Students should also have a basic understanding of the physical properties of communication channels, techniques and limitations. Students undertaking this unit should be familiar with fundamental digital technologies and representations such as bit complement and internal word representation. Project Work – own time 8 hrs. Network node functions and building blocks. Student will learn how to critically design and evaluate digital communication systems including the elements of a digital transmission system, understand the limitations of communications channels, different analog and digital modulation schemes and reasons to use digital techniques instead of analog, and the effect of noise and interference in performance of the digital communication systems.
This course will provide an understanding of the fundamental principles of optical fibre communication systems. The characteristics of optical amplifiers will also be discussed. Topics include the principles of sustainability, sustainable design and social responsibility, sustainable and renewable energy sources, and sustainable use of water. The important ‘Pocklington’ equation for a wire dipole is developed from Maxwell’s equations and leads to the numerical analysis of wire antennas using ‘Moment’ methods. Content will include the challenges of modern management; understanding of the new rules of international competitiveness; effects of globalisation on Australia’s economic performance; the competitiveness of Australian firms; the generation of employment and wealth; the changing requirements of the engineer; the engineer as manager and strategist; the role of innovation in business management; product innovation and commercialisation; IP recognition and management; starting a high-tech company. Some background in programming, object oriented design and system architecture is assumed. Operation of these electricity grids requires a huge amount of data gathering, communication and information processing.
The concepts learnt in this unit will be made use of heavily in many units of study in the areas of communication, control, electronics, and signal processing. The study program will include management of quality in research, design and delivery of engineering works and investigation, as well coursewoek of safe work practices and systems assurance.
HSC Mathematics extension 1 or 2 Assessment: Infinite impulse response IIR filter design: Mobility management in MobileIP. For details of the reporting requirements, go to the faculty’s Practical Experience cooursework web site http: The concepts learnt in this unit will be made use of heavily in many units of study in later years in the areas of electronics, instrumentation, electrical machines, power systems, communication systems, and signal processing.
We will then consider light sources and the fundamental principles of laser action in semiconductor and other lasers, and also the characteristics of optical transmitters based on semiconductor and electro-optic modulation techniques. The following previous knowledge is assumed for this unit. Hard real time and embedded systems, as applied to engineering, courseworo and 22015.
A prime aim of this unit of study is to develop a capacity for research and inquiry in the field of real-time and embedded systems. The material, learning and assessment is tailored for graduates from Australian courseworkk overseas universities. Competences and experience in engineering obtained during an accepted engineering degree Assessment: Completion of this course is essential to specialize in Electrical, Telecommunication or Computer Engineering stream. This unit is concerned with the theory and practice of real time computer systems as applied to ritles design of embedded systems and computer control systems in engineering, manufacturing and automation.
This unit aims to teach the basic issues involved in the analysis and design of computer-controlled systems.
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The unit will cover the following topics: In order to enrol in a project, students must first secure an academic supervisor in an area that they are interested. This UoS is designed to provide graduate engineers studying for a Master of Professional Engineering degree with an introduction to the professional engineering skills necessary to practice as an engineer. The unit provides advanced knowledge associated with high voltage engineering methods, techniques and equipment.
It focuses on photonic network architectures and protocols, network design, enabling technologies and the drivers for intelligent optical network. Students are expected to implement and test some of these ideas on a digital signal processor DSP. Application of Matlab to simple problems from circuit theory, electronics, signals and systems and control.
Unit of study descriptions – Engineering Postgraduate – The University of Sydney
The following topics are covered. It also discusses consequent design principles for high-voltage equipment; of the generation of high direct, alternating and impulse voltages for testing high-voltage equipment; and of methods for monitoring and assessing the condition of high-voltage equipment such as dissolved gas analysis for oil-filled transformers and partial discharge in cables. For more information on units of study visit CUSP https: Introduction to power electronic systems and applications in the electrical grid, power semiconductors, reactive power control in power systems, flexible AC transmission systems FACTShigh-voltage direct-current transmission HVDCstatic reactive power compensator, dynamic voltage restorer, unified-power flow controller, line-commutated converters, thyristor-controlled equipment, phase-angle regulators, voltage-source converter based power electronic equipment, harmonics, power quality, passive and active filters, distributed generation, grid-interconnection of renewable energy sources, intelligent grid technologies.
This subject is designed to support Engineers in the implementation of engineering tasks in the workplace, It addresses the use of quality control and management as well as systems assurance processes. At the end of the course they will provide a presentation and demonstration of their project work to the class.
Investigation of the steady state and transient behaviour of LCR circuits. Operation of these electricity grids requires a huge amount of data gathering, communication and information processing.
Students will work individually or in groups on an assigned project for the Semester. Math Ext 1, fundamental concepts of signal and systems, fundamental electrical circuit theory and analysis Assessment: Shu Lin, Daniel J.
In order to enrol in a project, students must first secure an academic supervisor in an area that they are interested. Duncan Glover, Mulukutla S.