Telecommunications engineering deals with large-scale data networks, such as the internet and other devices and systems that represent, store and transmit analog and digital information. This includes data transmission, equipment, customer access technology, analog and digital radio and television systems, satellite communications, global navigation, mobile communications and remote sensing/telemetry systems. You will study a common first year allowing you to learn more about engineering and its different fields before deciding which discipline to study. The common first year provides you with sound fundamentals in mathematics, statistics, physics, chemistry, computing, engineering science and communication, mechanics, materials and fluids. You then focus on your chosen major study from second year. Your degree includes a 12-week hands-on industry placement. You may gain credit for relevant work experience, either in Australia or overseas, by participating in our Professional Options Program. The Women in Engineering Network (WIEN) provides support for women studying Engineering, including $500 bursaries for high-achieving female students. Engineers work in a variety of industries, for example: construction, mining, resources, aeronautical, electronics, engineering management, telecommunications, power generation and distribution, renewable energy, aerospace, water resource management, robotics and manufacturing, railroad and shipbuilding. What you will study: As an engineering student at UOW you will have access to fully-equipped laboratories and the latest computer-aided software that is used in modern industrial workplaces.Our lecturers encourage you to approach them and get involved in industry projects and learning opportunities so you get the most out of your university education. Specialise in data, voice and video communications, transmission through wireless and wired media, predicting and modelling communication systems performance and detecting or correcting errors in transmission. Our engineering students are trained through practical learning experiences including: Laboratory experiments Problem based learning Computer simulations Teamwork assignments Industrial case studies Project management Site visits to industry In the Bachelor of Engineering (Honours) Telecommunications Engineering you'll be trained to take up roles as telecommunications engineers focusing on the transmission and management of information through channels such as coaxial cable, optical fibres or free space. You will study data communications, control theory, digital signal processing and communications systems. From second year you also have the option to complete a double major, combining two engineering disciplines. Available double major combinations include: Computer Engineering and Telecommunications Engineering Electrical Engineering and Telecommunications Engineering.
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Overview of careers: Biomedical Engineer Computer Architect Computer Systems Engineer Civil Engineer Construction Manager Electronics Engineer Electrical Engineer Environmental Engineer Geotechnical Engineer Materials Engineer Mechanical Engineer Metallurgist Network Engineer Production Engineer Security Engineer Software Engineer Structural Engineer Systems Analyst Telecommunications Engineer Transport Engineer Water Quality Manager.