Found 77 study abroad units
EGB274 Environmentally Sustainable Design
Unit information
- School/discipline
- School of Civil & Environmental Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
The knowledge and skills associated with site investigation, analysis and planning for sustainable development are essential for civil and environmental engineers, as is the ability to work within multidisciplinary teams to achieve balanced solutions on social, economic, cultural and environmental outcomes. This sustainable development design project requires you to undertake typical site investigations, site analyses and conceptual designs for a selected site covering sustainability issues in the following areas: Sustainable Transport, Land Planning including assessment of the surrounding areas, Water & Wastewater Management and Environmental Impact Assessment. This unit extends and applies the knowledge developed in design based engineering units to important issues such as site analysis, site investigation, site planning, development assessment, environmental management, water quality, pollution prevention and control, and resource and waste management.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB275 Structural Mechanics
Unit information
- School/discipline
- School of Civil & Environmental Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February) and Semester 2 (July)
Unit synopsis
Structural engineering is a prominent field of civil engineering that focuses on creation of safe, economical and sustainable structures. Structural engineers use knowledge and skills bases that you will learn in this unit to meet stakeholders' needs. You will learn moment distribution, introduction to structural analysis software, principle of virtual work to determine deflections, transformation of stresses and Mohr's Circle, torsion, shear flow, shear centre, unsymmetrical bending, the principle of compatibility, and combined axial loading and bending of structural elements and systems. In this unit you will further develop your mathematical skills (20% of this unit is maths) in structural engineering applications, and professional skills in engineering communication. This unit draws upon your learning in EGB121 Engineering Mechanics and MZB127 Engineering Mathematics and Statistics. All structural engineering units in the Civil Engineering major will build upon this unit.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB314 Solid Mechanics
Unit information
- School/discipline
- School of Mechanical, Medical and Process Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
As a mechanical/medical engineer, you must have the expertise to analyse components and systems of components to produce safe and efficient designs. Strength of Materials is an intermediate level unit which investigates how external loading produces internal stresses and strains in a solid body, and the implications of these stresses and strains for components’ strength, stiffness and robustness. Understanding this subject is an essential part of the design process that ensures the structural integrity of various structures, electromechanical devices and mechanisms. When used effectively and this process can result in lightweight, reliable and robust structures. This unit builds on the concepts from the introductory EGB121 - Engineering Mechanics unit. Future units, such as EGB210 - Fundamentals of Mechanical Design, EGB316 - Design of Machine elements and EGH414 - Stress Analysis use the knowledge and techniques developed in this subject extensively.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB316 Design of Machine Elements
Unit information
- School/discipline
- School of Mechanical, Medical and Process Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
Mechanical design within professional engineering practice requires that graduates bring together the various analytical techniques they know in a systematic way to develop confidence in a design or analysis. In this unit students will learn advanced theories of mechanical design analysis, and will apply this in the design and analysis of a variety of machine elements. Methodical design process is emphasized, as is the application of relevant design standards, and advanced simulation using the Finite Element Analysis package ANSYS. A key focus of the unit is the repeated application of a practice based design analysis workflow to real machine components. Weekly application of the design skills being developed, make you comfortable with both mechanical systems as a whole, and the determination, estimation, or selection of open ended quantities within the design process.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB319 Medical Device Design
Unit information
- School/discipline
- School of Mechanical, Medical and Process Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
Professional medical engineers work with medical devices at different stages of their life-cycle. Doing so requires specialist understanding of the regulatory requirements for medical devices. In this unit, you will work together with peers to propose and evaluate designs to address an unmet clinical need. In assuming a team role you will be exposed to the various duties that medical engineers may fulfill in professional practice. The impacts of the regulatory environment on medical device design will be explored as well as the importance of quality and risk management. EGB319 Medical Device Design builds on EGB210 Fundamentals of Mechanical Design to develop your engineering design skills, with particular emphasis on medical device concept development, EGH435 Modelling and Simulation for Medical Engineers will add quantitative design skills to enable refinement of medical device designs.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB321 Dynamics of Machines
Unit information
- School/discipline
- School of Mechanical, Medical and Process Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
Professional engineers have a "comprehensive, theory-based understanding of the underpinning natural and physical sciences and the engineering fundamentals applicable to the engineering discipline" (Engineers Australia Stage 1 Competency Standard for Professional Engineers). This engineering core unit introduces fundamental concepts of dynamics & vibration of machines in an engineering context. You will develop the ability to recognise and apply the developed theories and formulas to solve fundamental engineering problems involving position, velocity, acceleration and force and to solve more complex problems involving nonlinear equation of motion, free body diagram as an introduction to predicting the vibration behaviours of engineering systems. You will undertake laboratory work in groups to plan and conduct experiments to predict and analyze the behavior of physical systems and apply this theoretical dynamics knowledge into practice to design walkable robots.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB323 Fluid Mechanics
Unit information
- School/discipline
- School of Mechanical, Medical and Process Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
Professional engineers have a "comprehensive, theory based understanding of the underpinning natural and physical sciences and the engineering fundamentals applicable to the engineering discipline" (Engineers Australia Stage 1 Competency Standard for Professional Engineer). This 2nd-year unit introduces the fundamentals of fluid mechanics applied by engineers to understand and characterize fluid flows. The concepts, principles and equations of fluid mechanics are presented in the context of real engineering systems. The unit will provide you with the ability to apply and solve problems related to hydrostatics, explain and report how basic fluid mechanics is used in hydraulic structures and fluid systems, and apply the energy and momentum equations. This unit also contains an embedded mathematics component (30%) to provide intermediate level vector calculus as well as dynamical systems and their stability to support student learning in intermediate level engineering units.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB349 Systems Engineering and Design Project
Unit information
- School/discipline
- School of Electrical Engineering and Robotics
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
Engineers who work on large projects need a specific suite of additional skills when compared to engineers who work on smaller projects. Systems Engineering provides the framework to allow the interoperability to be addressed. These skills include technical design and implementation, management of the project and teamwork coordination. Compliance to Australian and International standards is also an essential requirement of the designs. This unit provides skills and knowledge for a project teamwork activity, and builds on the work you learned in foundation of engineering design and electronic design. This unit will develop the necessary competency in dealing with aerospace systems.The objectives of the unit are to provide a grounding in systems engineering methodology according to the various standards in use throughout the world, to expose you to the experience and the problems of working as a member of a design team, and to have you undertake a group design exercise.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB362 Operations Management and Process Economics
Unit information
- School/discipline
- School of Mechanical, Medical and Process Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
This an intermediate level unit for chemical process engineering, addressing concepts to allow an engineer to understand the competing factors that affect operations and profitability of a chemical process in an Australian context. The unit brings together operations management and process economics concepts to understand the competing factors that affect operations and profitability of a chemical process in an Australian context. You will work together with peers on an authentic learning experience in a role play and submit a portfolio of works. You will draw on process operations introduced in EGB261.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB365 Fluid and Particle Mechanics
Unit information
- School/discipline
- School of Mechanical, Medical and Process Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
This unit builds technical competence in the design of unit operations that involve fluid and particle mechanics in multiphase systems. This includes filtration, mechanics of particles through fluid, flow through porous media, fluidisation, sedimentation and multiphase pipe flow. You will learn how to perform fluid and particle mechanics design calculations at an intermediate level for filters, clarifiers and related operations. You will also learn how to develop elementary reactor models from first principles, and will apply these models to reactive fluid/particle technologies. The unit builds on introductory mass and energy balance concepts learned in EGB263 Process Systems and unit operations introduced in EGB261 Unit Operations.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB371 Engineering Hydraulics
Unit information
- School/discipline
- School of Civil & Environmental Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
Hydraulic engineering is a prominent field of civil engineering that focuses on design, construction, operation and maintenance of infrastructure including dams, pumping stations, water and wastewater treatment plants, water distribution systems and sewer collection systems. Hydraulic engineers use knowledge and skills bases that you will learn in this unit to meet stakeholders' needs. You will learn about the engineering applications of water and other fluids through pipe flow, energy loss in pipes, pipe systems, water distribution systems and open channel flow hydraulics. You will further develop your professional skills in communication and engineering teamwork. This unit draws upon your learning in EGB123 Civil Engineering Systems and EGB124 Engineering for the Environment. EGH471 Advanced Water Engineering will build upon this unit.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB375 Design of Concrete Structures
Unit information
- School/discipline
- School of Civil & Environmental Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
Structural engineering is a prominent field of civil engineering that includes a focus on concrete structures, which are the most common form of construction worldwide. Structural engineers use knowledge and skills bases that you will learn in this unit to design concrete structures to meet stakeholders' needs. You will learn the core concepts of the design principles and methods of the reinforced and prestressed concrete and their application to structural elements such as the beams, slabs, columns and footings of buildings. You will learn the essential principles of safety, economy, sustainability and constructability in design of concrete structures. You will continue to develop your personal and professional attributes, especially communication skills in design. This unit draws upon your learning in EGB121 Engineering Mechanics, EGB270 Civil Engineering Materials, and EGB275 Structural Mechanics. EGH475 Advanced Concrete Structures will build upon this unit.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB382 Construction Methodologies
Unit information
- School/discipline
- School of Civil & Environmental Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
Success in civil engineering construction projects is dependent on the selection of correct construction procedures matched with the correct equipment and ancillary temporary work. To do this, a construction engineer must have command of a range of options and the judgement to integrate these options for optimal outcomes for all stakeholders. This unit covers the fundamentals of project execution and start up of civil engineering projects. The subjects to be covered will include: site investigation, survey, identification and provision of temporary facilities, selection of equipment, material management, methods of construction, environmental protection practices, workplace health and safety requirements. The emphasis of the content will be on heavy, civil engineering projects existing or relevant to Queensland with a focus on environmental concerns and safety.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB386 Design of Masonry Structures
Unit information
- School/discipline
- School of Civil & Environmental Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
This unit deals with the application of structural masonry to buildings with the core concepts of the design principles and methods of assessing the structural performance of masonry walls subject to earthquake and gravity loading. Most masonry buildings have heritage value and require knowledge for preservation; masonry structures are also popular in medium rise residential and industrial buildings. Therefore, this unit introduces the principles of safe and economical design of masonry walls for fire and combined compression, flexure and shear. Unreinforced, partially reinforced and fully reinforced masonry structures are covered.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB414 Advanced Materials
Unit information
- School/discipline
- School of Mechanical, Medical and Process Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
With a rapidly growing and ageing world population, the need for novel materials with advanced properties to address critical issues from structure to energy, environment and healthcare is increasing. You will be introduced to advanced materials including functional metallic alloys, ceramic, polymers, composites, and nanostructured materials and examined in more depth in the context of their properties, processing, performance and their applications in robust designs. Where appropriate, relevant engineering cases, research papers that outline the latest developments in research, and laboratory experiments will be provided to an in-depth understanding of the selected material or applications. This is an advanced engineering unit that is built from knowledge and skills you previously learned in EGB214 Materials and Manufacturing. It is covers advanced engineering materials and their applications.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB415 Motor Racing Vehicle Design
Unit information
- School/discipline
- School of Mechanical, Medical and Process Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
Building on fundamental mechanics, materials, and design units, in this unit you will study design, development, and setup of motor racing vehicles. In addition to basic content delivery in lectures, learning will take place through a series of practicals, computer laboratories, a group design project, and industry-led tutorials. Where possible, a track day will be organised with the QUT Motorsport Team.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB423 Heating, Ventilation and Air Conditioning
Unit information
- School/discipline
- School of Mechanical, Medical and Process Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
This unit introduces the basic principles of HVAC and refrigeration systems in the context of buildings in sub-tropical environments. In buildings, health and comfort level of people are highly related to the indoor thermal environments. Many methods have been developed to alter our immediate environment to achieve 'comfortable' conditions, particularly within the built environment. Using the principles of thermodynamics and fluid mechanics, engineers have developed efficient HVAC systems that process ambient air to conditions deemed to be comfortable for most people. HVAC systems are designed to create a comfortable and safe environment and are one of the most important systems in modern buildings. On the other hand, HVAC systems are most energy consuming systems in commercial and residential buildings and therefore energy efficiency is a prime concern for these systems.This unit provides detailed analysis and implementation of the design practices required for engineers.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB432 Asset Management and Maintenance
Unit information
- School/discipline
- School of Mechanical, Medical and Process Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
Engineers are often involved in the acquisition, maintenance, and renewal of equipment. The ability to analyse maintenance data and develop effective maintenance plans remain important skills for today’s engineers. The focus of this unit is on the development of techniques to manage the life cycles of engineering assets effectively to maximise their value. The unit will introduce students to the theory and techniques of Reliability Engineering, develop tools for the analysis of maintenance data, and address the development of optimised maintenance strategies.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB439 Advanced Robotics
Unit information
- School/discipline
- School of Electrical Engineering and Robotics
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
In this unit, you will develop your skills in the theory and practice of mobile robotics. The theory part includes advanced topics on motion models, motion control, motion planning,localisation, and simultaneous localisation and mapping (SLAM). Practice requires the translation of theory to working software which is evaluated using online tools. This unit builds on skills developed in EGB339.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB482 Contracting and Construction Regulations
Unit information
- School/discipline
- School of Civil & Environmental Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
A construction engineer must have an appreciation of the commercial environment in which they work. The law and particularly the law relating to construction has a significant impact upon that commercial environment. This unit will provide a framework and sufficient detail to increase your awareness of how the law governs you and your organisation's actions within the industry. In addition, you will understand the operation of a construction contract and the claims and disputes commonly associated with the administration of such a contract. The lectures provide a solid foundation required for Construction Engineers, and embedded in the tutorials are discussions of real-world cases of the past month to highlight the importance of understanding the impacts of day-to-day decisions in the world of construction.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGB485 Finite Element Analysis
Unit information
- School/discipline
- School of Civil & Environmental Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
Finite Element Analysis (FEA) is a computer based method for analysing structures under static or dynamics loadings. It has applications in all areas of engineering and is used by practising engineers and researchers to analyse and design all types of structures including buildings, bridges, dams, multi-purpose towers, cooling towers, etc. FEA enables multiple and repeated analyses with ease and hence facilitates the optimum design of the structure. It is available through a number of well- known packages such as Strand 7, ANSYS, ABAQUS, LSDYNA, etc. It is now possible to treat complex problems such as dynamic seismic analysis, impact and blast analyses and structural health monitoring and damage detection, all of which were impossible prior to the advent of FEA. Students who complete this unit will be well prepared to face the challenges of modern design offices.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGH414 Stress Analysis and Numerical Modelling
Unit information
- School/discipline
- School of Mechanical, Medical and Process Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
Mechanical/Medical engineers need to analyse components and systems to produce safe effective designs, innovate new products and improve existing devices. Towards a professional engineer, an understanding of how engineering components respond to loads to produce stress and strain, and the nature of the stresses and strains is required. This unit introduces computational methods to analyse, design and optimize more complex components and systems. You will work with peers to learn basic finite element method in solving stress and strain in simple engineering components in response to loadings. This unit builds on the intermediate Engineering Mechanics units, and aims to extend your knowledge on basic mechanics of materials to more advanced stress analysis methods. This unit also contains an embedded maths module to provide advanced level numerical analysis techniques to support student learning in advanced level engineering units. The mathematics constitutes 30% of this unit.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGH419 Advanced Design and Entrepreneurship
Unit information
- School/discipline
- School of Electrical Engineering and Robotics
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
This unit introduces you to advanced design practice and fundamental entrepreneurial concepts. The unit combines skills in electrical engineering with entrepreneurship. You will work in a team and apply your new knowledge in entrepreneurship to devise an idea for an artefact that solves a customer’s problem or satisfies a demand in the market. You will learn how to think about a business case for your idea, identify potential customers and analyse the market situation. In your team, you will apply advanced design methods to evaluate your product or service idea based on its technology feasibility, desirability, and commercial viability. You will heavily draw on the project management and team skills learned in the previous project unitsEGB240 or EGB220 and EGB320.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGH421 Vibration and Control
Unit information
- School/discipline
- School of Mechanical, Medical and Process Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
The ability to analyse and control the dynamic behaviour of machinery and processes is core competency for mechanical engineers. In this unit, you will be introduced to the theory and techniques that underpin dynamic systems analysis and control system engineering, including: transfer function representations, stability, steady-state behaviour, and frequency response. You will then use these techniques to design controllers to achieve certain transient and steady-state performance criteria. Together, these concepts and analysis tools will provide you with a solid foundation to develop real-world controllers, including the ubiquitous proportional-integral-derivative (PID) controller. In this capstone unit, you will draw on the earlier dynamics units EGB321 Dynamics of Machines, and EGB211 Dynamics. An embedded mathematics module, constituting 20% of the unit, provides advanced methods that support student learning in the engineering context.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGH438 Biomaterials
Unit information
- School/discipline
- School of Mechanical, Medical and Process Engineering
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
Biomaterials are widely used to create medical implants and devices. Thus, it is important for biomedical engineers to understand the fundamental properties of biomaterials and their interactions with biological systems. After taking this unit, you should be able to select suitable biomaterials for specific medical implants, devices and tissue engineering applications based on key features including biocompatibility, manufacturability, and sustainability. You will also have the essential knowledge to communicate with other professionals in the biomedical space including materials engineers, cell biologists, surgeons, and medical device regulators.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGH441 Power System Modelling
Unit information
- School/discipline
- School of Electrical Engineering and Robotics
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
The power grid consists of various components such as generators, transmission lines, transformers and loads. In this unit, you will learn the technical aspects of power system modelling, which will help you to understand the operations and planning of the modern electricity grid. You will use several mathematical techniques to design and analyse power systems and learn professional industry practices such as load flow, fault calculations, protection, and stability. This unit will help you to further develop your professional skills in communication and engineering teamwork.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGH443 Advanced Telecommunications and RF
Unit information
- School/discipline
- School of Electrical Engineering and Robotics
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
With the increasing importance of telecommunications systems and services in people's lives, a unit covering the fundamentals and applications of advanced communication systems is indispensable in the Electrical Engineering Curriculum. Therefore, this unit provides an understanding of the evolution of mobile communications systems from 1st generation to 5th generation, efficient cellular planning, wireless channel characteristics and modelling, antenna measurements, antenna arrays and beamforming, transmitter and receiver diversity, multi-carrier systems, error control coding and decoding, and optical fibre communications. Emphasis is placed on fundamental principles of advanced communication methods so that on graduation, you will be able to interpret existing and emerging communication technologies. This is an advanced unit and therefore prior knowledge of basic signal analysis (EGB242), and telecommunications and RF (EGB342) is required.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGH445 Modern Control
Unit information
- School/discipline
- School of Electrical Engineering and Robotics
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
In this unit you will learn fundamental concepts and methods used for modelling, analysis and control design of complex engineering systems. The unit introduces a general class of models for complex systems known as state-space descriptions. This class of models allows the development of control techniques and designs that shape and modify the behaviour of many real-world systems. You will create digital control systems, thereby developing skills in the practical application of control designs into real systems. To be successful, you will draw on knowledge acquired in EGB345 and its prerequisites.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGH448 Power Electronics
Unit information
- School/discipline
- School of Electrical Engineering and Robotics
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
This is a higher level unit that aims to introduce the principles of operation of basic power electronic circuits and systems used in industrial applications. This unit enables the learner to understand, interpret and compare the characteristics of power devices such as power diodes, thyristors, BJT, MOSFET, IGBT etc,; analyse common types of diode and thyristor converters, inverters, and DC-DC converters; use simulation tools to model and analyse simple power electronic circuits; perform experiments on power electronic hardware circuits; obtain measurements. Power processing can be considered as one of the major applications of electronics in industry applications. A broad understanding of industrial electronic circuits and systems will provide the foundation not only to designadvanced power processing circuits for complex systems but also to operate and maintain them properly. Such knowledge is essential for a graduate electrical engineer who intends to work in industry.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.
EGH451 Distributed Renewable Electrical Energy Systems
Unit information
- School/discipline
- School of Electrical Engineering and Robotics
- Study level
- Undergraduate units
- Availability
- Semester 1 (February)
Unit synopsis
The proliferation of renewable power generation is changing the way electricity is generated and delivered, shifting from a centralised towards a more distributed generation model. The renewable energy sources are typically integrated and interfaced with the electricity grid via power electronic converter systems. In this unit you will learn about the structure, layout, and key characteristics of renewable electrical energy systems, from small residential photovoltaic installations to large-scale photovoltaic power plants and wind farms. The unit will also discuss grid connected versus stand alone renewable energy systems, DC and AC microgrids, the concept of smart grid and virtual power plants.
Approval required
You can only enrol in this undergraduate unit if you meet the specified requirements and have significant background knowledge in the area of study. After you apply, we will assess the units and your background knowledge and let you know the outcome.