Computer science provides solutions to the ever-increasing information challenges in the modern world. Industry needs people who can extract and analyse information from the massive datasets generated by engineering processes and devices. Big data is the new challenge and opportunity in engineering practice across industries from construction and manufacturing, to transport and the energy sector.
In this double degree course, you will:
- gain theoretical and practical skills to solve engineering problems, by designing and building more efficient software or by exploiting big data
- be able to combine mechanical or mechatronics engineering with your computational and mathematical flair to create cutting-edge controller software
- be able to pair electrical and computer systems engineering or software engineering with computer science, to create innovative solutions at either the hardware or software ends of the IT spectrum
- specialise in data science and learn how to build and use analytical tools and simulation software to visualise and interpret data from engineering systems of all kinds, from manufacturing and transportation to energy and water.
E3001 Bachelor of Engineering (Honours) is a specialist course that develops through four themes that combine to underpin engineering practice: fundamentals and foundational skills; design, knowledge and applications; and professional practice.
Part A. Engineering fundamentals and foundational skills
These will develop your understanding of natural and physical sciences, mathematics, numerical analysis, statistics, and computer and information sciences that underpin all engineering disciplines.
Part B. Engineering design
This will develop the engineering techniques, tools and resources for the conduct, design and management of engineering design processes and projects, both in the industrial setting and in the development of research experiments.
Part C. Engineering knowledge and application
This will provide in-depth knowledge of the specific engineering methods of a branch of engineering, and will integrate the specific engineering methods and discipline knowledge into practice. You will develop skills to identify and apply knowledge of contextual factors impacting the engineering discipline. Additionally, your studies will focus on your understanding and application of the scope, principles, norms, accountabilities and bounds of contemporary engineering practice in your discipline.
Part D. Professional practice
This will develop your skills in readiness for the engineering workplace. You will develop skills in effective team membership and team leadership, the use and management of commercially relevant data, and the legal responsibilities of engineers. This study will integrate the theme 'Engineering knowledge and application' with your specialist field of engineering.
C2001 Bachelor of Computer Science is a specialist course that develops through the themes of computer science foundation study, professional skills study, specialist discipline knowledge, problem solving and analytic skills study, and professional skills study which come together in applied practice.
Part A. Computer science foundation study
This study will develop your understanding of the role and theoretical basis of computer science and computational methods.
Part B. Professional skills study
This study develops professional skills by providing an understanding and appreciation of the ethical and professional guidelines applicable to computer science, developing the ability to work as an effective team member, developing the ability to communicate proficiently and appropriately for professional practice, and developing formal project management skills.
Part C. Specialist discipline knowledge
Only the advanced computer science specialisation is available in this double degree.
Part D. Problem solving and analytical skills study
This study will develop your ability to apply appropriate methodologies in computer science and develop efficient computational solutions. It develops strong problem solving skills and the ability to apply analytical thinking.
Part E. Applied practice
The above knowledge and skills are integrated and consolidated in applied practice as demonstrated in a computer or data science project, and in some cases in an industry-based learning placement.
Students must complete 240 points, of which 144 points are from the Bachelor of Engineering (Honours) including all of the requirements in Part A, B, C and D for the single degree in your chosen specialisation (electrical and computer systems engineering or software engineering) and 96 points from the Bachelor of Computer Science (including all of the requirements in Part A, B, C, D and E in the single degree for the specialisation of advanced computer science).
The course progression mapcourse progression map (http://www.monash.edu.au/pubs/2018handbooks/maps/map-e3010.pdf) will assist you to plan to meet the course requirements, and guidance on unit enrolment for each semester of study.
Units are 6 points unless otherwise stated.
Students may be eligible to exit the double degree program and graduate with either a Bachelor of Engineering (Honours) or a Bachelor of Computer Science degree after four or three years, depending on the units studied.
Students who wish to graduate with a Bachelor of Engineering degree prior to the completion of the double degree must have completed at least 192 points of studies, including all of the requirements in Part A, B, C and D for the particular engineering specialisation.
Students who wish to graduate with a Bachelor of Computer Science prior to the completion of the double degree must have completed at least 144 points of studies, including all of the requirements in Part A, B, C, D and E for the Bachelor of Computer Science degree.