Bachelor of Engineering (Specialisation) with Honours (P4D)

The main objective of this unit is to introduce students to the fundamental thermodynamic and fluid mechanics physical laws, and develop in students the ability to apply these fundamental principles in thermal and fluid energy systems. Itemphasises understanding basic principles…

This unit analyses how the characteristics of earth materials may influence the design, construction, stability and life of engineering structures and consists of two components: engineering geology and soil mechanics. The engineering geology component will serve as an introduction to…

The unit aims to give students the skills to analyse structures as a foundation skill to the design, construction and supervision of structural projects. Topics include analysis of internal forces, stresses and deflections in statically determinate and indeterminate frames using…

The unit introduces civil and mechanical engineering students to the engineering properties of materials and manufacturing processes. It aims to develop a basic understanding of the properties of engineering materials, including metals, metal alloys and non-metallic materials.…

This unit develops students’ conceptual knowledge of fluid mechanics and their ability to solve complex problems in fluid mechanics. The governing equations in integral form are explored and applied to a range of practical problems including boundary layers, pipe flows,…

This unit builds on the basic concepts and fundamental principles of engineering geology and soil mechanics covered in a prerequisite unit. It gives an introduction to Geotechnical Engineering, and provides the basic concepts and mechanics necessary for geotechnical design. Through…

This unit enables students to extend their capacity to perform structural engineering analysis and design building on the basic concepts and fundamental principles of concrete materials and structural engineering analysis and design. The content of this unit covers concrete technology…

This unit introduces limit states design concepts followed by analytical and design techniques for steel and timber structures and members. It builds on the material covered in the statics and structural analysis units from years 1 and 2.The unit is…

It is becoming increasingly important for practicing engineers and scientists to understand the methods employed in spatial mapping and measurement. Global navigation systems such as GPS, airborne photography and airborne laser scanning, the increasing availability of satellite imagery, and modern…

Students are introduced to the state-of-the-art numerical methods and the application of Finite Element Analysis (FEA) and Computational Fluid Dynamics (CFD) in civil and mechanical engineering. The unit is delivered in three parts. The first two parts provide knowledge and…

The units overlays a formal environmental engineering framework to environmental and sustainability topics and shows how the traditional design process can be extended to include these issues. The aim is for students to develop the necessary knowledge and skills to…

This unit extends your knowledge learnt in ENG321 and focuses on the design of aspects of advanced timber structures such as timber-framed multi-storey residential or commercial buildings. Students will extend prior knowledge of design actions based on current Australian design…

The unit introduces students to the methods underlying the design and analysis of hydraulic systems and of environmental matters influencing hydraulic response. It emphasizes understanding principles and applying them to practical situations. The aim is to give students the necessary…

This unit combines two very important topics for civil engineers: asset management and road transportation engineering. Asset management addresses the important emerging ¿eld of infrastructure, and in this unit the key principles of asset management will be taught alongside principles…

This unit introduces students to the operation principles and characteristics of electrical machines and transformers as well as the physics behind the operation of these machines. Students will gain a thorough understanding of transformers, DC motors, induction machines and synchronous…

The unit is directed at building on the fundamentals of electrical circuits acquired in the first year of the course to provide technical competence in digital electronics. The unit introduces students to the properties and characteristics of digital electronics. Students…

The unit introduces students to the properties and characteristics of analogue electronics. Students will gain an understanding of basic analogue electrical systems and an understanding of how such systems can form part of larger technical systems. Fundamental skills will be…

In this unit knowledge and skills developed through the engineering course are applied in a team-based environment to the design and implementation of robotics and automation systems and electrical systems as used in industry. Students will complete two design projects…

This unit gives students a basic understanding of the fundamental principles involved in the modelling and control of linear systems. The topics to be covered will include: Introduction to control systems, mathematical models of systems, state variable models, feedback control…

The unit introduces the theory and practice of signals and linear systems and shows how transform techniques and transfer functions can be used to solve problems in several engineering fields. This unit is considered to be essential for power, electrical,…

The unit covers rule-based expert systems, fuzzy expert systems, frame-based expert systems, artificial neural networks, evolutionary computation, hybrid intelligent systems and knowledge engineering. The aim of this course is to acquaint students with intelligent systems and provide them with a…

This unit studies and explores communication technology among multiple users. The layered network model will be discussed with emphasis on those widely applied such as wired and wireless networks in the real world. Both technical aspects of communication networks such…

This unit introduces students to the basics of power system analysis, power generation and power transmission systems. Students will gain skills in analysing and modelling power systems, including calculating fault currents, performing stability analysis and solving load flow studies. The…

The aim of this unit is to instill confidence and understanding of those concepts of power system analysis that are likely to be encountered in the study and practice of electrical power engineering. The approach is to develop the thinking…

This unit concentrates on industrial process dynamics and control. The fundamentals of dynamic systems analysis and controller design studied in Control Systems 1 are built upon to include empirical modelling, and enhanced single loop control strategies. Specific topics that will…

The aim of this unit is to provide students with expertise in the design and analysis of power electronic circuits for a variety of practical applications. The unit covers a wide range of power electronic switching devices and converter circuits…

The unit is directed at building on the fundamentals of electronics engineering acquired in the earlier years of the course. The unit will enable students to make informed decisions regarding choice of advanced digital systems and advanced digital electronic design,…

This unit provides students with knowledge of renewable energy technologies, energy storage systems, power electronics interfaces and associated control, and renewable energy system design and implementation. Students will be able to practice their design skills in renewable energy systems through…

This unit introduces modern communication systems fundamentals for engineering students specialised in electronics and communication engineering and other electrical engineering streams. It starts with an introduction to analog communication systems for the concepts of AM and FM communication, and phase…

The unit extends the physics of electrical phenomena when wavelength is small relative to system physical dimensions. The unit introduces an analysis and design, as well as phenomena encountered when wavelength is short relative to the physical dimensions of an…

The aim of this unit is to provide students expertise in the analysis of power system dynamics and stability for practical applications. The unit covers an introduction to the concept of power system stability, representation of synchronous machines and AC…

This unit introduces students to the operation principles and characteristics of electrical machines and transformers as well as the physics behind the operation of these machines. Students will gain a thorough understanding of transformers, DC motors, induction machines and synchronous…

The unit is directed at building on the fundamentals of electrical circuits acquired in the first year of the course to provide technical competence in digital electronics. The unit introduces students to the properties and characteristics of digital electronics. Students…

The unit introduces students to the properties and characteristics of analogue electronics. Students will gain an understanding of basic analogue electrical systems and an understanding of how such systems can form part of larger technical systems. Fundamental skills will be…

In this unit knowledge and skills developed through the engineering course are applied in a team-based environment to the design and implementation of robotics and automation systems and electrical systems as used in industry. Students will complete two design projects…

This unit gives students a basic understanding of the fundamental principles involved in the modelling and control of linear systems. The topics to be covered will include: Introduction to control systems, mathematical models of systems, state variable models, feedback control…

The unit introduces the theory and practice of signals and linear systems and shows how transform techniques and transfer functions can be used to solve problems in several engineering fields. This unit is considered to be essential for power, electrical,…

This unit introduces students to the basics of power system analysis, power generation and power transmission systems. Students will gain skills in analysing and modelling power systems, including calculating fault currents, performing stability analysis and solving load flow studies. The…

The unit covers rule-based expert systems, fuzzy expert systems, frame-based expert systems, artificial neural networks, evolutionary computation, hybrid intelligent systems and knowledge engineering. The aim of this course is to acquaint students with intelligent systems and provide them with a…

The aim of this unit is to instill confidence and understanding of those concepts of power system analysis that are likely to be encountered in the study and practice of electrical power engineering. The approach is to develop the thinking…

This unit provides students with knowledge of renewable energy technologies, energy storage systems, power electronics interfaces and associated control, and renewable energy system design and implementation. Students will be able to practice their design skills in renewable energy systems through…

The aim of this unit is to provide students with expertise in the design and analysis of power electronic circuits for a variety of practical applications. The unit covers a wide range of power electronic switching devices and converter circuits…

The aim of this unit is to provide students expertise in the analysis of power system dynamics and stability for practical applications. The unit covers an introduction to the concept of power system stability, representation of synchronous machines and AC…

This unit introduces students to the operation principles and characteristics of electrical machines and transformers as well as the physics behind the operation of these machines. Students will gain a thorough understanding of transformers, DC motors, induction machines and synchronous…

The unit is directed at building on the fundamentals of electrical circuits acquired in the first year of the course to provide technical competence in digital electronics. The unit introduces students to the properties and characteristics of digital electronics. Students…

The unit introduces students to the properties and characteristics of analogue electronics. Students will gain an understanding of basic analogue electrical systems and an understanding of how such systems can form part of larger technical systems. Fundamental skills will be…

In this unit knowledge and skills developed through the engineering course are applied in a team-based environment to the design and implementation of robotics and automation systems and electrical systems as used in industry. Students will complete two design projects…

This unit studies and explores communication technology among multiple users. The layered network model will be discussed with emphasis on those widely applied such as wired and wireless networks in the real world. Both technical aspects of communication networks such…

This unit gives students a basic understanding of the fundamental principles involved in the modelling and control of linear systems. The topics to be covered will include: Introduction to control systems, mathematical models of systems, state variable models, feedback control…

The unit introduces the theory and practice of signals and linear systems and shows how transform techniques and transfer functions can be used to solve problems in several engineering fields. This unit is considered to be essential for power, electrical,…

The unit covers rule-based expert systems, fuzzy expert systems, frame-based expert systems, artificial neural networks, evolutionary computation, hybrid intelligent systems and knowledge engineering. The aim of this course is to acquaint students with intelligent systems and provide them with a…

This unit concentrates on industrial process dynamics and control. The fundamentals of dynamic systems analysis and controller design studied in Control Systems 1 are built upon to include empirical modelling, and enhanced single loop control strategies. Specific topics that will…

This unit introduces modern communication systems fundamentals for engineering students specialised in electronics and communication engineering and other electrical engineering streams. It starts with an introduction to analog communication systems for the concepts of AM and FM communication, and phase…

The unit extends the physics of electrical phenomena when wavelength is small relative to system physical dimensions. The unit introduces an analysis and design, as well as phenomena encountered when wavelength is short relative to the physical dimensions of an…

The unit is directed at building on the fundamentals of electronics engineering acquired in the earlier years of the course. The unit will enable students to make informed decisions regarding choice of advanced digital systems and advanced digital electronic design,…

In this unit you will develop knowledge and skills for solving problems in mechanical engineering specifically in the field of dynamics and vibration, this building on the theory of Newtonian Mechanics applied to the analysis of rigid body kinematics and…

The main objective of this unit is to introduce students to the fundamental thermodynamic and fluid mechanics physical laws, and develop in students the ability to apply these fundamental principles in thermal and fluid energy systems. Itemphasises understanding basic principles…

The unit introduces civil and mechanical engineering students to the engineering properties of materials and manufacturing processes. It aims to develop a basic understanding of the properties of engineering materials, including metals, metal alloys and non-metallic materials.…

The unit aims to give students the skills to analyse structures as a foundation skill to the design, construction and supervision of structural projects. Topics include analysis of internal forces, stresses and deflections in statically determinate and indeterminate frames using…

The aim of this unit is to develop a fundamental grasp of the concepts related to heat transfer. These phenomena are ubiquitous in mechanical engineering so a good understanding of them is essential for students to confidently progress to the…

This unit explores the dynamics of rigid bodies in three dimensions and also the vibration of systems. The dynamics part of the unit examines the kinematics and kinetics of rigid bodies in three dimensions, dynamic balancing of rotating equipment and…

This unit develops students’ conceptual knowledge of fluid mechanics and their ability to solve complex problems in fluid mechanics. The governing equations in integral form are explored and applied to a range of practical problems including boundary layers, pipe flows,…

In this unit you will build upon your background skills in design that will be developed to a professional engineering standard through a series of design projects dealing with different aspects of mechanical and mechatronic design with a specific focus…

Foundation automation skills are developed and are then applied in a group team-based environment to the design and implementation of robotics and engineering automation systems. Topics include programmable logic controllers and supervisory control, industrial robotics, machine vision, and microcontroller-based autonomous…

This unit consists of two parts: advanced fluid and thermal. In the fluid part, you will explore the governing equations of incompressible viscous fluid flow in differential form and investigate a range of topics such as laminar and turbulent flow…

Students are introduced to the state-of-the-art numerical methods and the application of Finite Element Analysis (FEA) and Computational Fluid Dynamics (CFD) in civil and mechanical engineering. The unit is delivered in three parts. The first two parts provide knowledge and…

This unit builds skills in industry-relevant mechanical design and simulation techniques. This is done through specific industry focused design projects developing engineering solutions satisfying project briefs and design constraints. The focus is on utilising design, modelling and simulation methods in…