Introduction to symbolic mathematics in Matlab. Lecture 2 hours per week; Tutorial 1 hour per week; E-Learning 1 hour per week; Laboratory: 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. 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. It is not expected that a thesis at this level will represent a significant contribution to new knowledge; nor is it expected that theses will resolve great intellectual problems. RF circuit element models, high-frequency effects and biasing in active devices, transmission lines and the Smith Chart, RF system characteristics, RF amplifiers, oscillators, mixers, power amplifiers, microwave measurements. Circuit analysis techniques, electricity networks, power system fundamentals.
The objective of this course is to provide a comprehensive overview of the nature and causes of the major environmental problems facing our planet, with a particular focus on energy and water, and how engineering is addressing these challenges. The specific topics covered are as follows: First degree in Engineering or a related discipline Assessment: Nevertheless, electric energy is a special commodity and cannot be traded as the other common goods. 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. The purpose of this unit is to equip the students with the skills to design simple digital logic circuits which comprise modules of larger digital systems.
This is a programming unit of study that is designed to enable students, coming from any background, to learn to program in the C language, with emphasis on the individual producing cursework that works correctly. System architecture, radio resource management, mobility management, connection management. Fundamental knowledge of power system planning considerations, procedures and methods; Transmission planning; Generation planning; Power system adequacy assessment.
Unit of study descriptions – Engineering Postgraduate – The University of Sydney
All candidates are required to complete lcge minimum of 12 credit points of Project units. This UoS teaches the fundamental knowledge on the importance, organizational context and professional practice in project management.
The unit assumes basic knowledge of circuits, familiarity with basic mathematics, competence with basic circuit theory and an understanding of three phase systems, transformers, transmission lines and associated modeling and operation of such equipment.
These include the various elements of engineering practice, an understanding of the role of the engineer in industry, basic knowledge 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.
Application of Matlab to simple problems from circuit theory, electronics, signals and systems and control. It focuses on photonic network architectures and protocols, network design, enabling technologies and the drivers for intelligent optical network.
A basic knowledge of differentiation and integration, differential equations, and linear algebra is assumed. Real time software design.
Introduction to the use of Simulink for system modelling and simulation. The unit provides advanced knowledge associated with high voltage engineering methods, techniques and equipment. It is divided into two sections.
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. Candidates with a prior Bachelor of Engineering degree or equivalent in the field related to this specialisation may be exempted from Foundation units. Project Work – lcrs time 12 hrs.
Successful completion of this unit will facilitate progression to advanced study or to work in the fields of telecommunications and computer engineering. Competences and experience in engineering obtained during an accepted engineering degree Assessment: Aloha and s-Aloha, carrier coursewor, multiple access, reservation-based MAC schemes, polling, spread-aloha multiple access.
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 coursewor the practical work and the general layout and content of the thesis itself.
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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. Based on the knowledge of the power market operation, the power system planning procedures and methods will also be discussed.
Synchronous machine modelling using Park’s transformation; Modelling of excitation systems and turbine governors; Modelling of the transmission system; Load modelling – Simulation of interconnected multi-machine systems – Stability analysis: Prof Ron Johnston Session: This unit of study assumes some knowledge of digital data representation and basic computer organisation.
Prof Branka Vutetic Session: The following topics are covered: Dr Masahiro Takatsuka Session: Dr Ke Meng Session: On completion of this unit, students will have acquired programming skills and techniques applicable to the development of software used in areas such as networking, computer engineering, language translation, and operating systems.
Department permission required for enrolment in sessions 1 and 2. Fundamental mathematics including probability theory and linear algebra. It will address the nature, characteristics and variety of risks of global businesses, the opportunities and pressures for effective strategies, and the many management challenges in international business.
It is important that the topic be of sufficient scope and complexity to allow a student to learn their craft and demonstrate their research or design skills.