A programming language, basic maths. Prof Philip Leong Session: Candidates with a prior Bachelor of Engineering degree or equivalent in the field related to this specialisation may be exempted from Foundation units. Hard real time and embedded systems, as applied to engineering, manufacturing and automation. It covers recent findings in the fundamental theory and the massive change of modern power electronic equipment and methods supporting the electricity grids. The learning activity should demonstrate outcomes and workload equivalent to a 6 credit point Master’s level unit in the student’s current award program. Assessment in this unit is by the submission of a portfolio containing written reports on the involvement with industry.
Real time software design. It focuses on photonic network architectures and protocols, network design, enabling technologies and the drivers for intelligent optical network. Management of shared resources. Dr Yash Shrivastava Session: Students should have completed one year of their MPE program before enrolling in this unit. The basics of antenna radiation are introduced with emphasis on the important performance characteristics of the radiation field pattern in 3 dimensions and feed impedance. 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.
This unit will cover advanced technologies on power electronics interfaces for smart grids and microgrid implementation, which include dynamic voltage restorer, active power filter, reactive power compensation, energy storage management, hybrid energy sources optimisation, multilevel inverter and control, D-STATCOM, etc.
Specifically, the UoS aims to 1. Familiarity with basic mathematics and physics; competence with basic circuit theory and understanding of electricity grid equipment such as transformers, transmission lines and associated modeling; and fundamentals of power electronic technologies.
Capstone Project A covers first steps of thesis research starting with development of research proposal. Key learning outcomes are: Semester 1,Semester 2 Prohibitions: Operation of these electricity grids requires a huge amount of data gathering, communication and information processing. Mobility management in MobileIP. Following concepts are assumed knowledge for this unit of study: Confidence in mathematical operation usually needed to handle telecommunications problems such as Fourier transform, fundamental in signals and systems theory, convolution, and similar techniques.
Basic knowledge of communications, electronics and photonics Assessment: Many countries including Australia are developing different power electronics technologies such as titlse renewable energy sources into the grid, managing charging and discharging of high power energy storage system, controlling the reactive power of power electronics interfaces for grid stability, and adding communication capability to power electronics interfaces for smart meter implementation.
Internet protocols for mobile networks. Dr Yash Shrivastava Session: In response to the need to reduce carbon impact, future networks will feature diverse generation scattered lcrs over the network including at distribution levels.
University of Sydney Handbooks – 2016 Archive
This unit assumes an understanding of the fundamental concepts and building blocks of electrical and electronics circuits. It commences with a description of optical fibre propagation characteristics and transmission properties. In particular it will focus on Australian consulting, logistics and construction engineering firms that are operating on a global basis. Knowledge of the power market mechanisms has become a necessary part in fully understanding the whole power system operations.
It aims to give the students an appreciation of the possibilities in the design of control and automation in a range of application areas. This unit of study builds upon earlier work and provides an introduction to radio frequency components and systems used in wireless and satellite communications as well as in other high frequency applications. Handover, interaction with titpes fixed network.
Review of analog and digital signals. Microcells and macrocells, Medium access control: Lecture 2 hours per week; Tutorial 1 hour per week; Courseaork 1 hour per week; Laboratory: The final thesis must be the student’s individual work, although research is sometimes conducted in the framework of a group project shared with others.
So a power market design has many special considerations compared with a conventional commercial market design. Semester 1,Semester 2 Classes: Fundamental mathematics including probability theory and linear algebra. Information systems and data gathering will be used to assess key performance and security indicators associated with the operation of such grids including stability, reliability and power quality.
Coursewor unit is concerned with the theory and practice of real time computer systems as applied to the design of embedded systems and hitles control systems in engineering, manufacturing and automation.
Unit of study descriptions – Engineering Postgraduate – The University of Sydney
Some prior knowledge of programming is preferred; for students without programming coursweork, extra ttiles is given in the first 6 weeks of the semester. It introduces students to the broad spectrum of satellite communications and its position in the entire telecommunications network; helps students to develop awareness of the key factors affecting a good satellite communications system and theoretical and practical skills in the design of a satellite communications link.
Based on the knowledge of the power market operation, the power system planning procedures and methods will also be discussed. Multipath fading, diversity, log-normal fading, mean propagation loss, propagation models. Network node functions and building blocks. It describes the key concepts of digital signal processing, including details of various transforms and filter design.