It commences with a description of optical fibre propagation characteristics and transmission properties. The types and causes of power system faults; balanced faults and short circuit levels; an introduction to fault current transients in machines; symmetric components, sequence impedances and networks; the analysis of unsymmetrical faults. Traditional power networks featured a small number of large base-load plants sending power out over transmission lines to be distributed in radial lower voltage networks to loads. Knowledge of digital communications, wave propagation, and fundamental optics Assessment: In particular it will focus on Australian consulting, logistics and construction engineering firms that are operating on a global basis.
It will address all aspects of the management of technology, the nature and importance of technological change and innovation, within the context of the global knowledge economy, the management of the new product development process, the role of technology in manufacturing and service competitiveness, the role of IT in logistics management, supply chain strategies, and communication, and the characteristics of high technology markets. Direction of thesis work may be determined by the supervisor or be of an original nature, but in either case the student is responsible for the execution of the practical work and the general layout and content of the thesis itself. 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. 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. Approximating continuous time controllers. It assumes some knowledge of: The particular emphasis is on the time and frequency domain modeling of linear time invariant systems.
The emphasis is on theory rather than technological application or industrial practice. Capstone Project B covers the second of stage writing up and presenting the research results, coursewokr Capstone Project B extended allows the student to investigate a topic of greater depth and scope.
The topic of your project must be determined in discussion with the supervisor.
Circuit switched and packet switched communication. Select 18 credit points from the Specialist Electives unit block. The Capstone Project aims to provide students with the opportunity to carry out a defined piece of independent research or design work in a setting and in a manner that fosters the development of engineering skills in research or design.
The following topics are covered. It focuses on photonic network architectures and protocols, network design, enabling technologies and the drivers for intelligent optical network. On completion of this unit, studentss will have sufficient knowledge of the physical channel of a telecommunications network to approach the study of higher layers of the network stack. Prof Ron Johnston Session: The knowledge of ELEC is assumed. The unit will cover the following topics: Therefore, ttles unit complements SQE and strengthens a key area in the program.
Unit of study descriptions – Engineering Postgraduate – The University of Sydney
Candidates complete 36 credit points of specialist units, 12 credit points of Electives and 12 credit points of Management Electives across Year Two and Year Three. The 3 year MPE requires students to obtain industrial work experience of twelve weeks duration 60 working days or its equivalent towards satisfying the requirements for award of the degree. This unit aims lcrs give students an introduction to the planning and operation of modern electricity grids, also known as “smart” grids.
Operation of these electricity grids requires a huge amount of data gathering, communication and information processing. Dr Xiaoke Yi Session: Dr Swamidoss Sathiakumar Session: Unit of study descriptions Master of Professional Engineering Power. Basically, students need to know the concepts of data communications and mobile communications, which could be gained in one the following units of study: Year One covers Foundation units only.
Zero order hold equivalent: Familiarity with the use of basic laboratory equipment such as oscilloscope, function generator, power supply, etc. Completion of assigned project work in prescribed background material by the coordinators of the specialist programs will allow students to meet the entry requirements of the MPE degree.
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.
University of Sydney Handbooks – 2016 Archive
A programming language, basic maths. This Uos is designed to develop competence in the management of technology. Dr Craig Jin Session: Fundamental knowledge of power system planning considerations, procedures and methods; Transmission planning; Generation planning; Power system adequacy assessment.
Completion of this unit will facilitate progression to advanced study or to work in embedded systems and industrial real-time computer systems.
Students may have prior work in an Engineering field carried out on completion of their undergraduate degree accepted as courxework the requirements of this component.
The following previous knowledge is assumed for this unit. Prof Robert Minasian Session: Prof Tony Vassallo Session: