In this course students need to develop knowledge and skills in the planning, design, management, construction and maintenance of civil engineering projects as well as the communication, research and critical analysis skills which are vital to a successful career as a professional engineer. In final year, Student’s skills will be enhanced through off-campus industry experience to prepare for a smooth entry into the workforce. Overall, Students need to complete at least 60 days engineering professional practice. Electrical and electronic engineers design and create devices and equipment which use electrical energy. This program covers the fundamentals of electrical and electronic engineering, and provides a wide range of knowledge and technical skills in key areas such as communications, power generation and electrical machinery, digital signal processing, microprocessors and control systems. Emphasis is on the fundamental principles and techniques so that students will be able to learn and adapt to new technologies in the future. In final year, student’s skills will be enhanced through off-campus industry experience to prepare for a smooth entry into the workforce. This program is based on an electronics degree with specialist sport and biomedical courses. In final year, student’s skills will be enhanced through off-campus industry experience to prepare students for a smooth entry into the workforce. Overall, Students need to complete at least 60 days engineering professional practice. Students will have the opportunity to undertake the Bachelor of Engineering (Advanced Studies), in which students complete both the regular degree and specialist project work, performed under the supervision of academic staff and designed to develop exceptional understanding in a major chosen area. Mechanical Engineering at Griffith will provide students with a broad education in this exciting discipline designed to give the skills necessary to become a professional mechanical engineer. Good mechanical engineering is built on a strong foundation of theory, reinforced by experience and innovation. Mechanical engineers are heavily involved in the development and use of new materials and technologies, as well as design and analysis using the most advanced software and computer systems. Mechatronic engineering combines mechanics with electronics and computer systems. Mechatronic engineers design and create machinery that integrates with electronics and computer control. This program prepares students to work with innovative technologies in many different applications: intelligent machines, micro-machines, smart devices, control systems for consumer products, and robotics. This program covers the fundamentals of mechanical, electrical and electronic engineering and provides a wide range of fundamental knowledge and technical skills in key areas such as mechanics, signal processing and analysis, and sensor technology. In your final year, student skills will be enhanced through off-campus industry experience to prepare students for a smooth entry into the workforce. Students will have the opportunity to undertake the Bachelor of Engineering (Advanced Studies), in which students need to complete both the regular degree and specialist project work, performed under the supervision of academic staff and designed to develop exceptional understanding in a major chosen area.