
CP
Year 4CIVL4006
CIVL4101
CIVL4203CIVL4306
CIVL4403
CIVL4502
CIVL4605
CIVL4704
CIVL4906
IndustrialTraining 0 0 0EngineeringManagement 2 2 0 5
StructuralEngineering 4 0 10EngineeringandtheEnvironment 4 0 10MaterialsEngineering2 3 0 7.5GeotechnicalEngineering2 3 0 7.5WaterSupplyand
Wastewater Disposal 3 0 7.5Highwayand PavementEngineering 3 0 7.5Project/Thesis 1 6 17.5
Plustwoofthefollowingfiveelectivemajors:CIVL4811CIVL4822CIVL4833CIVL4844CIVL4855
ConstructionMajorGeotechnical MajorStructuresMajorTransport MajorWater Major
0 9 22.50 9 22.50 9 22.50 9 22.50 9 22.5
Total HPW Sessi on 1 23Total HPW Session 2 24
Total Credit Poin ts 117.5
HPW
SI S2CP
MATH1231 Mathematics1B orMATH1241 HigherMathematics 1BPHYS1979 Physics1CE
Total HPW Sessio n 1 23Total HPW Session 2 23Total Credit Poin ts 127.5
Year 2
BIOS1201 Molecules,CellsandGenes 0 6CEIC0010 MassTransferand
MaterialsBalance 2 2CIVL2321 EngineeringMechanicsand
Materials 3 3CIVL2515 WaterEngineering 1 0 3
CIVL2710 Environmental EngineeringPractice2 4 4
INDC4120 Chemistryofthe IndustrialEnvironment 3 0
MATH2019 EngineeringMathematics2CE 3 3MATH2869 Applied Statistics SC 2General Educationsubject/s 4
Total HPW Session 1 21
Total HPW Session 2 21Total Credit Points 120
0 6 155 0 12.5
15
10
157.5
30
7.5155
15
3625
Env i ronmenta l Eng ineer ing • Fu l l - t ime Cou rse
Bachelor of Engineering
BE (Environmental)
Year 3BIOS3301 Populationand Community
EcologyforEnvironmentalEngineers 0 3 7.5
CEIC0050 Atmosphericand ProcessChemistry 3 0 7.5
CIVL3015 Engineering Computations 2 2 10
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HPWS1 S2
CP
10
HPW
S1 S2
CP
CIVL4730 Environmental Management 4 0
GMAT0753 Introduction to Spatial
Information Systems 2 0 5
Plus two of the following five elective majors:CEIC0030 Environmental Protection in
the Process IndustriesCIVL4229 Geotechnical Major -
EnvironmentalCIVL4429 Transport Major -
EnvironmentalCIVL4529 Water Major - Environme
Geography major consisting of two of the following:GEOG4130 River Management 0 4 15
GEOG4300 Vegetation Management 4 0 15
0 6 15
0 6 15
0 6 15
0 6 15
Total HPW Session 1
Total HPW Session 2Total Credit Points
21(3)20(3)
112.5 (127.5)
3625
Environmental Engineering - Full-time Course
Bachelor of Engineering
BE (Environmental)
Old course curriculum only for students enrolled prior
to 1996.
Year 4CEIC0020CIVL4006
CIVL4007CIVL4057
0 2 5
0 0 0
3 0 7.5
2 0 5
0 3 7.5
3 0 7.5
1 6 17.5
4 0 15
3 0 7.5
4 0 10
0 3 7.5
0 6 150 6 15
0 6 15
0 6 15
Fluid/Solid SeparationIndustrial Training
Waste ManagementManagement for Environ-mental Engineers 2
C1VL4067 Legislative Aspects of
the EnvironmentCIVL4605 Water Supply and Wastewater
Engineering
CIVL4907 Project/ThesisGEOG3042 Environmental Impact
AssessmentGEOL9120 Groundwater Contaminant
Transport
GMAT0752 Remote Sensing Techniquesand Applications
1NDC3070 Instrumentation and ProcessControl*
Plus two of the following five elective majors:CE1C0030 Environmental Protection in the
Process IndustriesC1VL4017 Water EngineeringCIVL4027 Geotechnical EngineeringCIVL4047 Transport Engineering
Geography major consisting of two of the following:
GEOG4300 Vegetation Management 4 0 15
GE0G4130 River Management 0 4 15
Total HPW Session 1 23
Total HPW Session 2 23
Total Credit Points 127.5
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Similarly students not wishing to complete the BSc degree 3730 2000
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Similarly, students not wishing to complete the BSc degree
course may revert to the Civil Engineering program (3620)
with appropriate credit for subjects satisfactorily completed.
The combined course consists of the Civil Engineering
program (3620), and at least fourteen units of the Science
and Mathematics Course (3970) within an approved
program.
There are three approved programs but additional onesmay be approved if they are relevant. Approval may be
given to change the programs listed below to allow fortimetabling and the student's academic interests.
Although transfer from Course 3620 to Course 3730 is
normally made at the end of Year 1, first year students whoare considering to apply for transfer should note the
requirements for PHYS1002 Physics 1 in the second
program.
The prerequisite CHEM1002 for Year 2 Chemistry subjectswill be waived for students in Course 3730.
Approved Programs
These programs will be affected by course revisions to3620. Please consult the School of Civil Engineering foradvice.
3730.1000
Geography and Environmental Chemistry
Y eanCHEM1808CIVL1011, CIVL1015, CIVL1312, CIVL1313, CIVL1314MATH1131 or MATH1141MATH1231 or MATH1241PHYS1979
3730.2000
Physics with Mathematics
Y eanCHEM1808
CIVL1011, CIVL1015, CIVL1312, CIVL1313, CIVL1314
MATH1131 or MATH1141MATH1231 or MATH1241PHYS1002
Year 2
CIVL2116, CIVL2312, CIVL2313, CIVL2314MATH2510, MATH2520, MATH2100, MATH2120MATH2869
PHYS2011, PHYS2021, PHYS2031
Years
CIVL2011, CIVL2515, CIVL3312, CIVL3313GMAT0442, GMAT0491MATH2501PHYS2001, PHYS3021, PHYS3041General Education subject/sYear 4CIVL3011, CIVL3116, CIVL3214, CIVL3418, CIVL3517PHYS3030
Choose 1 unit from: PHYS3631, PHYS3110, PHYS3010,PHYS3050Choose 2 Level II or Level III Mathematics subjects in theSciences Handbook.
Years
CIVL4011, CIVL4017, CIVL4018,** CIVL4116, CIVL4214,
CIVL4312, CIVL4413, C1VL4515
Two of the following subjects:
CIVL4119, CIVL4219, CIVL4319, CIVL4419, CIVL4519Choose 1 Level II subject or higher from appropriate
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Year 4
CIVL3011, CIVL3116, CIVL3214, CIVL3418, CIVL3517C0MP3121
Choose three subjects, at least one of which is a ComputerScience Unit, from C0MP3211, C0IVIP3231, C0MP3311or Level II or Level III Mathematics subjects from the
Sciences Handbook.
Years
CIVL4011, CIVL4017, CIVL4018,** CIVL4116, CIVL4214,
CIVL4312, CIVL4413, CIVL4515
Two of the following subjects:
CIVL4119, CIVL4219, CIVL4319, CIVL4419, CIVL4519Choose 1 Level 11 subject or higher from appropriateundergraduate offerings in the Sciences Handbook.
Choose 1 subject from the Sciences Handbook at Level II orm.
+Students are encouraged to select higher level Mathematics
subjects where applicable.
**HorK>urs students only
3146
BE(Civil) BE(Mining) in Civil Engineering and
Mi ni ng Engineering - Full-time Cour se
Students enrol in the Bachelor of Engineering in CivilEngineering Course 3620 which is administered by theSchool of Civil Engineering. The first three and a half yearsof the combined degree course are therefore identical tocourse 3620. After completing 7 Sessions of this course,
students may apply to enter the Bachelor of Engineering inMining Engineering Course 3146 which is administered by
4775
BE LLB in Civi l Engineeri ng and La w -
Full-time Course
This course is administered by the Faculty of Law andcandidates enrol through the Faculty of Law. Furtherinformation can be obtained from the Faculty of LawHandbook.
Yearl
CHEM1808CIVL1011, CIVL1015, CIVL1312, CIVL1313, CIVL1314MATH1131 or MATH1141MATH1231 or MATH1241
PHYS1979
Year 2
CIVL2011,CIVL2312, CIVL2313, CIVL2314, CIVL2515LAWS1120, LAWS7410MATH2019, MATH2869GMAT0442, GMAT0491
Years
CIVL2116, CIVL3011, CIVL3015, CIVL3116, CIVL3214,
CIVL3312, CIVL3313, CIVL3418, CIVL3517LAWS1420, LAWS2140
Year 4
CIVL4011, CIVL4018,** 8CIVL4214, CIVL4312,CIVL4413, CIVL4515 taken concurrently with LAWS3410LAWS1610, LAWS2160, LAWS3010
Plus one of the following elective majors:C1VL4119, CIVL4219, C1VL4319, CIVL4419, CIVL4519
Years
LAWS1010 LAWS4010 LAWS8320 LAWS8820
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Graduate Study
There are formal graduate courses leading to the award ofthe degree of Master of Engineering Science 8612, Master
of Environmental Engineering Science 8615, and also theGraduate Diploma in Engineering 5459. These courses areavailable in specialist areas including, coastal engineering,computational engineering, engineering construction andmanagement, project management, constructionmanagement, environmental engineering, geotechnicalengineer ing, groundwater invest igat ions andmanagement, hydrology and water resources, public healthengineering, structural engineering, transport engineering,
waste management, water and wastewater treatment,water quality management and water engineering. Withinthe Master of Engineering Science and Graduate Diplomacourses, students may undertake constructionmanagement, project management and wastemanagement by distance learning. Fees are payable forthe distance learning courses.
Opportunities are provided for graduate research leadingto the award of the degrees of Master of Engineering 2650,Master of Science 2750 and Doctor of Philosophy
1630.There are formal graduate courses leading to theaward of the degree of Master of Engineering Science8612, Master of Environmental Engineering Science 8615,and also the Graduate Diploma in Engineering 5459. Thesecourses are available in specialist areas includingcomputational engineering, engineering construction andmanagement, environmental engineering, geotechnicalengineering, public health engineering, structuralengineering, transport engineering, waste managementand water engineering.
f S G
and may choose from a range of subjects in the disciplineof their choice. All subjects offered in the Masters program
can also betaken in the Graduate Diploma program subjectto approval by the course coordinator. In some cases 48credit points may be derived from approved undergraduatesubjects.
It should be noted that some candidates who have partiallycompleted the requirements for Graduate Diploma may beconsidered for upgrading to the relevant Masters programwith advanced standing. Further enquiries should be madewith the School.
8612
Master of Engineering Science
MEngSc
8612.1000 Engineering Constructionand Management
8612.1100 Project lUlanagement
8612.1200 Construction Management
Subjects are selected from the following list:
ManagementCIVL9701CIVL9702CIVL9703CIVL9706
Economic Decision Making in EngineeringProject Planning and ControlQuality and Quality SystemsHuman Resources Management
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Plus a selection of subjects from:Cl\/L9777* Numerical Methods in Geomechanics
CIVL9783 Pavement MaterialsCIVL9784 Pavement DesignCIVL9785 Pavement Evaluation and Maintenance
CIVL9786* Industrial and Heavy Duty PavementsCIVL9792 Foundation Engineering 2CIVL9799 Environmental GeomechanicsCIVL9860 Investigation of Groundwater Resources
CIVL9861 Environmental and Engineering GeophysicsCIVL9880 Groundwater ModellingGEOL9030 Geological EngineeringGEOL9060 Environmental Ge