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Viva, estudie y trabaje en Australia.
Ya sea que desee extender su visa en Australia o encontrar un nuevo curso para estudiar, podemos brindarle el mejor apoyo, precios y becas. Le ayudaremos con sus inscripciones, alojamiento, orientación laboral y visa para que pueda disfrutar
Australia es uno de los lugares más populares del mundo para trabajar y estudiar. Sus estándares internacionales en calidad de vida y excelencia educativa se sustentan en un fuerte crecimiento económico. Australia es conocida por su inmensa belleza natural, emocionantes ciudades cosmopolitas, diversas actividades culturales y un estilo de vida saludable al aire libre.
utilizan tecnología líder en el mercado y sistemas de capacitación profesional que se comparan con los estándares de la industria. Nuestras instituciones tienen una excelente reputación internacional y se utilizan como modelos para otros países de la región de Asia y el Pacífico.
de los estudiantes se encuentra entre los mejores del mundo. Australia tiene cinco de las 30 mejores ciudades del mundo para estudiantes en función de la combinación de estudiantes, la asequibilidad, la calidad de vida y la actividad del empleador, todos elementos importantes para los estudiantes al elegir el mejor destino de estudio. Esperar diversidad en Australia. Tendrá acceso ilimitado a atracciones culturales, incluidas galerías de arte, museos y teatros muy respetados, así como restaurantes y tiendas de clase mundial. Si le apasiona el deporte, puede ver y participar en una multitud de actividades durante todo el año, como senderismo, ciclismo, escalada, fútbol, natación y surf.
Este programa dual es su boleto para desempeñar un papel en la construcción de la próxima generación de tecnologías de vanguardia con las principales empresas de todo el mundo.
Al estudiar el programa dual, obtendrá dos títulos solicitados en menos tiempo que si estudia los programas por separado. Las habilidades y el conocimiento que desarrollará a través del programa de ciencias de la computación complementarán su experiencia en ingeniería y, juntos, le permitirán labrarse una carrera en las industrias de alta tecnología del futuro.
El programa de ingeniería ofrece la mayor variedad de disciplinas de ingeniería en Queensland, con 5 especializaciones principales y 14 especializaciones para elegir. El plan de estudios flexible lo equipará para trabajar en áreas de ingeniería tanto establecidas como emergentes.
prácticas en todos los aspectos de la ingeniería, más opciones de estudio para mayores oportunidades profesionales y contacto directo con la industria, sus futuros empleadores, a lo largo de su carrera.
La informática combina los estudios teóricos de algoritmos y estructuras de datos con los desafíos prácticos de implementarlos en sistemas de hardware y software. A través de este programa, desarrollará las sólidas habilidades analíticas, lógicas y de desarrollo necesarias para avanzar en la informática y sus aplicaciones. Puede especializarse en ciberseguridad, ciencia de datos, aprendizaje automático, lenguajes de programación o informática científica.
Se graduará con calificaciones altamente valoradas y solicitadas, listo para una carrera emocionante en tecnología de punta.
Adapte sus estudios a sus objetivos. Este programa ofrece estas opciones:
Sus experiencias de aprendizaje están diseñadas para adaptarse mejor a los resultados de aprendizaje de los cursos que elija.
Nuestros programas lo preparan para su primer trabajo y más allá. Dependiendo de la especialización que elija, estas son algunas de las carreras a las que podría estar en camino:
Ingeniería (pregrado)
$ 64.000 a $ 66.000
Informática y sistemas de información (pregrado)
$ 58.000 a $ 62.000
Year 12 (o equivalente) Asignatura de inglés general (Unidades 3 y 4, C); Métodos matemáticos (Unidades 3 y 4, C); y uno de Química o Física (Unidades 3 y 4, C).
Tanto la Química como la Física son materias recomendadas. Matemáticas especializadas (Unidades 3 y 4, C) también es una asignatura recomendada. Los estudiantes que estudian Matemáticas Especializadas y Física y Química tendrán una mayor flexibilidad en sus estudios.
Es posible que se requiera que los estudiantes sin Matemáticas Especializadas (o equivalente) realicen cursos preparatorios más allá de las 88 unidades del programa y es posible que no puedan completar el programa en el período de tiempo mínimo sin sobrecargar o realizar estudios de verano.
IELTS en general 6.5; lectura 6; escribiendo 6; hablando 6; escuchar 6. Para otras pruebas de dominio del idioma inglés y puntajes aprobados para UQ
TOEFL IBT: 87 en general, escucha 19, lectura 19, escritura 21 y habla 19.
TOEFL PB – 570 en general, escucha 54, lectura 54, escritura 59/5.
Pearsons – Puntaje general de 64 y 60 en todas las subbandas.
BE – Una calificación general mínima de 4 más una calificación mínima de C en todas las habilidades macro.
CES – Total 176 y 169 en todas las subbandas.
No se acepta OET.
45.120 AUD
Tasa anual indicativa 2021
Esta tarifa anual indicativa es el costo de inscribirse en la Licenciatura en Ingeniería (con honores) / Ciencias de la Computación para el año académico 2021. Se calcula sobre la base de una carga de estudio estándar a tiempo completo (16 unidades por año académico).
Si se inscribe en una carga de estudio mayor o menor, sus tarifas se calcularán de manera proporcional. Todas las tarifas se revisan anualmente.
5.5 Years
START SEMESTER
Semester 1 (22 Feb, 2021), Semester 2 (26 Jul, 2021)QTAC CODE
During the first year of study students can choose to commence in their chosen specialisation or undertake the flexible first year. The flexible first year allows students to keep their options open as to which specialisation they chose to pursue in second year.
Students will be required to choose their program specialisation by the commencement of second year. First Year Foundation Courses and First Year Engineering Electives can contribute to your chosen specialisation as either a compulsory courses or as electives. Please refer to the specialisation course list.
Students undertaking the flexible first year program will complete 16 units comprising:
Note: Choosing fewer than 6 units from First Year Engineering Foundation Courses may either limit specialisation choices in year 2 or increase the duration of study.
Course Code | Units | Course Title |
ENGG1100 | 2 | Professional Engineering |
[ ENGG1001 | 2 | Programming for Engineers |
[ or | ||
[ CSSE1001 | 2 | Introduction to Software Engineering |
[ MATH1051 | 2 | Calculus & Linear Algebra I |
[ or | ||
[ MATH1071 | 2 | Advanced Calculus & Linear Algebra I |
[ MATH1052 | 2 | Multivariate Calculus & Ordinary Differential Equations |
[ or | ||
[ MATH1072 | 2 | Advanced Multivariate Calculus & Ordinary Differential Equations |
Course Code | Units | Course Title |
ENGG1300 | 2 | Introduction to Electrical Systems |
ENGG1500 | 2 | Thermodynamics : Energy and the Environment |
ENGG1700 | 2 | Statics and Materials |
Course Code | Units | Course Title |
CHEM1090 | 2 | Introductory Chemistry |
PHYS1171 | 2 | Physical Basis of Biological Systems |
MATH1050 | 2 | Mathematical Foundations II |
Course Code | Units | Course Title |
BIOL1040 | 2 | Cells to Organisms |
BIOE1001 | 2 | Principles of Biomedical & Bioprocess Engineering |
CHEM1100 | 2 | Chemistry 1 |
ENGG1600 | 2 | Introduction to Research Practices – The Big Issues |
ERTH1501 | 2 | Earth Processes & Geological Materials for Engineers |
PHYS1002 | 2 | Electromagnetism & Modern Physics |
Bachelor of Engineering (Honours) (plan code CHEMIE2455)
For the BE(Hons), students must complete a total of 64 units comprising –
and
NB: of the 64 units required for the program, students must complete at least 24 units of courses at level 3 or higher and no more than 24 units at level 1
Course Code | Units | Course Title |
ENGG1100 | 2 | Professional Engineering |
[ ENGG1001 | 2 | Programming for Engineers |
[ or | ||
[ CSSE1001 | 2 | Introduction to Software Engineering |
[ MATH1051 | 2 | Calculus & Linear Algebra I |
[ or | ||
[ MATH1071 | 2 | Advanced Calculus & Linear Algebra I |
[ MATH1052 | 2 | Multivariate Calculus & Ordinary Differential Equations |
[ or | ||
[ MATH1072 | 2 | Advanced Multivariate Calculus & Ordinary Differential Equations |
Course Code | Units | Course Title |
CHEM1090 | 2 | Introductory Chemistry |
PHYS1171 | 2 | Physical Basis of Biological Systems |
MATH1050 | 2 | Mathematical Foundations II |
For the specialisation in Chemical Engineering, students must complete 36 units comprising –
Course Code | Units | Course Title |
CHEM1100 | 2 | Chemistry 1 |
ENGG1500 | 2 | Thermodynamics : Energy and the Environment |
Course Code | Units | Course Title |
CHEE2001 | 2 | Process Principles |
CHEE2003 | 2 | Fluid & Particle Mechanics |
CHEE2010 | 2 | Engineering Investigation & Statistical Analysis |
CHEE2020 | 2 | Process Equipment and Control Systems |
CHEE2030 | 2 | Chemical Thermodynamics |
CHEE2040 | 2 | Heat and Mass Transfer |
CHEM2056 | 2 | Physical Chemistry for Engineering |
Course Code | Units | Course Title |
CHEE3004 | 2 | Unit Operations |
CHEE3005 | 2 | Reaction Engineering |
CHEE3007 | 2 | Process Modelling & Dynamics |
CHEE3020 | 2 | Process Systems Analysis |
Course Code | Units | Course Title |
CHEE4001 | 4 | Process Engineering Design Project |
CHEE4002 | 2 | Risk in Process Industries |
ENGG4900 | 2 | Professional Practice and the Business Environment |
Complete 16 units comprising –
Course Code | Units | Course Title |
BIOE4305 | 2 | Biomaterials: Materials in Medicine |
BIOE6028 | 2 | Metabolic Engineering |
BIOE6034 | 2 | Cell and Tissue Engineering |
CHEE3008 | 2 | Special Topics C |
CHEE3301 | 2 | Polymer Engineering |
CHEE4003 | 2 | Special Topics A |
CHEE4009 | 2 | Transport Phenomena |
CHEE4012 | 2 | Industrial Wastewater & Solid Waste Management |
CHEE4020 | 2 | Bioprocess Engineering |
CHEE4022 | 2 | Principles of Adsorption |
CHEE4303 | 2 | Interface and Colloid Science and Engineering |
ENGG3500 | 2 | Reservoir Engineering |
ENGY4000 | 2 | Energy Systems |
ENVE3150 | 2 | Environmental Systems Dynamics & Modelling |
ENVE3160 | 2 | Environmental Phenomena |
ENVE4610 | 2 | Engineering the Circular Economy |
MATE4302 | 2 | Electrochemistry and Corrosion |
MATE6301 | 2 | Nanomaterials |
MECH4304 | 2 | Net Shape Manufacturing |
MINE3208 | 2 | Physical Separation Processes |
MINE3212 | 2 | Pyrometallurgy |
MINE3219 | 2 | Process Mineralogy and Comminution |
MINE4203 | 2 | Flotation |
MINE4204 | 2 | Hydrometallurgy and Electrometallurgy |
Course Code | Units | Course Title |
CHEE4006 | 2 | Research Project |
CHEE4007 | 2 | Research Project |
CHEE4026 | 4 | Research Thesis |
CHEE4027 | 4 | Thesis Project |
Course Code | Units | Course Title |
CHEM1200 | 2 | Chemistry 2 |
ENGG4103 | 2 | Engineering Asset Management |
FIRE3700 | 2 | Introduction to Fire Safety Engineering |
FOOD2000 | 2 | Food Science |
FOOD3011 | 2 | Food Product Development |
FOOD3017 | 2 | Food Safety & Quality Management |
MATH2001 | 2 | Calculus & Linear Algebra II |
METR3100 | 2 | Control System Implementation |
MICR2000 | 2 | Microbiology & Immunology |
MICR2001 | 2 | Food Microbiology I |
Chemical Engineering Breadth Electives can also be chosen from course lists for the following majors:
For the Major in Biomedical Engineering, students must complete 16 units comprising –
Course Code | Units | Course Title |
BIOE6034 | 2 | Cell and Tissue Engineering |
CHEE4020 | 2 | Bioprocess Engineering |
Course Code | Units | Course Title |
BIOE1001 | 2 | Principles of Biomedical & Bioprocess Engineering |
BIOE3001 | 2 | Quantitative Methods in Biomedical Engineering |
BIOE4305 | 2 | Biomaterials: Materials in Medicine |
BIOE6901 | 2 | Medical Device Engineering |
Course Code | Units | Course Title |
BIOC2000 | 2 | Biochemistry & Molecular Biology |
BIOE6028 | 2 | Metabolic Engineering |
BIOE6034 | 2 | Cell and Tissue Engineering |
BIOE6403 | 2 | Biomedical Instrumentation |
BIOE6601 | 2 | Medical Imaging |
BIOL1040 | 2 | Cells to Organisms |
BIOL2200 | 2 | Molecular Cell Biology I |
BIOL2202 | 2 | Genetics |
BIOL3014 | 2 | Advanced Bioinformatics |
BIOM2011 | 2 | Integrative Cell & Tissue Biology |
BIOM2012 | 2 | Systems Physiology |
BIOM2020 | 2 | Human Anatomy |
BIPH2000 | 2 | Foundations of Biophysics |
COMP4702 | 2 | Machine Learning |
COMS4113 | 2 | Photonics |
COMS4104 | 2 | Microwave Engineering |
CSSE2002 | 2 | Programming in the Large |
CSSE4011 | 2 | Advanced Embedded Systems |
ELEC4620 | 2 | Digital Signal Processing |
ELEC4630 | 2 | Image Processing and Computer Vision |
MATE6301 | 2 | Nanomaterials |
MECH3301 | 2 | Materials Selection |
MECH4950 | 2 | Advanced Manufacturing in Practice |
METR4202 | 2 | Robotics & Automation |
MICR2000 | 2 | Microbiology & Immunology |
SCIE2100 | 2 | Bioinformatics 1: Introduction |
[ CHEE4026 | 4 | Research Thesis |
[ or | ||
[ CHEE4027 | 4 | Thesis Project |
For the major in Bioprocess Engineering, students must complete 16 units comprising –
Course Code | Units | Course Title |
BIOC2000 | 2 | Biochemistry & Molecular Biology |
[ BIOE1001 | 2 | Principles of Biomedical & Bioprocess Engineering |
[ or | ||
[ BIOL1020 | 2 | Genes, Cells & Evolution |
BIOE6028 | 2 | Metabolic Engineering |
BIOL2202 | 2 | Genetics |
BIOT3009 | 2 | Quality Management Systems in Biotechnology |
CHEE4020 | 2 | Bioprocess Engineering |
Course Code | Units | Course Title |
BIOC3005 | 2 | Molecular Systems Biology |
BIOE3001 | 2 | Quantitative Methods in Biomedical Engineering |
BIOE4305 | 2 | Biomaterials: Materials in Medicine |
BIOE6034 | 2 | Cell and Tissue Engineering |
BIOL3303 | 2 | Genomics |
BIOT3004 | 2 | Commercialisation of Biotechnology Products |
CHEE4012 | 2 | Industrial Wastewater & Solid Waste Management |
FOOD1001 | 2 | Principles of Food Preservation |
FOOD3008 | 2 | Food Process Engineering II |
SCIE2100 | 2 | Bioinformatics 1: Introduction |
Course Code | Units | Course Title |
CHEE4006 | 2 | Research Project |
CHEE4007 | 2 | Research Project |
[ CHEE4026 | 4 | Research Thesis |
[ or | ||
[ CHEE4027 | 4 | Thesis Project |
For the major in Environmental Engineering, students must complete 16 units comprising –
Course Code | Units | Course Title |
ENVE2501 | 2 | Environmental Systems |
ENVE3150 | 2 | Environmental Systems Dynamics & Modelling |
ENVE3160 | 2 | Environmental Phenomena |
ENVE4610 | 2 | Engineering the Circular Economy |
Course Code | Units | Course Title |
CHEE4012 | 2 | Industrial Wastewater & Solid Waste Management |
CIVL3420 | 2 | Sustainable Transport Engineering – Planning and Design |
CIVL4111 | 2 | Ocean, Coastal and Estuarine Engineering |
CIVL4112 | 2 | Hydro and Ocean Powered Renewable Energy Systems |
CIVL4121 | 2 | Environmental Hydraulics and Flood Management |
CIVL4145 | 2 | Groundwater Modelling and Management |
CIVL4525 | 2 | Sustainable Infrastructure Design |
ENGY4000 | 2 | Energy Systems |
ENVE6110 | 2 | Environmental Sensor System & Monitoring |
ENVM3103 | 2 | Regulatory Frameworks for Environmental Management & Planning |
WATR6105 | 2 | Integrated Urban Water Management |
WATR6106 | 2 | Emerging Issues in the Urban Water Cycle and Public Water |
WATR6108 | 2 | Advanced Unit Operations in Water Management |
WATR6109 | 2 | Drinking Water Supply: Source, Treatment, Distribution |
Course Code | Units | Course Title |
CHEE4006 | 2 | Research Project |
CHEE4007 | 2 | Research Project |
[ CHEE4026 | 4 | Research Thesis |
[ or | ||
[ CHEE4027 | 4 | Thesis Project |
CIVL4605 | 2 | Civil Research Part B |
Course Code | Units | Course Title |
ENVM2100 | 2 | Foundations of Sustainable Development |
ENVM3201 | 2 | Catchment Processes & Management |
ERTH1501 | 2 | Earth Processes & Geological Materials for Engineers |
ERTH2004 | 2 | Structural & Metamorphic Geology |
ERTH3250 | 2 | Hydrogeology |
GEOM1000 | 2 | Fundamentals of Geographic Information & Technologies |
GEOM2001 | 2 | Geographical Information Systems |
GEOS1100 | 2 | Environment & Society |
GEOS2100 | 2 | Environmental Systems |
GEOS3102 | 2 | Global Change: Problems & Prospects |
For the major in Materials Engineereing, students must complete 16 units comprising –
Course Code | Units | Course Title |
ENGG1700 | 2 | Statics and Materials |
MECH2300 | 2 | Structures & Materials |
Course Code | Units | Course Title |
CHEE3301 | 2 | Polymer Engineering |
MATE4302 | 2 | Electrochemistry and Corrosion |
MECH2310 | 2 | Science & Engineering of Metals |
MECH3301 | 2 | Materials Selection |
Course Code | Units | Course Title |
AERO4300 | 2 | Aerospace Composites |
BIOE4305 | 2 | Biomaterials: Materials in Medicine |
CHEE4006 | 2 | Research Project |
CHEE4007 | 2 | Research Project |
[ CHEE4026 | 4 | Research Thesis |
[ or | ||
[ CHEE4027 | 4 | Thesis Project |
MATE6301 | 2 | Nanomaterials |
MECH2305 | 2 | Introduction to Engineering Design and Manufacturing |
MECH4304 | 2 | Net Shape Manufacturing |
For the major in Metallurgical Engineering, students must complete 16 units comprising –
Course Code | Units | Course Title |
MINE3208 | 2 | Physical Separation Processes |
MINE3212 | 2 | Pyrometallurgy |
MINE3219 | 2 | Process Mineralogy and Comminution |
MINE4203 | 2 | Flotation |
MINE4204 | 2 | Hydrometallurgy and Electrometallurgy |
Course Code | Units | Course Title |
CHEE4012 | 2 | Industrial Wastewater & Solid Waste Management |
ENGY4000 | 2 | Energy Systems |
MATE4302 | 2 | Electrochemistry and Corrosion |
MATE6301 | 2 | Nanomaterials |
MECH2300 | 2 | Structures & Materials |
MECH4304 | 2 | Net Shape Manufacturing |
MINE2201 | 2 | Metal Production and Recycling |
Course Code | Units | Course Title |
CHEE4006 | 2 | Research Project |
CHEE4007 | 2 | Research Project |
[ CHEE4026 | 4 | Research Thesis |
[ or | ||
[ CHEE4027 | 4 | Thesis Project |
Complete 16 units comprising –
For the minor in Computing, students must complete 8 units comprising –
Course Code | Units | Course Title |
CSSE2002 | 2 | Programming in the Large |
COMP3506 | 2 | Algorithms & Data Structures |
Course Code | Units | Course Title |
COMP4702 | 2 | Machine Learning |
COSC2500 | 2 | Numerical Methods in Computational Science |
COSC3000 | 2 | Visualization, Computer Graphics & Data Analysis |
COSC3500 | 2 | High-Performance Computing |
INFS1200 | 2 | Introduction to Information Systems |
INFS3208 | 2 | Cloud Computing |
MATH3202 | 2 | Operations Research & Mathematical Planning |
For the minor in Data Science, students must complete 8 units comprising –
Course Code | Units | Course Title |
DATA2001 | 2 | Introduction to Data Science |
INFS1200 | 2 | Introduction to Information Systems |
Course Code | Units | Course Title |
COMP4702 | 2 | Machine Learning |
INFS2200 | 2 | Relational Database Systems |
INFS3208 | 2 | Cloud Computing |
INFS4203 | 2 | Data Mining |
STAT2003 | 2 | Mathematical Probability |
STAT2004 | 2 | Statistical Modelling & Analysis |
Bachelor of Engineering (Honours) (plan code CIVILE2455)
For the BE(Hons), students must complete a total of 64 units comprising –
and
NB: of the 64 units required for the program, students must complete at least 24 units of courses at level 3 or higher and no more than 24 units at level 1
Course Code | Units | Course Title |
ENGG1100 | 2 | Professional Engineering |
[ ENGG1001 | 2 | Programming for Engineers |
[ or | ||
[ CSSE1001 | 2 | Introduction to Software Engineering |
[ MATH1051 | 2 | Calculus & Linear Algebra I |
[ or | ||
[ MATH1071 | 2 | Advanced Calculus & Linear Algebra I |
[ MATH1052 | 2 | Multivariate Calculus & Ordinary Differential Equations |
[ or | ||
[ MATH1072 | 2 | Advanced Multivariate Calculus & Ordinary Differential Equations |
Course Code | Units | Course Title |
CHEM1090 | 2 | Introductory Chemistry |
PHYS1171 | 2 | Physical Basis of Biological Systems |
MATH1050 | 2 | Mathematical Foundations II |
For the specialisation in Civil Engineering, students must complete 36 units comprising –
Course Code | Units | Course Title |
ENGG1700 | 2 | Statics and Materials |
Course Code | Units | Course Title |
CIVL2131 | 2 | Environmental Fluid Mechanics |
CIVL2135 | 2 | Introduction to Environmental Engineering |
CIVL2210 | 2 | Fundamentals of Soil Mechanics |
CIVL2330 | 2 | Structural Mechanics |
CIVL2420 | 2 | Fundamentals of Transportation Engineering |
CIVL2530 | 2 | Probability & Statistics in Engineering |
Course Code | Units | Course Title |
CIVL3155 | 2 | Hydrology and Free Surface Flows |
CIVL3210 | 2 | Geotechnical Engineering |
CIVL3360 | 2 | Reinforced Concrete Design |
CIVL3520 | 2 | Project Management and Professional Practice |
CIVL3530 | 2 | Data Analytics in Civil Engineering |
Course Code | Units | Course Title |
CIVL4170 | 2 | Environmental Risk Assessment and Management |
[ CIVL4514 | 2 | Integrated Design |
[ or | ||
[ CIVL4516 | 2 | Integrated Design for Environmental Management |
CIVL4600 | 2 | Research Part A |
Students must complete 16 units comprising –
Course Code | Units | Course Title |
CIVL3220 | 2 | Rock Mechanics |
CIVL3340 | 2 | Structural Analysis |
CIVL3350 | 2 | Integrated Structural Design |
CIVL3380 | 2 | Structural Steel Design |
CIVL3420 | 2 | Sustainable Transport Engineering – Planning and Design |
CIVL4111 | 2 | Ocean, Coastal and Estuarine Engineering |
CIVL4112 | 2 | Hydro and Ocean Powered Renewable Energy Systems |
CIVL4121 | 2 | Environmental Hydraulics and Flood Management |
CIVL4145 | 2 | Groundwater Modelling and Management |
CIVL4230 | 2 | Advanced Soil Mechanics |
CIVL4270 | 2 | Geotechnical Investigation & Testing |
CIVL4280 | 2 | Advanced Rock Mechanics |
CIVL4290 | 2 | Geotechnical Infrastructure |
CIVL4333 | 2 | Advanced Concrete Design |
CIVL4334 | 2 | Design of Timber Structures |
CIVL4340 | 2 | Wind Engineering |
CIVL4460 | 2 | Highway Geometric Design |
CIVL4522 | 2 | Analytical Methods for the Design of Construction Operations |
CIVL4525 | 2 | Sustainable Infrastructure Design |
CIVL4450 | 2 | Traffic Flow Theory and Emerging Technologies |
CIVL4605 | 2 | Civil Research Part B |
CIVL6210 | 2 | Dam Engineering |
CIVL6215 | 2 | Ground Improvement |
CIVL6220 | 2 | Tailings Design |
CIVL6250 | 2 | Underground Structures |
CIVL6360 | 2 | Advanced Structural Analysis |
CIVL6410 | 2 | Transport Network Modelling |
CIVL6412 | 2 | Traffic Behavioural Modelling |
CIVL6415 | 2 | Traffic Analysis and Simulation |
ENVE3150 | 2 | Environmental Systems Dynamics & Modelling |
ENVE3160 | 2 | Environmental Phenomena |
ENVE4610 | 2 | Engineering the Circular Economy |
ENVE6110 | 2 | Environmental Sensor System & Monitoring |
FIRE3700 | 2 | Introduction to Fire Safety Engineering |
FIRE4610 | 2 | Fire Engineering Design: Solutions for Implicit Safety |
FIRE6090 | 2 | Fire Dynamics |
FIRE6100 | 2 | Fire Engineering Design: Explicit Quantification of Safety |
FIRE6110 | 2 | Structural Fire Engineering |
Course Code | Units | Course Title |
MATH2001 | 2 | Calculus & Linear Algebra II |
Civil Engineering Breadth Electives can also be chosen from course lists for the following majors:
For the major in Environmental Engineering, students must complete 16 units comprising –
Course Code | Units | Course Title |
ENVE2501 | 2 | Environmental Systems |
ENVE3150 | 2 | Environmental Systems Dynamics & Modelling |
ENVE3160 | 2 | Environmental Phenomena |
ENVE4610 | 2 | Engineering the Circular Economy |
Course Code | Units | Course Title |
CHEE4012 | 2 | Industrial Wastewater & Solid Waste Management |
CIVL3420 | 2 | Sustainable Transport Engineering – Planning and Design |
CIVL4111 | 2 | Ocean, Coastal and Estuarine Engineering |
CIVL4112 | 2 | Hydro and Ocean Powered Renewable Energy Systems |
CIVL4121 | 2 | Environmental Hydraulics and Flood Management |
CIVL4145 | 2 | Groundwater Modelling and Management |
CIVL4525 | 2 | Sustainable Infrastructure Design |
ENGY4000 | 2 | Energy Systems |
ENVE6110 | 2 | Environmental Sensor System & Monitoring |
ENVM3103 | 2 | Regulatory Frameworks for Environmental Management & Planning |
WATR6105 | 2 | Integrated Urban Water Management |
WATR6106 | 2 | Emerging Issues in the Urban Water Cycle and Public Water |
WATR6108 | 2 | Advanced Unit Operations in Water Management |
WATR6109 | 2 | Drinking Water Supply: Source, Treatment, Distribution |
Course Code | Units | Course Title |
CHEE4006 | 2 | Research Project |
CHEE4007 | 2 | Research Project |
[ CHEE4026 | 4 | Research Thesis |
[ or | ||
[ CHEE4027 | 4 | Thesis Project |
CIVL4605 | 2 | Civil Research Part B |
Course Code | Units | Course Title |
ENVM2100 | 2 | Foundations of Sustainable Development |
ENVM3201 | 2 | Catchment Processes & Management |
ERTH1501 | 2 | Earth Processes & Geological Materials for Engineers |
ERTH2004 | 2 | Structural & Metamorphic Geology |
ERTH3250 | 2 | Hydrogeology |
GEOM1000 | 2 | Fundamentals of Geographic Information & Technologies |
GEOM2001 | 2 | Geographical Information Systems |
GEOS1100 | 2 | Environment & Society |
GEOS2100 | 2 | Environmental Systems |
GEOS3102 | 2 | Global Change: Problems & Prospects |
For the major in Fire Safety Engineering, students must complete 16 units comprising –
2 units for
Course Code | Units | Course Title |
CIVL4605 | 2 | Civil Research Part B |
Course Code | Units | Course Title |
CIVL3220 | 2 | Rock Mechanics |
CIVL3340 | 2 | Structural Analysis |
CIVL3350 | 2 | Integrated Structural Design |
CIVL3380 | 2 | Structural Steel Design |
CIVL3420 | 2 | Sustainable Transport Engineering – Planning and Design |
CIVL4111 | 2 | Ocean, Coastal and Estuarine Engineering |
CIVL4112 | 2 | Hydro and Ocean Powered Renewable Energy Systems |
CIVL4121 | 2 | Environmental Hydraulics and Flood Management |
CIVL4145 | 2 | Groundwater Modelling and Management |
CIVL4230 | 2 | Advanced Soil Mechanics |
CIVL4270 | 2 | Geotechnical Investigation & Testing |
CIVL4280 | 2 | Advanced Rock Mechanics |
CIVL4290 | 2 | Geotechnical Infrastructure |
CIVL4333 | 2 | Advanced Concrete Design |
CIVL4334 | 2 | Design of Timber Structures |
CIVL4340 | 2 | Wind Engineering |
CIVL4460 | 2 | Highway Geometric Design |
CIVL4522 | 2 | Analytical Methods for the Design of Construction Operations |
CIVL4525 | 2 | Sustainable Infrastructure Design |
CIVL4450 | 2 | Traffic Flow Theory and Emerging Technologies |
CIVL4605 | 2 | Civil Research Part B |
CIVL6210 | 2 | Dam Engineering |
CIVL6215 | 2 | Ground Improvement |
CIVL6220 | 2 | Tailings Design |
CIVL6250 | 2 | Underground Structures |
CIVL6360 | 2 | Advanced Structural Analysis |
CIVL6410 | 2 | Transport Network Modelling |
CIVL6412 | 2 | Traffic Behavioural Modelling |
CIVL6415 | 2 | Traffic Analysis and Simulation |
ENVE3150 | 2 | Environmental Systems Dynamics & Modelling |
ENVE3160 | 2 | Environmental Phenomena |
ENVE4610 | 2 | Engineering the Circular Economy |
ENVE6110 | 2 | Environmental Sensor System & Monitoring |
FIRE3700 | 2 | Introduction to Fire Safety Engineering |
FIRE4610 | 2 | Fire Engineering Design: Solutions for Implicit Safety |
FIRE6090 | 2 | Fire Dynamics |
FIRE6100 | 2 | Fire Engineering Design: Explicit Quantification of Safety |
FIRE6110 | 2 | Structural Fire Engineering |
10 units for
Course Code | Units | Course Title |
FIRE3700 | 2 | Introduction to Fire Safety Engineering |
FIRE4610 | 2 | Fire Engineering Design: Solutions for Implicit Safety |
FIRE6090 | 2 | Fire Dynamics |
FIRE6100 | 2 | Fire Engineering Design: Explicit Quantification of Safety |
FIRE6110 | 2 | Structural Fire Engineering |
For the major in General Civil Engineering, students must complete 16 units comprising –
8 units for
Course Code | Units | Course Title |
CIVL3420 | 2 | Sustainable Transport Engineering – Planning and Design |
CIVL3340 | 2 | Structural Analysis |
CIVL3350 | 2 | Integrated Structural Design |
CIVL4121 | 2 | Environmental Hydraulics and Flood Management |
Course Code | Units | Course Title |
ERTH1501 | 2 | Earth Processes & Geological Materials for Engineers |
CIVL3380 | 2 | Structural Steel Design |
CIVL4111 | 2 | Ocean, Coastal and Estuarine Engineering |
CIVL4145 | 2 | Groundwater Modelling and Management |
CIVL4270 | 2 | Geotechnical Investigation & Testing |
CIVL4333 | 2 | Advanced Concrete Design |
CIVL4334 | 2 | Design of Timber Structures |
CIVL4340 | 2 | Wind Engineering |
CIVL4460 | 2 | Highway Geometric Design |
CIVL4525 | 2 | Sustainable Infrastructure Design |
CIVL4450 | 2 | Traffic Flow Theory and Emerging Technologies |
For the major in Geotechnical Engineering, students must complete 16 units comprising –
Course Code | Units | Course Title |
CIVL3220 | 2 | Rock Mechanics |
CIVL4230 | 2 | Advanced Soil Mechanics |
CIVL4270 | 2 | Geotechnical Investigation & Testing |
CIVL4280 | 2 | Advanced Rock Mechanics |
Course Code | Units | Course Title |
CIVL4290 | 2 | Geotechnical Infrastructure |
CIVL6210 | 2 | Dam Engineering |
CIVL6215 | 2 | Ground Improvement |
CIVL6220 | 2 | Tailings Design |
CIVL6250 | 2 | Underground Structures |
Course Code | Units | Course Title |
CIVL4145 | 2 | Groundwater Modelling and Management |
CIVL4460 | 2 | Highway Geometric Design |
ERTH1501 | 2 | Earth Processes & Geological Materials for Engineers |
ERTH2004 | 2 | Structural & Metamorphic Geology |
ERTH3250 | 2 | Hydrogeology |
GEOM1000 | 2 | Fundamentals of Geographic Information & Technologies |
GEOM2001 | 2 | Geographical Information Systems |
MINE3129 | 2 | Applied Mining Geomechanics |
For the major in Mining Engineering, students must complete 16 units comprising –
4 units from
Course Code | Units | Course Title |
CIVL3220 | 2 | Rock Mechanics |
CIVL3340 | 2 | Structural Analysis |
CIVL3350 | 2 | Integrated Structural Design |
CIVL3380 | 2 | Structural Steel Design |
CIVL3420 | 2 | Sustainable Transport Engineering – Planning and Design |
CIVL4111 | 2 | Ocean, Coastal and Estuarine Engineering |
CIVL4112 | 2 | Hydro and Ocean Powered Renewable Energy Systems |
CIVL4121 | 2 | Environmental Hydraulics and Flood Management |
CIVL4145 | 2 | Groundwater Modelling and Management |
CIVL4230 | 2 | Advanced Soil Mechanics |
CIVL4270 | 2 | Geotechnical Investigation & Testing |
CIVL4280 | 2 | Advanced Rock Mechanics |
CIVL4290 | 2 | Geotechnical Infrastructure |
CIVL4333 | 2 | Advanced Concrete Design |
CIVL4334 | 2 | Design of Timber Structures |
CIVL4340 | 2 | Wind Engineering |
CIVL4460 | 2 | Highway Geometric Design |
CIVL4522 | 2 | Analytical Methods for the Design of Construction Operations |
CIVL4525 | 2 | Sustainable Infrastructure Design |
CIVL4450 | 2 | Traffic Flow Theory and Emerging Technologies |
CIVL4605 | 2 | Civil Research Part B |
CIVL6210 | 2 | Dam Engineering |
CIVL6215 | 2 | Ground Improvement |
CIVL6220 | 2 | Tailings Design |
CIVL6250 | 2 | Underground Structures |
CIVL6360 | 2 | Advanced Structural Analysis |
CIVL6410 | 2 | Transport Network Modelling |
CIVL6412 | 2 | Traffic Behavioural Modelling |
CIVL6415 | 2 | Traffic Analysis and Simulation |
ENVE3150 | 2 | Environmental Systems Dynamics & Modelling |
ENVE3160 | 2 | Environmental Phenomena |
ENVE4610 | 2 | Engineering the Circular Economy |
ENVE6110 | 2 | Environmental Sensor System & Monitoring |
FIRE3700 | 2 | Introduction to Fire Safety Engineering |
FIRE4610 | 2 | Fire Engineering Design: Solutions for Implicit Safety |
FIRE6090 | 2 | Fire Dynamics |
FIRE6100 | 2 | Fire Engineering Design: Explicit Quantification of Safety |
FIRE6110 | 2 | Structural Fire Engineering |
Course Code | Units | Course Title |
MINE3110 | 2 | Integrated Orebody Knowledge |
MINE3122 | 2 | Mining Systems |
MINE3123 | 2 | Mine Planning |
MINE3129 | 2 | Applied Mining Geomechanics |
MINE4124 | 2 | Hard Rock Mine Design & Feasibility |
MINE4129 | 2 | Mine Process Optimisation |
For the major in Structural Engineering, students must complete 16 units comprising –
Course Code | Units | Course Title |
CIVL3340 | 2 | Structural Analysis |
CIVL3350 | 2 | Integrated Structural Design |
CIVL3380 | 2 | Structural Steel Design |
CIVL4333 | 2 | Advanced Concrete Design |
CIVL4334 | 2 | Design of Timber Structures |
Course Code | Units | Course Title |
CIVL4230 | 2 | Advanced Soil Mechanics |
CIVL4340 | 2 | Wind Engineering |
CIVL4522 | 2 | Analytical Methods for the Design of Construction Operations |
CIVL4525 | 2 | Sustainable Infrastructure Design |
CIVL6360 | 2 | Advanced Structural Analysis |
FIRE4610 | 2 | Fire Engineering Design: Solutions for Implicit Safety |
FIRE6110 | 2 | Structural Fire Engineering |
For the major in Transport Engineering, students must complete 16 units comprising –
Course Code | Units | Course Title |
CIVL3420 | 2 | Sustainable Transport Engineering – Planning and Design |
CIVL4460 | 2 | Highway Geometric Design |
CIVL6410 | 2 | Transport Network Modelling |
CIVL6412 | 2 | Traffic Behavioural Modelling |
CIVL6415 | 2 | Traffic Analysis and Simulation |
Course Code | Units | Course Title |
CIVL4450 | 2 | Traffic Flow Theory and Emerging Technologies |
For the major in Water and Marine Engineering, students must complete 16 units comprising –
Course Code | Units | Course Title |
CIVL4111 | 2 | Ocean, Coastal and Estuarine Engineering |
CIVL4112 | 2 | Hydro and Ocean Powered Renewable Energy Systems |
CIVL4121 | 2 | Environmental Hydraulics and Flood Management |
CIVL4340 | 2 | Wind Engineering |
Course Code | Units | Course Title |
CIVL4145 | 2 | Groundwater Modelling and Management |
ENVE6110 | 2 | Environmental Sensor System & Monitoring |
Course Code | Units | Course Title |
ENVM3103 | 2 | Regulatory Frameworks for Environmental Management & Planning |
ENVM3115 | 2 | Climate Change & Environmental Management |
ENVM3201 | 2 | Catchment Processes & Management |
ERTH3250 | 2 | Hydrogeology |
Complete 16 units comprising:
For the minor in Computing, students must complete 8 units comprising –
Course Code | Units | Course Title |
CSSE2002 | 2 | Programming in the Large |
COMP3506 | 2 | Algorithms & Data Structures |
Course Code | Units | Course Title |
COMP4702 | 2 | Machine Learning |
COSC2500 | 2 | Numerical Methods in Computational Science |
COSC3000 | 2 | Visualization, Computer Graphics & Data Analysis |
COSC3500 | 2 | High-Performance Computing |
INFS1200 | 2 | Introduction to Information Systems |
INFS3208 | 2 | Cloud Computing |
MATH3202 | 2 | Operations Research & Mathematical Planning |
For the minor in Data Science, students must complete 8 units comprising –
Course Code | Units | Course Title |
DATA2001 | 2 | Introduction to Data Science |
INFS1200 | 2 | Introduction to Information Systems |
Course Code | Units | Course Title |
COMP4702 | 2 | Machine Learning |
INFS2200 | 2 | Relational Database Systems |
INFS3208 | 2 | Cloud Computing |
INFS4203 | 2 | Data Mining |
STAT2003 | 2 | Mathematical Probability |
STAT2004 | 2 | Statistical Modelling & Analysis |
Bachelor of Engineering (Honours) (plan code ELECTE2455)
For the BE(Hons), students must complete a total of 64 units comprising –
and
NB: of the 64 units required for the program, students must complete at least 24 units of courses at level 3 or higher and no more than 24 units at level 1
Course Code | Units | Course Title |
ENGG1100 | 2 | Professional Engineering |
[ ENGG1001 | 2 | Programming for Engineers |
[ or | ||
[ CSSE1001 | 2 | Introduction to Software Engineering |
[ MATH1051 | 2 | Calculus & Linear Algebra I |
[ or | ||
[ MATH1071 | 2 | Advanced Calculus & Linear Algebra I |
[ MATH1052 | 2 | Multivariate Calculus & Ordinary Differential Equations |
[ or | ||
[ MATH1072 | 2 | Advanced Multivariate Calculus & Ordinary Differential Equations |
Course Code | Units | Course Title |
CHEM1090 | 2 | Introductory Chemistry |
PHYS1171 | 2 | Physical Basis of Biological Systems |
MATH1050 | 2 | Mathematical Foundations II |
For the specialisation in Electrical Engineering, students must complete 36 units comprising –
Course Code | Units | Course Title |
ENGG1300 | 2 | Introduction to Electrical Systems |
Course Code | Units | Course Title |
CSSE2010 | 2 | Introduction to Computer Systems |
CSSE2310 | 2 | Computer Systems Principles and Programming |
ELEC2004 | 2 | Circuits, Signals & Systems |
ELEC2300 | 2 | Electromagnetism and Electromechanics |
ELEC2400 | 2 | Electronic Circuits and Amplifiers |
ENGG2800 | 2 | Team Project I |
MATH2001 | 2 | Calculus & Linear Algebra II |
MATH2010 | 1 | Analysis of Ordinary Differential Equations |
STAT2201 | 1 | Analysis of Engineering & Scientific Data |
Course Code | Units | Course Title |
CSSE3010 | 2 | Embedded Systems Design & Interfacing |
ELEC3004 | 2 | Signals, Systems & Control |
ELEC3100 | 2 | Fundamentals of Electromagnetic Fields & Waves |
ENGG3800 | 2 | Team Project II |
Course Code | Units | Course Title |
ENGG4900 | 2 | Professional Practice and the Business Environment |
METR4201 | 2 | Control Engineering 1 |
[ ENGG4811 | 4 | Thesis Project |
[ or | ||
[ ENGG4812 | 4 | Thesis Project |
Course Code | Units | Course Title |
ENGG1300 | 2 | Introduction to Electrical Systems |
Course Code | Units | Course Title |
CSSE2010 | 2 | Introduction to Computer Systems |
CSSE2310 | 2 | Computer Systems Principles and Programming |
ELEC2004 | 2 | Circuits, Signals & Systems |
ELEC2300 | 2 | Electromagnetism and Electromechanics |
ELEC2400 | 2 | Electronic Circuits and Amplifiers |
ENGG2800 | 2 | Team Project I |
MATH2001 | 2 | Calculus & Linear Algebra II |
MATH2010 | 1 | Analysis of Ordinary Differential Equations |
STAT2201 | 1 | Analysis of Engineering & Scientific Data |
Course Code | Units | Course Title |
CSSE3010 | 2 | Embedded Systems Design & Interfacing |
ELEC3004 | 2 | Signals, Systems & Control |
ELEC3100 | 2 | Fundamentals of Electromagnetic Fields & Waves |
ENGG3800 | 2 | Team Project II |
Students must complete 16 units comprising –
Course Code | Units | Course Title |
ELEC3310 | 2 | Electrical Energy Conversion & Utilisation |
Course Code | Units | Course Title |
COMS4113 | 2 | Photonics |
COMS4104 | 2 | Microwave Engineering |
COMS4105 | 2 | Communication Systems |
CSSE4010 | 2 | Digital System Design |
ELEC4310 | 2 | Power Systems Analysis |
ELEC4410 | 2 | Advanced Electronic & Power Electronics Design |
ELEC4620 | 2 | Digital Signal Processing |
ELEC4630 | 2 | Image Processing and Computer Vision |
METR4202 | 2 | Robotics & Automation |
METR6203 | 2 | Control Engineering 2 |
Course Code | Units | Course Title |
ELEC4302 | 2 | Power System Protection |
ELEC4320 | 2 | Modern Asset Management and Condition Monitoring in Power System |
ENGG4020 | 2 | Systems Safety Engineering |
Electrical Engineering Breadth Electives can also be chosen from course lists for the following majors:
For the Major in Biomedical Engineering, students must complete 16 units comprising –
Course Code | Units | Course Title |
BIOE6403 | 2 | Biomedical Instrumentation |
BIOE6601 | 2 | Medical Imaging |
Course Code | Units | Course Title |
BIOE1001 | 2 | Principles of Biomedical & Bioprocess Engineering |
BIOE3001 | 2 | Quantitative Methods in Biomedical Engineering |
BIOE4305 | 2 | Biomaterials: Materials in Medicine |
BIOE6901 | 2 | Medical Device Engineering |
Course Code | Units | Course Title |
BIOC2000 | 2 | Biochemistry & Molecular Biology |
BIOE6028 | 2 | Metabolic Engineering |
BIOE6034 | 2 | Cell and Tissue Engineering |
BIOE6403 | 2 | Biomedical Instrumentation |
BIOE6601 | 2 | Medical Imaging |
BIOL1040 | 2 | Cells to Organisms |
BIOL2200 | 2 | Molecular Cell Biology I |
BIOL2202 | 2 | Genetics |
BIOL3014 | 2 | Advanced Bioinformatics |
BIOM2011 | 2 | Integrative Cell & Tissue Biology |
BIOM2012 | 2 | Systems Physiology |
BIOM2020 | 2 | Human Anatomy |
BIPH2000 | 2 | Foundations of Biophysics |
COMP4702 | 2 | Machine Learning |
COMS4113 | 2 | Photonics |
COMS4104 | 2 | Microwave Engineering |
CSSE2002 | 2 | Programming in the Large |
CSSE4011 | 2 | Advanced Embedded Systems |
ELEC4620 | 2 | Digital Signal Processing |
ELEC4630 | 2 | Image Processing and Computer Vision |
MATE6301 | 2 | Nanomaterials |
MECH3301 | 2 | Materials Selection |
MECH4950 | 2 | Advanced Manufacturing in Practice |
METR4202 | 2 | Robotics & Automation |
MICR2000 | 2 | Microbiology & Immunology |
SCIE2100 | 2 | Bioinformatics 1: Introduction |
[ CHEE4026 | 4 | Research Thesis |
[ or | ||
[ CHEE4027 | 4 | Thesis Project |
For the major in Computer Engineereing, students must complete 16 units comprising –
Course Code | Units | Course Title |
CSSE2002 | 2 | Programming in the Large |
COMP3506 | 2 | Algorithms & Data Structures |
Course Code | Units | Course Title |
CSSE4010 | 2 | Digital System Design |
CSSE4011 | 2 | Advanced Embedded Systems |
Course Code | Units | Course Title |
COMP2140 | 2 | Web/Mobile Programming |
COMP3301 | 2 | Operating Systems Architecture |
COMP3702 | 2 | Artificial Intelligence |
COMP3710 | 2 | Pattern Recognition and Analysis |
COMP4403 | 2 | Compilers and Interpreters |
COMP4500 | 2 | Advanced Algorithms & Data Structures |
COMP4702 | 2 | Machine Learning |
COMS3200 | 2 | Computer Networks I |
COMS4113 | 2 | Photonics |
COMS4104 | 2 | Microwave Engineering |
COMS4105 | 2 | Communication Systems |
COMS4507 | 2 | Advanced Topics in Security |
COMS6200 | 2 | Computer Networks II |
CSSE3012 | 2 | The Software Process |
CSSE3100 | 2 | Reasoning About Programs |
CSSE3200 | 2 | Software Engineering Studio: Design, Implement & Test |
CSSE4004 | 2 | Distributed Computing |
CSSE4400 | 2 | Software Architecture |
CSSE4630 | 2 | Principles of Program Analysis |
COSC3500 | 2 | High-Performance Computing |
CYBR3000 | 2 | Information Security |
DECO1400 | 2 | Introduction to Web Design |
DECO2500 | 2 | Human-Computer Interaction |
ELEC3310 | 2 | Electrical Energy Conversion & Utilisation |
ELEC4310 | 2 | Power Systems Analysis |
ELEC4620 | 2 | Digital Signal Processing |
ELEC4630 | 2 | Image Processing and Computer Vision |
ENGG2800 | 2 | Team Project I |
ENGG3800 | 2 | Team Project II |
ENGG4800 | 2 | Project Management |
INFS1200 | 2 | Introduction to Information Systems |
INFS2200 | 2 | Relational Database Systems |
METR3100 | 2 | Control System Implementation |
METR4202 | 2 | Robotics & Automation |
Complete 16 units comprising:
For the minor in Computing, students must complete 8 units comprising –
Course Code | Units | Course Title |
CSSE2002 | 2 | Programming in the Large |
COMP3506 | 2 | Algorithms & Data Structures |
Course Code | Units | Course Title |
COMP4702 | 2 | Machine Learning |
COSC2500 | 2 | Numerical Methods in Computational Science |
COSC3000 | 2 | Visualization, Computer Graphics & Data Analysis |
COSC3500 | 2 | High-Performance Computing |
INFS1200 | 2 | Introduction to Information Systems |
INFS3208 | 2 | Cloud Computing |
MATH3202 | 2 | Operations Research & Mathematical Planning |
For the minor in Data Science, students must complete 8 units comprising –
Course Code | Units | Course Title |
DATA2001 | 2 | Introduction to Data Science |
INFS1200 | 2 | Introduction to Information Systems |
Course Code | Units | Course Title |
COMP4702 | 2 | Machine Learning |
INFS2200 | 2 | Relational Database Systems |
INFS3208 | 2 | Cloud Computing |
INFS4203 | 2 | Data Mining |
STAT2003 | 2 | Mathematical Probability |
STAT2004 | 2 | Statistical Modelling & Analysis |
Bachelor of Engineering (Honours) (plan code MECHAE2455)
For the BE(Hons), students must complete a total of 64 units comprising –
and
NB: of the 64 units required for the program, students must complete at least 24 units of courses at level 3 or higher and no more than 24 units at level 1
Course Code | Units | Course Title |
ENGG1100 | 2 | Professional Engineering |
[ ENGG1001 | 2 | Programming for Engineers |
[ or | ||
[ CSSE1001 | 2 | Introduction to Software Engineering |
[ MATH1051 | 2 | Calculus & Linear Algebra I |
[ or | ||
[ MATH1071 | 2 | Advanced Calculus & Linear Algebra I |
[ MATH1052 | 2 | Multivariate Calculus & Ordinary Differential Equations |
[ or | ||
[ MATH1072 | 2 | Advanced Multivariate Calculus & Ordinary Differential Equations |
Course Code | Units | Course Title |
CHEM1090 | 2 | Introductory Chemistry |
PHYS1171 | 2 | Physical Basis of Biological Systems |
MATH1050 | 2 | Mathematical Foundations II |
For the specialisation in Mechanical Engineering, students must complete 36 units comprising –
Course Code | Units | Course Title |
ENGG1300 | 2 | Introduction to Electrical Systems |
ENGG1500 | 2 | Thermodynamics : Energy and the Environment |
ENGG1700 | 2 | Statics and Materials |
Course Code | Units | Course Title |
MECH2100 | 2 | Machine Element Design |
MECH2210 | 2 | Intermediate Mechanical & Space Dynamics |
MECH2300 | 2 | Structures & Materials |
MECH2305 | 2 | Introduction to Engineering Design and Manufacturing |
MECH2410 | 2 | Fundamentals of Fluid Mechanics |
MATH2001 | 2 | Calculus & Linear Algebra II |
MATH2010 | 1 | Analysis of Ordinary Differential Equations |
STAT2201 | 1 | Analysis of Engineering & Scientific Data |
Course Code | Units | Course Title |
MECH3100 | 2 | Mechanical Systems Design |
MECH3200 | 2 | Advanced Dynamics & Vibrations |
MECH3400 | 2 | Thermodynamics & Heat Transfer |
MECH3610 | 2 | Systems Engineering Principles |
Course Code | Units | Course Title |
ENGG4552 | 4 | Major Design Project |
ENGG4900 | 2 | Professional Practice and the Business Environment |
METR4201 | 2 | Control Engineering 1 |
[ ENGG4600 | 4 | Engineering Thesis |
[ or | ||
[ ENGG4601 | 4 | Engineering Thesis |
[ or | ||
[ ENGG4013 | 4 | Professional Engineering Project |
Complete 16 units comprising –
Course Code | Units | Course Title |
MECH2700 | 2 | Computational Engineering & Data Analysis |
MECH3410 | 2 | Fluid Mechanics |
MECH3780 | 2 | Computational Mechanics |
Course Code | Units | Course Title |
AERO4300 | 2 | Aerospace Composites |
AERO4450 | 2 | Aerospace Propulsion |
AERO4470 | 2 | Hypersonics |
AERO4800 | 2 | Space Engineering |
ENGG4103 | 2 | Engineering Asset Management |
ENGY4000 | 2 | Energy Systems |
FIRE3700 | 2 | Introduction to Fire Safety Engineering |
MATE4302 | 2 | Electrochemistry and Corrosion |
MECH3250 | 2 | Engineering Acoustics |
MECH3301 | 2 | Materials Selection |
MECH4304 | 2 | Net Shape Manufacturing |
MECH4950 | 2 | Advanced Manufacturing in Practice |
MECH4951 | 1 | Special Topics D |
METR3100 | 2 | Control System Implementation |
METR4202 | 2 | Robotics & Automation |
TIMS3309 | 2 | Technology and Innovation Management |
Course Code | Units | Course Title |
ELEC2300 | 2 | Electromagnetism and Electromechanics |
ENGG1600 | 2 | Introduction to Research Practices – The Big Issues |
FIRE3700 | 2 | Introduction to Fire Safety Engineering |
MECH2310 | 2 | Science & Engineering of Metals |
PHYS2082 | 2 | Space Science & Stellar Astrophysics |
Mechanical Engineering Breadth Electives can also be chosen from course lists for the following majors:
For the Major in Aerospace Engineering, students must complete 16 units comprising –
12 units for
Course Code | Units | Course Title |
AERO4100 | 2 | Aero Design and Manufacturing |
AERO4200 | 2 | Flight Mechanics & Avionics |
AERO4450 | 2 | Aerospace Propulsion |
MECH2700 | 2 | Computational Engineering & Data Analysis |
MECH3780 | 2 | Computational Mechanics |
MECH3410 | 2 | Fluid Mechanics |
4 units from
Course Code | Units | Course Title |
AERO4300 | 2 | Aerospace Composites |
AERO4470 | 2 | Hypersonics |
AERO4800 | 2 | Space Engineering |
For the Major in Biomedical Engineering, students must complete 16 units comprising –
Course Code | Units | Course Title |
MECH2700 | 2 | Computational Engineering & Data Analysis |
MECH3780 | 2 | Computational Mechanics |
Course Code | Units | Course Title |
BIOE1001 | 2 | Principles of Biomedical & Bioprocess Engineering |
BIOE3001 | 2 | Quantitative Methods in Biomedical Engineering |
BIOE4305 | 2 | Biomaterials: Materials in Medicine |
BIOE6901 | 2 | Medical Device Engineering |
Course Code | Units | Course Title |
BIOC2000 | 2 | Biochemistry & Molecular Biology |
BIOE6028 | 2 | Metabolic Engineering |
BIOE6034 | 2 | Cell and Tissue Engineering |
BIOE6403 | 2 | Biomedical Instrumentation |
BIOE6601 | 2 | Medical Imaging |
BIOL1040 | 2 | Cells to Organisms |
BIOL2200 | 2 | Molecular Cell Biology I |
BIOL2202 | 2 | Genetics |
BIOL3014 | 2 | Advanced Bioinformatics |
BIOM2011 | 2 | Integrative Cell & Tissue Biology |
BIOM2012 | 2 | Systems Physiology |
BIOM2020 | 2 | Human Anatomy |
BIPH2000 | 2 | Foundations of Biophysics |
COMP4702 | 2 | Machine Learning |
COMS4113 | 2 | Photonics |
COMS4104 | 2 | Microwave Engineering |
CSSE2002 | 2 | Programming in the Large |
CSSE4011 | 2 | Advanced Embedded Systems |
ELEC4620 | 2 | Digital Signal Processing |
ELEC4630 | 2 | Image Processing and Computer Vision |
MATE6301 | 2 | Nanomaterials |
MECH3301 | 2 | Materials Selection |
MECH4950 | 2 | Advanced Manufacturing in Practice |
METR4202 | 2 | Robotics & Automation |
MICR2000 | 2 | Microbiology & Immunology |
SCIE2100 | 2 | Bioinformatics 1: Introduction |
[ CHEE4026 | 4 | Research Thesis |
[ or | ||
[ CHEE4027 | 4 | Thesis Project |
For the major in Fire Safety Engineering, students must complete 16 units comprising –
4 units for
Course Code | Units | Course Title |
MECH2700 | 2 | Computational Engineering & Data Analysis |
MECH3780 | 2 | Computational Mechanics |
Course Code | Units | Course Title |
AERO4300 | 2 | Aerospace Composites |
AERO4450 | 2 | Aerospace Propulsion |
AERO4470 | 2 | Hypersonics |
AERO4800 | 2 | Space Engineering |
ENGG4103 | 2 | Engineering Asset Management |
ENGY4000 | 2 | Energy Systems |
FIRE3700 | 2 | Introduction to Fire Safety Engineering |
MATE4302 | 2 | Electrochemistry and Corrosion |
MECH3250 | 2 | Engineering Acoustics |
MECH3301 | 2 | Materials Selection |
MECH4304 | 2 | Net Shape Manufacturing |
MECH4950 | 2 | Advanced Manufacturing in Practice |
MECH4951 | 1 | Special Topics D |
METR3100 | 2 | Control System Implementation |
METR4202 | 2 | Robotics & Automation |
TIMS3309 | 2 | Technology and Innovation Management |
10 units for
Course Code | Units | Course Title |
FIRE3700 | 2 | Introduction to Fire Safety Engineering |
FIRE4610 | 2 | Fire Engineering Design: Solutions for Implicit Safety |
FIRE6090 | 2 | Fire Dynamics |
FIRE6100 | 2 | Fire Engineering Design: Explicit Quantification of Safety |
FIRE6110 | 2 | Structural Fire Engineering |
For the major in Materials Engineereing, students must complete 16 units comprising –
Course Code | Units | Course Title |
MECH2700 | 2 | Computational Engineering & Data Analysis |
MECH3780 | 2 | Computational Mechanics |
Course Code | Units | Course Title |
CHEE3301 | 2 | Polymer Engineering |
MATE4302 | 2 | Electrochemistry and Corrosion |
MECH2310 | 2 | Science & Engineering of Metals |
MECH3301 | 2 | Materials Selection |
Course Code | Units | Course Title |
AERO4300 | 2 | Aerospace Composites |
BIOE4305 | 2 | Biomaterials: Materials in Medicine |
CHEE4006 | 2 | Research Project |
CHEE4007 | 2 | Research Project |
[ CHEE4026 | 4 | Research Thesis |
[ or | ||
[ CHEE4027 | 4 | Thesis Project |
MATE6301 | 2 | Nanomaterials |
MECH2305 | 2 | Introduction to Engineering Design and Manufacturing |
MECH4304 | 2 | Net Shape Manufacturing |
For the major in Mining Engineering, students must complete 16 units comprising –
Course Code | Units | Course Title |
MECH2700 | 2 | Computational Engineering & Data Analysis |
MECH3780 | 2 | Computational Mechanics |
Course Code | Units | Course Title |
MINE3110 | 2 | Integrated Orebody Knowledge |
MINE3122 | 2 | Mining Systems |
MINE3123 | 2 | Mine Planning |
MINE3129 | 2 | Applied Mining Geomechanics |
MINE4124 | 2 | Hard Rock Mine Design & Feasibility |
MINE4129 | 2 | Mine Process Optimisation |
Complete 16 units comprising:
For the minor in Computing, students must complete 8 units comprising –
Course Code | Units | Course Title |
CSSE2002 | 2 | Programming in the Large |
COMP3506 | 2 | Algorithms & Data Structures |
Course Code | Units | Course Title |
COMP4702 | 2 | Machine Learning |
COSC2500 | 2 | Numerical Methods in Computational Science |
COSC3000 | 2 | Visualization, Computer Graphics & Data Analysis |
COSC3500 | 2 | High-Performance Computing |
INFS1200 | 2 | Introduction to Information Systems |
INFS3208 | 2 | Cloud Computing |
MATH3202 | 2 | Operations Research & Mathematical Planning |
For the minor in Data Science, students must complete 8 units comprising –
Course Code | Units | Course Title |
DATA2001 | 2 | Introduction to Data Science |
INFS1200 | 2 | Introduction to Information Systems |
Course Code | Units | Course Title |
COMP4702 | 2 | Machine Learning |
INFS2200 | 2 | Relational Database Systems |
INFS3208 | 2 | Cloud Computing |
INFS4203 | 2 | Data Mining |
STAT2003 | 2 | Mathematical Probability |
STAT2004 | 2 | Statistical Modelling & Analysis |
Bachelor of Engineering (Honours) (plan code MECTRE2455)
For the BE(Hons), students must complete a total of 64 units comprising –
and
NB: of the 64 units required for the program, students must complete at least 24 units of courses at level 3 or higher and no more than 24 units at level 1
Course Code | Units | Course Title |
ENGG1100 | 2 | Professional Engineering |
[ ENGG1001 | 2 | Programming for Engineers |
[ or | ||
[ CSSE1001 | 2 | Introduction to Software Engineering |
[ MATH1051 | 2 | Calculus & Linear Algebra I |
[ or | ||
[ MATH1071 | 2 | Advanced Calculus & Linear Algebra I |
[ MATH1052 | 2 | Multivariate Calculus & Ordinary Differential Equations |
[ or | ||
[ MATH1072 | 2 | Advanced Multivariate Calculus & Ordinary Differential Equations |
Course Code | Units | Course Title |
CHEM1090 | 2 | Introductory Chemistry |
PHYS1171 | 2 | Physical Basis of Biological Systems |
MATH1050 | 2 | Mathematical Foundations II |
For the specialisation in Mechatronic Engineering, students complete 36 units comprising:
Course Code | Units | Course Title |
ENGG1300 | 2 | Introduction to Electrical Systems |
ENGG1700 | 2 | Statics and Materials |
Course Code | Units | Course Title |
CSSE2010 | 2 | Introduction to Computer Systems |
ELEC2004 | 2 | Circuits, Signals & Systems |
ELEC2300 | 2 | Electromagnetism and Electromechanics |
MATH2001 | 2 | Calculus & Linear Algebra II |
MATH2010 | 1 | Analysis of Ordinary Differential Equations |
STAT2201 | 1 | Analysis of Engineering & Scientific Data |
MECH2100 | 2 | Machine Element Design |
MECH2210 | 2 | Intermediate Mechanical & Space Dynamics |
MECH2300 | 2 | Structures & Materials |
METR2800 | 2 | Mechatronic System Design Project I |
Course Code | Units | Course Title |
METR3100 | 2 | Control System Implementation |
Course Code | Units | Course Title |
ENGG4900 | 2 | Professional Practice and the Business Environment |
METR4201 | 2 | Control Engineering 1 |
METR4202 | 2 | Robotics & Automation |
METR4810 | 2 | Mechatronic System Design Project II |
METR4911 | 4 | Thesis/Design Project |
Complete 16 units comprising –
Course Code | Units | Course Title |
ELEC2400 | 2 | Electronic Circuits and Amplifiers |
ELEC3004 | 2 | Signals, Systems & Control |
MECH3200 | 2 | Advanced Dynamics & Vibrations |
METR6203 | 2 | Control Engineering 2 |
Course Code | Units | Course Title |
AERO4300 | 2 | Aerospace Composites |
AERO4450 | 2 | Aerospace Propulsion |
AERO4470 | 2 | Hypersonics |
AERO4800 | 2 | Space Engineering |
COMP3702 | 2 | Artificial Intelligence |
COMP3710 | 2 | Pattern Recognition and Analysis |
COMP4702 | 2 | Machine Learning |
CSSE3010 | 2 | Embedded Systems Design & Interfacing |
CSSE4010 | 2 | Digital System Design |
CSSE4011 | 2 | Advanced Embedded Systems |
ELEC3100 | 2 | Fundamentals of Electromagnetic Fields & Waves |
ELEC3310 | 2 | Electrical Energy Conversion & Utilisation |
ELEC4310 | 2 | Power Systems Analysis |
ELEC4410 | 2 | Advanced Electronic & Power Electronics Design |
ELEC4620 | 2 | Digital Signal Processing |
ELEC4630 | 2 | Image Processing and Computer Vision |
ENGG4103 | 2 | Engineering Asset Management |
ENGY4000 | 2 | Energy Systems |
MECH3250 | 2 | Engineering Acoustics |
MECH3301 | 2 | Materials Selection |
MECH4304 | 2 | Net Shape Manufacturing |
MECH4950 | 2 | Advanced Manufacturing in Practice |
MECH4951 | 1 | Special Topics D |
TIMS3309 | 2 | Technology and Innovation Management |
Mechatronic Engineering Breadth Electives can be chosen from course lists for the following majors:
For the major in Computer Engineereing, students must complete 16 units comprising –
Course Code | Units | Course Title |
COMP3506 | 2 | Algorithms & Data Structures |
CSSE2002 | 2 | Programming in the Large |
CSSE2310 | 2 | Computer Systems Principles and Programming |
CSSE3010 | 2 | Embedded Systems Design & Interfacing |
ELEC3004 | 2 | Signals, Systems & Control |
MECH3200 | 2 | Advanced Dynamics & Vibrations |
Course Code | Units | Course Title |
CSSE4010 | 2 | Digital System Design |
CSSE4011 | 2 | Advanced Embedded Systems |
Course Code | Units | Course Title |
COMP2140 | 2 | Web/Mobile Programming |
COMP3301 | 2 | Operating Systems Architecture |
COMP3702 | 2 | Artificial Intelligence |
COMP3710 | 2 | Pattern Recognition and Analysis |
COMP4403 | 2 | Compilers and Interpreters |
COMP4500 | 2 | Advanced Algorithms & Data Structures |
COMP4702 | 2 | Machine Learning |
COMS3200 | 2 | Computer Networks I |
COMS4113 | 2 | Photonics |
COMS4104 | 2 | Microwave Engineering |
COMS4105 | 2 | Communication Systems |
COMS4507 | 2 | Advanced Topics in Security |
COMS6200 | 2 | Computer Networks II |
CSSE3012 | 2 | The Software Process |
CSSE3100 | 2 | Reasoning About Programs |
CSSE3200 | 2 | Software Engineering Studio: Design, Implement & Test |
CSSE4004 | 2 | Distributed Computing |
CSSE4400 | 2 | Software Architecture |
CSSE4630 | 2 | Principles of Program Analysis |
COSC3500 | 2 | High-Performance Computing |
CYBR3000 | 2 | Information Security |
DECO1400 | 2 | Introduction to Web Design |
DECO2500 | 2 | Human-Computer Interaction |
ELEC3310 | 2 | Electrical Energy Conversion & Utilisation |
ELEC4310 | 2 | Power Systems Analysis |
ELEC4620 | 2 | Digital Signal Processing |
ELEC4630 | 2 | Image Processing and Computer Vision |
ENGG2800 | 2 | Team Project I |
ENGG3800 | 2 | Team Project II |
ENGG4800 | 2 | Project Management |
INFS1200 | 2 | Introduction to Information Systems |
INFS2200 | 2 | Relational Database Systems |
METR3100 | 2 | Control System Implementation |
METR4202 | 2 | Robotics & Automation |
For the major in Mining Engineering, students must complete 16 units comprising –
Course Code | Units | Course Title |
ELEC3004 | 2 | Signals, Systems & Control |
MECH3200 | 2 | Advanced Dynamics & Vibrations |
Course Code | Units | Course Title |
MINE3110 | 2 | Integrated Orebody Knowledge |
MINE3122 | 2 | Mining Systems |
MINE3123 | 2 | Mine Planning |
MINE3129 | 2 | Applied Mining Geomechanics |
MINE4124 | 2 | Hard Rock Mine Design & Feasibility |
MINE4129 | 2 | Mine Process Optimisation |
Complete 16 units comprising:
8 units for one of the following minors:
Data Science
Computer Science
For the minor in Computing, students must complete 8 units comprising –
Course Code | Units | Course Title |
CSSE2002 | 2 | Programming in the Large |
COMP3506 | 2 | Algorithms & Data Structures |
Course Code | Units | Course Title |
COMP4702 | 2 | Machine Learning |
COSC2500 | 2 | Numerical Methods in Computational Science |
COSC3000 | 2 | Visualization, Computer Graphics & Data Analysis |
COSC3500 | 2 | High-Performance Computing |
INFS1200 | 2 | Introduction to Information Systems |
INFS3208 | 2 | Cloud Computing |
MATH3202 | 2 | Operations Research & Mathematical Planning |
For the minor in Data Science, students must complete 8 units comprising –
Course Code | Units | Course Title |
DATA2001 | 2 | Introduction to Data Science |
INFS1200 | 2 | Introduction to Information Systems |
Course Code | Units | Course Title |
COMP4702 | 2 | Machine Learning |
INFS2200 | 2 | Relational Database Systems |
INFS3208 | 2 | Cloud Computing |
INFS4203 | 2 | Data Mining |
STAT2003 | 2 | Mathematical Probability |
STAT2004 | 2 | Statistical Modelling & Analysis |
Bachelor of Engineering (Honours) (plan code SOFTWE2455)
For the BE(Hons), students must complete a total of 64 units comprising –
and
NB: of the 64 units required for the program, students must complete at least 24 units of courses at level 3 or higher and no more than 24 units at level 1
Course Code | Units | Course Title |
ENGG1100 | 2 | Professional Engineering |
[ ENGG1001 | 2 | Programming for Engineers |
[ or | ||
[ CSSE1001 | 2 | Introduction to Software Engineering |
[ MATH1051 | 2 | Calculus & Linear Algebra I |
[ or | ||
[ MATH1071 | 2 | Advanced Calculus & Linear Algebra I |
[ MATH1052 | 2 | Multivariate Calculus & Ordinary Differential Equations |
[ or | ||
[ MATH1072 | 2 | Advanced Multivariate Calculus & Ordinary Differential Equations |
Course Code | Units | Course Title |
CHEM1090 | 2 | Introductory Chemistry |
PHYS1171 | 2 | Physical Basis of Biological Systems |
MATH1050 | 2 | Mathematical Foundations II |
For the specialisation in Software Engineering, students must complete 36 units comprising –
Course Code | Units | Course Title |
ENGG1300 | 2 | Introduction to Electrical Systems |
INFS1200 | 2 | Introduction to Information Systems |
MATH1061 | 2 | Discrete Mathematics |
Course Code | Units | Course Title |
CSSE2002 | 2 | Programming in the Large |
CSSE2010 | 2 | Introduction to Computer Systems |
CSSE2310 | 2 | Computer Systems Principles and Programming |
DECO2500 | 2 | Human-Computer Interaction |
STAT2203 | 2 | Probability Models & Data Analysis |
Course Code | Units | Course Title |
COMP3400 | 2 | Functional & Logic Programming |
COMP3506 | 2 | Algorithms & Data Structures |
CSSE3012 | 2 | The Software Process |
CSSE3200 | 2 | Software Engineering Studio: Design, Implement & Test |
DECO3801 | 2 | Design Computing Studio 3 – Build |
Course Code | Units | Course Title |
CSSE4400 | 2 | Software Architecture |
[ ENGG4811 | 4 | Thesis Project |
[ or | ||
[ ENGG4812 | 4 | Thesis Project |
ENGG4900 | 2 | Professional Practice and the Business Environment |
Complete 16 units comprising –
Course Code | Units | Course Title |
DECO3800 | 2 | Design Computing Studio 3 – Proposal |
Course Code | Units | Course Title |
COMP3301 | 2 | Operating Systems Architecture |
COMP3400 | 2 | Functional & Logic Programming |
COMP3702 | 2 | Artificial Intelligence |
COMP3710 | 2 | Pattern Recognition and Analysis |
COMP4403 | 2 | Compilers and Interpreters |
COMP4500 | 2 | Advanced Algorithms & Data Structures |
COMP4702 | 2 | Machine Learning |
COMS3200 | 2 | Computer Networks I |
COMS4507 | 2 | Advanced Topics in Security |
COMS6200 | 2 | Computer Networks II |
COSC3000 | 2 | Visualization, Computer Graphics & Data Analysis |
COSC3500 | 2 | High-Performance Computing |
CSSE3010 | 2 | Embedded Systems Design & Interfacing |
CSSE3100 | 2 | Reasoning About Programs |
CSSE4010 | 2 | Digital System Design |
CSSE4630 | 2 | Principles of Program Analysis |
CYBR3000 | 2 | Information Security |
DECO3500 | 2 | Social & Mobile Computing |
DECO3800 | 2 | Design Computing Studio 3 – Proposal |
DECO6500 | 2 | Advanced Human-Computer Interaction |
INFS2200 | 2 | Relational Database Systems |
INFS3200 | 2 | Advanced Database Systems |
INFS3202 | 2 | Web Information Systems |
INFS3208 | 2 | Cloud Computing |
INFS4203 | 2 | Data Mining |
INFS4205 | 2 | Advanced Techniques for High Dimensional Data |
Course Code | Units | Course Title |
COMP3880 | 2 | International Software Development |
ENGG4020 | 2 | Systems Safety Engineering |
MATH2001 | 2 | Calculus & Linear Algebra II |
Software Engineering Breadth Electives can also be chosen from course lists for the following majors:
For the major in Computer Engineereing, students must complete 16 units comprising –
Course Code | Units | Course Title |
CSSE3010 | 2 | Embedded Systems Design & Interfacing |
DECO3800 | 2 | Design Computing Studio 3 – Proposal |
ELEC2400 | 2 | Electronic Circuits and Amplifiers |
Course Code | Units | Course Title |
CSSE4010 | 2 | Digital System Design |
CSSE4011 | 2 | Advanced Embedded Systems |
Course Code | Units | Course Title |
COMP2140 | 2 | Web/Mobile Programming |
COMP3301 | 2 | Operating Systems Architecture |
COMP3702 | 2 | Artificial Intelligence |
COMP3710 | 2 | Pattern Recognition and Analysis |
COMP4403 | 2 | Compilers and Interpreters |
COMP4500 | 2 | Advanced Algorithms & Data Structures |
COMP4702 | 2 | Machine Learning |
COMS3200 | 2 | Computer Networks I |
COMS4113 | 2 | Photonics |
COMS4104 | 2 | Microwave Engineering |
COMS4105 | 2 | Communication Systems |
COMS4507 | 2 | Advanced Topics in Security |
COMS6200 | 2 | Computer Networks II |
CSSE3012 | 2 | The Software Process |
CSSE3100 | 2 | Reasoning About Programs |
CSSE3200 | 2 | Software Engineering Studio: Design, Implement & Test |
CSSE4004 | 2 | Distributed Computing |
CSSE4400 | 2 | Software Architecture |
CSSE4630 | 2 | Principles of Program Analysis |
COSC3500 | 2 | High-Performance Computing |
CYBR3000 | 2 | Information Security |
DECO1400 | 2 | Introduction to Web Design |
DECO2500 | 2 | Human-Computer Interaction |
ELEC3310 | 2 | Electrical Energy Conversion & Utilisation |
ELEC4310 | 2 | Power Systems Analysis |
ELEC4620 | 2 | Digital Signal Processing |
ELEC4630 | 2 | Image Processing and Computer Vision |
ENGG2800 | 2 | Team Project I |
ENGG3800 | 2 | Team Project II |
ENGG4800 | 2 | Project Management |
INFS1200 | 2 | Introduction to Information Systems |
INFS2200 | 2 | Relational Database Systems |
METR3100 | 2 | Control System Implementation |
METR4202 | 2 | Robotics & Automation |
Complete 16 units comprising:
For the minor in Data Science, students must complete 8 units comprising –
Course Code | Units | Course Title |
DATA2001 | 2 | Introduction to Data Science |
INFS1200 | 2 | Introduction to Information Systems |
Course Code | Units | Course Title |
COMP4702 | 2 | Machine Learning |
INFS2200 | 2 | Relational Database Systems |
INFS3208 | 2 | Cloud Computing |
INFS4203 | 2 | Data Mining |
STAT2003 | 2 | Mathematical Probability |
STAT2004 | 2 | Statistical Modelling & Analysis |
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