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. All candidates are required to complete a minimum of 12 credit points of Project units. Fundamental mathematics including probability theory and linear algebra. As well as covering the specific topics described in the following paragraphs, it aims to develop skills in professional project management and teamwork and promote an understanding of ethics. Select 18 credit points from the Specialist Electives unit block.

In business aspect, it focuses on economical, marketing and political aspects of installing and managing sustainable electrical energy systems in present and future society. On the receiver side, the principles of photodetection and optical receiver sensitivity will be discussed. The particular emphasis is on the time and frequency domain modeling of linear time invariant systems. Network node functions and building blocks. Candidates must complete 12 credit points from the following Management Elective units of study. Basic knowledge of communications, electronics and photonics Assessment:

Microcells and macrocells, Medium access control: These include the various elements of engineering practice, an understanding of the role of the engineer in industry, basic courseworrk of the law of contracts and legal responsibility, teamwork and leadership skills, an understanding of the professional responsibilities of engineers, competence in verbal communication and presentations and in reading and writing reports, and an understanding of ethical considerations.

Equally imperative is that the task not be so demanding as to elude completion.

Select 12 credit points from the Specialist Electives unit block. Kalman filter, linear quadratic regulator, output feedback, the Separation theorem. Prof Kcre Minasian Session: It introduces some of the currently most debated research topics in mobile networking and presents an overview of different technical solutions.

HSC Mathematics extension 1 or 2 Assessment: In order to enrol in a project, students must first secure an academic supervisor in an area that they are interested. The following specific topics are covered: On the receiver side, the coursfwork of photodetection and optical receiver sensitivity will be discussed.

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University of Sydney Handbooks – 2016 Archive

Cell types, coverage, frequency reuse, spectral efficiency, link budget, power budget, traffic capacity. Some projects will be experimental in nature, others may involve computer-based simulation, feasibility lvre or the design, construction and testing of equipment. Management of shared resources.

lcre coursework titles 2015

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. Candidates complete 36 credit points of specialisy units, 12 credit points of Electives and 12 credit points of Management Electives across Year Two and Year Three.

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.

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Math Ext 1, fundamental concepts of signal and systems, fundamental electrical circuit theory and analysis Assessment: 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.

Applications, including the derivation of network functions for simple problems in circuit analysis.

Unit of study descriptions – Engineering Postgraduate – The University of Sydney

This course will provide an understanding of the fundamental principles of optical fibre communication systems. The following topics are covered: This unit of study lce a competence in first year mathematics in particular, the ability to work with complex numbersin elementary circuit theory and in basic electromagnetics.

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Circuits, circuit elements, circuit laws, node and mesh analysis, circuit theorems, energy storage, capacitors and inductors, circuits with switches, transient response, sine waves and complex analysis, phasors, impedance, ac power. Dr Craig Jin Session: This unit is concerned with the theory and practice of real time computer systems as applied to the design of embedded systems and computer control systems in engineering, manufacturing and automation.

Foundations studies covers content that may be assumed knowledge or prerequisite information for follow-on Master of Professional Engineering units. For details of the reporting requirements, go to the faculty’s Practical Experience portfolio web site http: This course will provide an understanding of the fundamental principles of optical fibre communication systems.

This unit of study serves as an introduction to communications network research. This unit deals with the courseowrk of error control coding techniques and their applications in various communication. In particular it will focus on Australian consulting, logistics and construction engineering firms that are operating on a global basis.

It aims to give the students an appreciation of the possibilities in the design of control and automation in a range of application areas. 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 lcrr and networks; the analysis of unsymmetrical faults.

Ciursework, interaction with the fixed network. This unit provides the basis for the analysis of electricity grids using symmetrical components theory.