Computer Systems Engineering with a Year in Industry (BEng (Hons))

the United Kingdom

For more information about Computer Systems Engineering with a Year in Industry at University of Kent, please visit the webpage using the button above.

The award
BEng (Hons)

How long you will study
4 Years

Domestic course fees
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How you will study
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Course starts
September

International course fees
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All study options

About Computer Systems Engineering with a Year in Industry at University of Kent

The range of uses for computers is increasing all the time – from smartphones and tablets to aircraft flight control systems and global telecommunications. Our degree gives you up-to-date knowledge of computer hardware and software, and a background knowledge of electronics, communications systems and control theory. The programme is accredited by the Institution of Engineering and Technology (IET), on behalf of the Engineering Council. This allows graduates to follow an approved process to gain Chartered Engineer status. Applicants for September 2020 entry can apply for a scholarship of a £2,000 one-off payment. For more information and to apply, see DA VINCI Academic scholarship. Our degree programme Computer technology, telecommunications and consumer electronics are rapidly evolving, so experts in these fields are in great demand. This degree is based on leading-edge research and has been designed with strong industrial input. In your first and second years, you are introduced to a wide range of computing and engineering modules. You can study the theoretical background of digital technologies, communications principles and object-oriented programming, and take modules in robotics, computer interfacing and engineering mathematics. Your final year allows you to specialise in a particular topic of interest. This could include computer networks and communication, computer security and cryptography, digital signal processing, digital control, digital systems design and embedded computer systems. All years include project work that replicates industrial practice to maximise the employability of our graduates. Year in industry You take a work placement between the second and third years of your degree. This provides valuable workplace experience and can increase your professional contacts.  Study resources The School of Engineering and Digital Arts offers cutting-edge equipment and facilities, including: four air-conditioned computer suites with 150 high-end computers 120-seat engineering laboratory extensive professional CAD development software PCB and surface-mount facilities mechanical workshop Matlab for system modelling anechoic chamber for EMC (pre-compliance testing) and antenna characterisation. Kent School of Engineering and Digital Arts is undergoing a £3 million redevelopment and modernisation which is due for completion in July 2020. You gain state-of-the-art engineering and design facilities which include a virtual reality suite a production studio (including photography, video and green screen facilities) a large teaching and design studio engineering workshop and fabrication facilities a dedicated makerspace.  Extra activities There are a number of student-led societies at Kent which you may want to join. These include UKC Digital Media Kent Engineering Society TinkerSoc – Kent’s Maker Society.  Professional network The School of Engineering and Digital Arts has a long history of collaboration with industry. We have a strong reputation for our placement year, matching dedicated students with a variety of organisations in the UK and overseas.

Teaching includes lectures, coursework and laboratory assignments, examples classes where you develop your problem-solving skills and regular staff ‘surgeries’. Practical work is carried out in air-conditioned laboratories, with state-of-the-art equipment and outstanding IT infrastructure.

Stage 1 modules are assessed by coursework and examination at the end of the year. Stage 2 and 3 modules, with the exception of the final-year project, are assessed by a combination of coursework and examination. All years include project work to replicate industrial practice and develop skills to maximise employability.

Please note that progression thresholds apply. In particular, in order to be considered for a placement, students are required to achieve an overall mark at Stage 1 of at least 60%.

Knowledge and understanding

You gain knowledge and understanding of:

  • mathematical principles relevant to computer systems engineering
  • scientific principles and methodology relevant to computer systems engineering
  • advanced concepts of embedded systems, signals and image processing, control, computer communications and operating systems
  • the value of intellectual property and contractual issues
  • business and management techniques which may be used to achieve engineering objectives
  • the need for a high level of professional and ethical conduct in computer systems engineering
  • current manufacturing practice with particular emphasis on product safety and EMC standards and directives
  • characteristics of materials, equipment, processes and products
  • appropriate codes of practice, industry standards and quality issues
  • contexts in which engineering knowledge can be applied.

Intellectual Skills

You develop the following intellectual abilities:

  • analysis and solution of hardware and software engineering problems using appropriate mathematical methods
  • the ability to apply and integrate knowledge and understanding of other engineering disciplines to support study of computer systems engineering
  • the use of engineering principles and how to apply them to analyse key computer systems engineering processes
  • the ability to identify, classify and describe the performance of systems and components through the use of analytical methods and modelling techniques
  • the ability to apply and understand a systems approach to computer systems engineering problems
  • the ability to investigate and define a problem and identify constraints including cost drivers, economic, environmental, health and safety and risk assessment issues
  • the ability to use creativity to establish innovative, aesthetic solutions while understanding customer and user needs, and ensuring fitness for purpose of all aspects of the problem including production, operation, maintenance and disposal
  • the ability to demonstrate the economic and environmental context of the engineering solution.

Subject-specific skills

You develop subject-specific skills including:

  • the use of mathematical techniques to analyse and solve hardware and software problems
  • the ability to work in an engineering laboratory environment and to use electronic and workshop equipment, and CAD tools to create electronic circuits
  • the ability to work with technical uncertainty
  • the ability to apply quantitative methods and computer software relevant to computer systems engineering in order to solve engineering problems
  • the ability to implement software solutions using a range of structural and object- oriented languages
  • the ability to design hardware or software systems to fulfil a product specification and devise tests to appraise performance
  • awareness of the nature of intellectual property and contractual issues and an understanding of appropriate codes of practice and industry standards
  • the ability to use technical literature and other information sources and apply it to a design
  • the ability to apply management techniques to the planning, resource allocation and execution of a design project and evaluate outcomes
  • the ability to prepare technical reports and presentations.

Transferable skills

You gain transferable skills including:

  • the ability to generate, analyse, present and interpret data
  • the use of information and communications technology
  • personal and interpersonal skills and working as a member of a team
  • effective communication (in writing, verbally and through drawings)
  • effective learning for the purpose of continuing professional development
  • critical thinking, reasoning and reflection
  • how to manage time and resources within an individual project and a group project

The programme aims to:

  • educate students to become engineers, well-equipped for professional careers in development, research and production in industry and universities, and capable of meeting the challenges of a rapidly changing subject
  • produce computer systems engineers with specialist skills in hardware and software engineering, prepared for the complexities of modern computer system design
  • enable students to satisfy the professional requirements of the IET
  • provide academic guidance and welfare support for all students
  • create an atmosphere of co-operation and partnership between staff and students, and offer students an environment where they can develop their potential.

Study options for this course

  • The award How you will study How long you will study Course starts Domestic course fees International course fees
  • The awardBEng (Hons)How you will study find outHow long you will study4 years
    Course startsSeptemberDomestic course fees find outInternational course fees find out

Notes about fees for this course

Full Time UK/EU: TBC EUR | Full Time Overseas: TBC EUR

Entry requirements

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