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Search : Index : Faculty of Engineering
Subject Lists
Subjects in courses of the School of Electrical Engineering and Computer Science
The School of Electrical Engineering and Computer Science has responsibility for three streams of the four year Bachelor of Engineering degree - the Electrical Engineering stream, the Computer Engineering stream and the Software Engineering stream as detailed in Bachelor of Engineering (Electrical, Computer and Software Engineering)
Each of these streams of the BE can be combined with degrees in Arts, Commerce, Law and Science as detailed in Bachelor of Engineering (Electrical, Computer, Software) combined courses.
The School also offers a three year Bachelor of Computer Science degree which includes an optional fourth year leading to the degree BCS (Honours) as detailed in Bachelor of Computer Science.
The Bachelor of Computer Science degree is also available as a combined degree with Mechanical Engineering, BE/BCS (Mechatronics), see Bachelor of Engineering (Mechatronics)/Bachelor of Computer Science.
The BE course in the School of Electrical Engineering and Computer Science offers three distinct streams of the BE degree: Electrical engineering, Computer engineering and Software engineering. The three streams have most first year subjects in common, and with the appropriate selection of subjects it is possible to defer the choice of stream until the commencement of second year, and in some cases, until the middle of second year. Each of the three streams may be taken in the combined degrees BE/BA (with an Arts major in any department in the Faculty of Arts); BE/BCom (with a Commerce major in any department in the Faculty of Economics and Commerce); BE/LLB; and BSc/BE (with a sequence in any department in the Faculty of Science, with the majority of students undertaking a sequence in Computer Science, Physics or Mathematics). Computer Science as a Science Faculty sequence may be combined with a BE in Chemical, Civil, Environmental, Mechanical or Manufacturing through the BE/BSc degree program.
The courses shown below for years one and two are based on a structure being adopted by all Faculties, in which most subjects carry 12.5 points. (A small number of subjects carry 6.25 or 25 points).
This structure is new for the Faculty of Engineering and is being introduced in 1999 for years one and two. Students taking combined degree courses and who intend to overlap 2nd and later year subjects, should consult with course advisers to ensure all core engineering requirements are met.
| First year | ||
|---|---|---|
| Semester 1 | Points | |
| 431-102 Int. Digital Electronics & Microprocess | 12.5 | |
| 433-141 Computing Fundamentals A | 12.5 | |
| 620-121 Mathematics A (Advanced) or | 12.5 | |
| 620-141 Mathematics A | 12.5 | |
| 640-121 Physics (Advanced) A or | 12.5 | |
| 640-141 Physics A | 12.5 | |
| Semester 2 | ||
| 431-103 Introduction to Circuits and Networks | 12.5 | |
| 433-142 Computing Fundamentals B | 12.5 | |
| 620-123 Applied Mathematics (Advanced) or | 12.5 | |
| 620-143 Applied Mathematics | 12.5 | |
| 640-122 Physics (Advanced) B or | 12.5 | |
| 640-142 Physics B | 12.5 | |
The subject 640-121 or 640-141 Physics is optional in the Software engineering stream, and students not wishing to retain Electrical engineering as a choice may replace it.
Electrical engineering stream students may defer the subject 433-142 Computing Fundamentals B until second year and instead take an elective subject. Students making this substitution should note that 433-141 Computing Fundamentals A is also available in semester two, and that the option created by deferring 433-142 can be placed in semester one.
| Second year(Electrical Engineering) | ||
|---|---|---|
| Semester one | Points | |
| 421-204 Engineering Analysis A | 12.5 | |
| 431-204 Int. Programmable Logic & Microprocessor | 12.5 | |
| 431-210 Engineering Circuit Analysis | 12.5 | |
| Elective2 | ||
| Semester two | ||
| 421-205 Engineering Analysis B | 12.5 | |
| 431-221 Fundamentals of Signals and Systems | 12.5 | |
| 431-222 Electronic Devices And Circuits | 12.5 | |
| Elective2 | ||
| Second year(Computer Engineering) | ||
|---|---|---|
| Semester one | Points | |
| 421-204 Engineering Analysis A | 12.5 | |
| 431-204 Int. Programmable Logic & Microprocessor | 12.5 | |
| 431-210 Engineering Circuit Analysis | 12.5 | |
| 433-252 Software Engineering Principles & Tools | 12.5 | |
| Semester two | ||
| 421-205 Engineering Analysis B | 12.5 | |
| 431-221 Fundamentals of Signals and Systems | 12.5 | |
| 431-222 Electronic Devices And Circuits | 12.5 | |
| 433-253 Algorithms and Data Structures | 12.5 | |
| Second year(Software Engineering) | ||
|---|---|---|
| Semester one | Points | |
| 421-204 Engineering Analysis A | 12.5 | |
| 431-204 Int. Programmable Logic & Microprocessor1 | 12.5 | |
| 433-252 Software Engineering Principles & Tools | 12.5 | |
| 433-253 Algorithms and Data Structures | 12.5 | |
| Semester two | ||
| 421-205 Engineering Analysis B | 12.5 | |
| 433-254 Software Design | 12.5 | |
| 433-255 Models of Computation | 12.5 | |
| Elective2 | ||
The Engineering subjects shown below for years three and four are based on the old course structures in which engineering subjects generally carry 7.14 points. This structure is being phased out in 2000 and 2001 in favour of the 12.5 point structure.
Students in the third year of Electrical, Computer and Software Engineering select subjects from those listed under the headings of 'Mathematics and Statistics subjects', 'Electrical Engineering subjects' and 'Computer Science subjects'. Students in the Electrical and Computer Engineering streams who have not completed 640-029 Physics of Materials or at least 6.25 points of 200-level Science Physics must also complete this Physics requirement as part of third year. A full load of at least 100 points is made up by taking optional subjects from any University department.
For students in Electrical Engineering the selection is:
all the Mathematics and Statistics subjects
at least six Electrical Engineering subjects
Laboratory 3.1, Laboratory 3.2 and Design Laboratory 3
For students in Computer Engineering the selection is:
all the Mathematics and Statistics subjects
Computer Engineering 3 and at least two other Electrical Engineering subjects
Laboratory 3.1 and Design Laboratory 3
Software Design and Computer Design
optional subjects
For students in Software Engineering the selection is:
all the Mathematics subjects
Models of Computation, Software Engineering Project, Software Engineering Process and Practice and Professional Issues in Computing (students in combined degrees may replace Professional Issues in Computing with another non-technical subject)
optional Computer Science subject
optional subjects or units
|
Students in the fourth year of Electrical, Computer and Software Engineering select subjects from Electrical Engineering and Computer Science. A full load of at least 100 points is made up by taking optional subjects or units from the advanced electrical engineering electives, 300-level and 400-level Computer Science subjects and subjects offered by other departments.
For Electrical and Computer engineering students when choosing the optional subjects, students are reminded they must include within the 400 points of the total course, 28.5 points from management or non-technical subjects. The selection of optional subjects may be restricted by timetable and prerequisite requirements.
For students in Electrical Engineering the selection is:
431-406 Project Work (28.6 points)
at least 7 units from advanced electrical engineering electives
optional subjects
For students in Computer Engineering the selection is:
431-406 Project Work or (433-464 Project Work and 433-343 Professional Issues in Computing)
at least 50 points from subjects offered in computer science (which may include 400-level subjects3) or advanced electrical engineering electives. The choices must include the subjects 431-404, 433-313 and 433-353.
optional subjects
For students in Software Engineering the selection is:
433-440 Advanced Software Engineering Project
433-443 Software Project Management
at least 37.5 points from available 300-level and 400-level computer science subjects
optional subjects
| Advanced Electrical Engineering electives | ||
|---|---|---|
| (these electives will not all be offered every year) | Points | |
| 431-404 Real-Time Computer Systems | 7.14 | |
| 431-407 Telecommunications Network Management & Services | 7.14 | |
| 431-415 Advanced Communications Systems | 7.14 | |
| 431-416 Advanced Digital Control & Identification | 7.14 | |
| 431-417 Biomedical Engineering | 7.14 | |
| 431-418 Communications Network Performance | 7.14 | |
| 431-419 Digital Signal Processing | 7.14 | |
| 431-420 High Speed Electronics & Optoelectronics | 7.14 | |
| 431-421 Information Theory & Coding | 7.14 | |
| 431-422 Linear Multivariable Control Systems | 7.14 | |
| 431-423 Neural Networks | 7.14 | |
| 431-424 Optical Communication Systems | 7.14 | |
| 431-425 Optoelectronic Materials & Devices | 7.14 | |
| 431-426 Power Electronics | 7.14 | |
| 431-427 Speech Processing | 7.14 | |
| 431-450 Power Electronics & Power Systems | 7.14 | |
| 431-451 Project Management & Product Commercialisation | 7.14 | |
| 431-452 Directed Study 4.1 | 7.14 | |
| 431-453 Directed Study 4.2 | 7.14 | |
Enrolment in Directed Study subjects must be approved by the Department.
The standard fourth-year courses are summarised in the following table.
|
The course aims to develop skilled computer scientists with the technical background, knowledge to develop well-designed, robust and computer-based solutions to a range of problems in business and industry. Studies include Computer Science (including introduction to computer programming, algorithms and problem solving, software development) and mathematics. Electives may be chosen from a wide variety of other disciplines, for example a digital electronics strand is available for students with a physics background, and an information systems strand is available for those with an interest in business applications. Subjects in later years include artificial intelligence, software engineering, computer networks, operating systems, graphics, computer design.
Computer Science graduates work in government, manufacturing industry, the information industry, commerce, and education. Some graduates spend their time on software development and systems support and remain in a mostly technical environment. Others move to a mixture of consulting and advice-giving roles which place more emphasis on talking to others about the use of the technology. In all types of work environments, whether with small companies or large, success in employment involves a mixture of technical expertise and strong communication skills. The knowledge and qualifications gained will enable you to work in any country.
Students should note that the entry requirements for the BCS (Honours) degree require that 12.5 points of second year Mathematics, Statistics or Engineering Analysis be completed.
Students in the Bachelor of Computer Science are required to take the following subjects:
| First year | ||
|---|---|---|
| Semester one | Points | |
| 431-102 Int. Digital Electronics & Microprocess | 12.5 | |
| 433-141 Computing Fundamentals A | 12.5 | |
| 620-xxx Mathematics | ||
| Elective | ||
| Semester two | ||
| 433-142 Computing Fundamentals B | 12.5 | |
| 620-xxx Mathematics | ||
| Electives | ||
The subject 431-102 Introduction to Digital Electronics and Microprocessors may be taken in second year, swapping an elective into first year.
The subjects listed as 620-xxx represent 25 points of 100-level Mathematics and Statistics. Suitable subjects include 620-161 Introductory Mathematics A; 620-162 Introductory Mathematics B; 620-141 Mathematics A; 620-142 Mathematics B; 620-143 Applied Mathematics; and 620-160 Experimental Design and Data Analysis.
| Second year | ||
|---|---|---|
| Semester one | Points | |
| 433-252 Software Engineering Principles & Tools | 12.5 | |
| 433-253 Algorithms and Data Structures | 12.5 | |
| Electives | ||
| Semester two | ||
| 433-254 Software Design | 12.5 | |
| 433-255 Models of Computation | 12.5 | |
| Electives | ||
| Third year | ||
|---|---|---|
| Semester one | Points | |
| 433-343 Professional Issues In Computing | 12.5 | |
| 300 level Computer Science subjects | ||
| Semester two | ||
| 300 level Computer Science subjects | ||
| Electives | ||
The 75.0-87.5 points listed as ``CS subjects (300-level)'' may be any 300-level subjects taught by the Department.
Students in the B.C.S. are required to complete at least 12.5 points of non-technical studies from outside the Department of Computer Science. To satisfy ``non-technical studies'' requirements, students may take suitable subjects from any department in the University prepared to accept their enrolment, subject to prerequisite and timetabling constraints. Examples of subjects that students should consider include the management subjects offered in the Faculty of Engineering and also the Faculty of Economics and Commerce, and subjects from the Faculty of Arts. Students are especially encouraged to consider subjects where the study and assessment requirements include written and oral presentation components.
Students considering extending their study by enrolling in the B.C.S. (Honours) degree should also note that study of Mathematics or Statistics at the second year level is strongly recommended. Within the B.C.S., students are entitled to complete 25 points from departments which are not budget departments of the Faculty of Science or the Faculty of Engineering. Students who wish to include additional subjectsom departments which are not budget departments of the Faculty of Science or the Faculty of Engineering can do so within the B.C.S., with approval from the Department of Computer Science, up t a maximum of 37.5 additional points. Normally approval would not be given for students to undertake more than 25 of the 62.5 points at 100-level. Students in the B.C.S. may not take more than 62.5 points of studies from outside the Faculties of Science and Engineering.
Students who wish to consolidate their knowledge of computer science and who have achieved an honours grade average in their third year studies should consider completing the B.C.S.(Honours) year. This involves completing a substantial research project and advanced course work. Completion of the honours year serves both as a preparation for postgraduate study and as an opportunity to strengthen practical skills before seeking employment.
To enter the B.C.S.(Honours), students must:
Have completed a B.C.S., as described above;
Have passed the subject 433-255 Models of Computation.
Have passed at least 25 points of 100-level Mathematics or Statistics.
Have a final-year average mark of at least 65.
Students should also note that study of Mathematics and Statistics at the second year level is strongly recommended.
Students must complete five subjects, totalling 62.5 points, and a research project, weighted at 37.5 points. Students may enrol in one 300-level subject as part of their coursework component, and two of the 600-level subjects taught in the Master of Software Systems Engineering. The honours level subjects taught in the Department are listed below, for a full list of masters-level subjects please consult the Faculty of Engineering Postgraduate Handbook.
An alternative year of study to the Bachelor of Computer Science (Honours), following completion of the three year degree, is available in the specialist area of Software Engineering. The Postgraduate Diploma in Software Engineering is a one year full time course with a practical orientation designed to extend a student's knowledge of modern software engineering tools and methodologies. Details of this course are available through the Faculty of Engineering or the Department of Computer Science.
For details of this five year degree see Bachelor of Engineering (Mechatronics)/Bachelor of Computer Science.
The combined BA/BE course in Electrical Engineering (Electrical, Computer or Software Engineering) and Arts must satisfy the following requirements:
All requirements of the chosen stream of the BE course must be satisfied, except that the requirement for second year physics is waived. The remaining optional subjects to make up 400 points for the award of the Engineering degree are credited from the Arts subjects undertaken.
A minimum of 200 Arts points must be completed, comprising of 50 points of First year Arts subjects, 75 points of Second year Arts subjects, and 75 points of Third year Arts subjects.
The structure of the combined course is flexible, depending on the Arts subjects chosen.
A typical course structure is as follows:
| BA/BE (Electrical, Computer, Software) | ||
|---|---|---|
| First year | Points | |
| Approved BA subjects | ||
| 431-103 Introduction to Circuits and Networks | 12.5 | |
| 433-141 Computing Fundamentals A | 12.5 | |
| 620-141 Mathematics A | 12.5 | |
| 620-143 Applied Mathematics | 12.5 | |
| Second year | ||
| Approved BA subjects | ||
| 640-141 Physics A | 12.5 | |
| 640-142 Physics B | 12.5 | |
| 431-102 Int. Digital Electronics & Microprocess | 12.5 | |
| 433-142 Computing Fundamentals B | 12.5 | |
| Third year | ||
| Approved BA subjects | ||
| Core second year Engineering subjects | ||
| Fourth year | ||
| Approved BA subjects | ||
| Core third year Engineering subjects | ||
| Fifth year | ||
| Approved BA subjects | ||
| Core fourth year Engineering subjects | ||
The combined BE/BCom course in Electrical Engineering (Electrical, Computer or Software Engineering) and Commerce must satisfy the following requirements:
All requirements of the chosen stream of the BE course must be satisfied. The remaining optional subjects to make up 400 points for the award of the Engineering degree are credited from the Commerce subjects undertaken.
A minimum of 200 Commerce points must be completed. These include the four compulsory subjects, at least 50 level one points and at least 50 level three points.
By the end of the equivalent of three years full time study, students are to have completed 100 points of Commerce and 200 points of Engineering.
The structure of the combined course is flexible, depending on the Commerce subjects chosen.
| Bachelor of Engineering (Electrical, Computer, Software)/ Bachelor of Commerce | ||
|---|---|---|
| First year | Points | |
| 316-101 Introductory Macroeconomics | 12.5 | |
| 316-102 Introductory Microeconomics | 12.5 | |
| 316-129 Business Statistics | 12.5 | |
| Approved Commerce subject as required | ||
| 431-103 Introduction to Circuits and Networks | 12.5 | |
| 433-141 Computing Fundamentals A | 12.5 | |
| 620-141 Mathematics A | 12.5 | |
| 620-143 Applied Mathematics | 12.5 | |
| Second year | ||
| BCom subjects - Introductory Econometrics, plus a further 37.5 points in approved Commerce subjects | ||
| 431-102 Int. Digital Electronics & Microprocess | 12.5 | |
| 433-142 Computing Fundamentals B | 12.5 | |
| 640-141 Physics A | 12.5 | |
| 640-142 Physics B | 12.5 | |
| Third year | ||
| Approved BCom subjects | ||
| Core second year Engineering subjects | ||
| Fourth year | ||
| Approved BCom subjects | ||
| Core third year Engineering subjects | ||
| Fifth year | ||
| Approved BCom subjects | ||
| Core fourth year Engineering subjects | ||
The combined LLB/BE course in Electrical, Computer or Software engineering and Law must satisfy the following requirements:
All requirements of the chosen stream of the BE course must be satisfied. The remaining optional subjects to make up 400 points for the award of the Engineering degree are credited from the Law subjects undertaken.
A minimum of 300 Law points must be completed.
The structure of the combined course is flexible, depending on the Law subjects chosen.
Timetabling may impose restrictions which require different combinations of subjects than those shown.
A typical course structure is as follows:
| BE (Electrical, Computer, Software)/LLB | ||
|---|---|---|
| First year | Points | |
| Law subjects - Torts and Processes, History and Philosophy of Law I and History and Philosophy of Law II | ||
| 431-103 Introduction to Circuits and Networks | 12.5 | |
| 433-141 Computing Fundamentals A | 12.5 | |
| 620-141 Mathematics A | 12.5 | |
| 620-143 Applied Mathematics | 12.5 | |
| Second year | ||
| Law subjects - Constitutional & Administrative Law and Criminal Law And Procedure | ||
| 431-102 Int. Digital Electronics & Microprocess | 12.5 | |
| 433-142 Computing Fundamentals B | 12.5 | |
| 640-141 Physics A | 12.5 | |
| 640-142 Physics B | 12.5 | |
| Third year | ||
| Law subjects - Contracts, Property | ||
| Core second year Engineering subjects | ||
| Fourth year | ||
| Approved Law subjects | ||
| Core third year Engineering subjects | ||
| Fifth year | ||
| Approved Law subjects | ||
| Sixth year | ||
| Core fourth year Engineering subjects | ||
| Approved Law subjects | ||
The course towards the combined degree in Science and one of the three BE streams of Electrical, Computer or Software Engineering may be taken in the following combinations:
Electrical Engineering stream and Computer Science, Mathematics or Physics;
Computer Engineering stream and Computer Science, Mathematics or Physics;
Software Engineering stream and Mathematics or Physics (NOT a Computer Science major.)
The combined degree must satisfy the following requirements:
237.5 points must be completed, with between 75 points and 125 points of 100-level Science subjects, and a minimum of 50 points of 300-level Science subjects;
All requirements of the chosen stream of the BE course must be satisfied;
A minimum of 500 points in total must be completed;
For the combined degree in Computer Science and Computer Engineering stream of the BE there are additional requirements on electrical engineering subjects to be taken in third and fourth year, as specified below
The typical course is structured to complete extra science subjects during the second and third years of the BE course, to devote the entire fourth year to completion of the requirements of the BSc course, and to complete the fifth year by taking the standard fourth year of the desired stream of the BE degree. However, the final two years may, if desired, be undertaken in the opposite order, that is, BE fourth year, and BSc in fifth year.
Students should ensure that their proposed course will provide sufficient Science points to satisfy the points requirements of the Faculty of Science throughout the duration of their course. In some cases, this may require the substitution of Science mathematics subjects for engineering analysis subjects.
| First year (all streams) BSc/BE (Electrical, Computer, Software) | ||
|---|---|---|
| The subjects are exactly the same as for those for the BE degree | ||
Electrical Engineering stream students intending to major in either mathematics or physics in their Science degree may choose to undertake 620-122 Mathematics B, and delay 433-142 Computing Fundamentals B until their second year.
| Second year BSc/BE (Electrical, Computer, Software) | ||
|---|---|---|
| BSc/BE - (Computer Science and either Electrical or Computer Engineering streams of BE) | Points | |
| Subjects are the same as those of the Computer Engineering stream of the BE | ||
| BSc/BE - (Mathematics, and one of Electrical, Computer or Software Engineering streams of BE) | ||
| Subjects as for the chosen stream of the the BE degree, except that 620-231 and 620-232 are substituted for 421-204 and 421-205. Depending on the first year mathematics subjects which have been completed, students may also need to undertake 620-200 to satisfy prerequisite requirements for 620-231 and 620-232. Computer Science subjects may, if necessary, be delayed by one semester to accomodate the required mathematics subjects. | ||
| BSc/BE - (Physics, and one of Electrical, Computer or Software Engineering streams of BE) | ||
| Subjects as for the chosen stream of the BE degree. Electrical Engineering and Software Engineering students should add 640-223/243 Quantum Mechanics and Thermal Physics (Semester one), while Computer Engineering students should add 640-255/245 Electromagnetism and Relativity (Semester two). Computer Science subjects may, if necessary, be delayed by one semester to accomodate the required physics subject. | ||
Third year BSc/BE (Electrical, Computer, Software)
Students are required to satisfy the requirements for one of Electrical, Computer or Software Engineering streams of the BE course, supplementing this with sufficient science points as recommended by science course planning.
Students in the combined degree with Computer Science and Computer Engineering are further required to undertake 431-302 Communications, 431-310 Electronic Signal Processing and 431-318 Electronic Systems Design to ensure breadth in their combined degree.
Fourth year BSc/BE (Electrical, Computer, Software)
Science subjects to complete the Faculty of Science requirements for this course.
Fifth year BSc/BE (Electrical, Computer, Software)
Subjects should be chosen as for the fourth year of one of Electrical, Computer or Software Engineering streams of the BE course.
Students in the combined degree with Computer Science and Computer Engineering are additionally required to enrol in 431-404 Real Time Computer Systems and to choose the subject 431-406 Project Work (i.e choice of 433-464 Project Work is not allowed).
421-204 Engineering Analysis A
421-205 Engineering Analysis B
421-303 Mathematics for Engineers Unit 3.1
421-304 Mathematics for Engineers Unit 3.2
421-402 Mathematics For Engineers Unit 4.1
421-403 Mathematics For Engineers Unit 4.2
431-101 Fundamentals of Electrical Engineering
431-102 Int. Digital Electronics & Microprocess
431-103 Introduction to Circuits and Networks
431-204 Int. Programmable Logic & Microprocessor
431-210 Engineering Circuit Analysis
431-221 Fundamentals of Signals and Systems
431-222 Electronic Devices And Circuits
431-302 Communications 3
431-303 Control 3
431-304 Computer Engineering 3
431-306 Fields & Transmission Lines 3
431-310 Electronic Signal Processing
431-314 Computer Control
431-315 Semiconductor Engineering
431-317 Power 3
431-318 Electronic System Design
431-332 Laboratory 3.1
431-333 Laboratory 3.2
431-334 Design Laboratory 3
431-375 Applied Data Acquisition
431-404 Real-Time Computer Systems
431-405 Advanced Computer Systems
431-406 Project Work
431-407 Telecommunications Network Management & Services
431-415 Advanced Communications Systems
431-416 Advanced Digital Control & Identification
431-417 Biomedical Engineering
431-418 Communications Network Performance
431-419 Digital Signal Processing
431-420 High Speed Electronics & Optoelectronics
431-421 Information Theory & Coding
431-422 Linear Multivariable Control Systems
431-423 Neural Networks
431-424 Optical Communication Systems
431-425 Optoelectronic Materials & Devices
431-426 Power Electronics
431-427 Speech Processing
431-444 Vacation Work (Practical Experience - Electrical) #
431-450 Power Electronics & Power Systems
431-451 Project Management & Product Commercialisation
431-452 Directed Study 4.1
431-453 Directed Study 4.2
431-640 Advanced Topics in Signal Processing
431-641 Advanced Topics in Photonics
431-642 Queueing Theory for Telecommunications
431-658 Advanced Studies 1 (Electrical)
431-659 Advanced Studies 2 (Electrical)
433-141 Computing Fundamentals A
433-142 Computing Fundamentals B
433-171 Introduction to Programming
433-252 Software Engineering Principles & Tools
433-253 Algorithms and Data Structures
433-254 Software Design
433-255 Models of Computation
433-257 Frontiers of Computer Science
433-303 Artificial Intelligence
433-313 Computer Design
433-330 Theory Of Computation
433-332 Operating Systems
433-340 Software Engineering Project
433-341 Software Engineering Process & Practice
433-343 Professional Issues In Computing
433-351 Database Systems
433-353 Networks & Communications
433-361 Programming Languages Implementation
433-371 Interactive System Design
433-380 Graphics and Computation
433-398 Directed Study 3A
433-399 Directed Study 3B
433-440 Advanced Software Engineering Project
433-441 System Modelling & Analysis
433-443 Software Project Management
433-444 Software Reliability & Testing
433-464 Project Work
433-470 Functional Programming
433-471 Logic Programming
433-473 Advanced Operating Systems
433-475 High Performance Database Systems
433-476 Algorithms for Constrained Search Probs
433-480 Computer Vision and Image Processing
433-481 Knowledge Representation and Reasoning
433-496 Directed Study 4A
433-497 Directed Study 4B
433-498 Directed Study 4C
620-005 Probability for Electrical Engineers
620-121 Mathematics A (Advanced)
620-122 Mathematics B (Advanced)
620-123 Applied Mathematics (Advanced)
620-141 Mathematics A
620-142 Mathematics B
620-143 Applied Mathematics
620-200 Mathematics 2
620-211 Mathematics 2 (Advanced)
620-231 Vector Analysis
620-232 Mathematical Methods
620-252 Analysis
620-331 Applied Partial Differential Equations
620-332 Integral Transforms & Asymptotics
640-121 Physics (Advanced) A
640-122 Physics (Advanced) B
640-141 Physics A
640-142 Physics B
640-029 Modern Physics of Materials
640-223 Quantum Mechanics & Thermal Physics- Adv
640-243 Quantum Mechanics & Thermal Physics
730-102 Criminal Law And Procedure
730-104 Torts And The Process Of Law
730-105 History and Philosophy of Law I
730-115 History and Philosophy of Law II
730-202 Contracts
730-203 Property
730-204 Constitutional & Administrative Law
| 1. | The subject 431-204 Introduction to Programmable Logic and Microcontrollers may be replaced by 433-313 Computer Design. |
| 2. | Elective subjects may be used for additional Computer Science or Electrical Engineering subjects |
| 3. | With permission from the Department of Computer Science. |
Search : Index : Faculty of Engineering
Status: Official 1999 Last Modified: Tuesday October 20 11:50 SGML to HTML Conversion: Information Technology Services Authorised by: Academic Registrar Email Enquiries: Course_Information@registrar.unimelb.edu.au