Course Information Form (CIF)

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Course Information Form (CIF) CIF1112

The CIF provides essential information to students, staff teams and others on a particular course of study and is designed to meet the University’s own expectations and those of external bodies such as the Quality Assurance Agency (QAA) in respect of programme specifications.

Please refer to the University’s Guidance notes on completing Course Information Forms before completing the details below

SECTION 1 - General Course Information

Qualification (award type) MSc

Course Title Embedded Systems Engineering

Intermediate Qualification(s) PG Cert (60 credits at Level 6(M)); PG Dip (120 credits at Level 6(M))

Awarding Institution University of Bedfordshire

Location of Delivery Park Square Luton, UCMK Milton Keynes

Duration of Course 1 year (full time) / 3 years (part time) Professional, Statutory and

Regulatory Body accreditation Not applicable Accreditation Renewal Date

(Month and Year) Not applicable

Route Code (SITS)

UCAS Course Code

Relevant External Benchmarking Subject benchmarks (University of Bedfordshire, Level M), Council of Professors and Heads of Computing benchmarks (April, 2008)

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22 SECTION 2 – Entry Requirements, Student Support and Further Opportunities

Entry requirements Standard:

Standard entry requirements for UK students – http://www.beds.ac.uk/howtoapply/ukugentryreqs Students from the European Union - http://www.beds.ac.uk/howtoapply/eu/guides

International students - http://www.beds.ac.uk/howtoapply/international/apply

Additional:

Subjects including Engineering mathematics, Analogue and digital electronics, Circuits design and analysis, Signal processing, OO programming, Control engineering

Student Support during the course

Students will have access to both departmental and University-wide support during their studies. From a departmental perspective, the students will have access to a personal tutor and the students may book informal appointments at any point during the year. The students will be obliged to liaise with their personal tutor at least twice a year.

From a University standpoint, students will have access to the Student Union, Corporate Academic Advice Service (CAAS) and the Counselling Service.

For learning related support, students will have access the Disability Advice Service as well as being able to undertake various courses within the Learning Resources Centre.

Students with disabilities

There do not appear to by any educational barriers to students with disabilities. For further information please refer to the Disability Advice Service's website: http://www.beds.ac.uk/studentlife/support/disabilities

Distinctive Features of the course

This MSc in Embedded System is ideal if students are looking to gain deeper knowledge and to develop further skills and capabilities of embedded system design, evaluation and maintenance. It has the following distinctive features:

o Provision of combined knowledge on both modern computer science and electronic engineering at theoretical level

o Development of capabilities and skills of using embedded techniques to solve real-world engineering problems, in terms of analysis, design, implementation and testing, and in the sense of project management o Opportunities for gaining hands-on experience in industry-standard software and hardware toolkits

o Teaching and learning activities supported by R&D research to ensure that emerging computing and engineering technologies are informed

o Teaching and learning supported by industry links with local and regional industry partners o Opportunities for students to be involved in real-world R&D projects

o Development of awareness of possible equality and diversity issues in electrical/electronic engineering.

Career/further study opportunities Career (indicative):

o Systems analyst

o Embedded systems designer/developer o IT consultant

o Computer science/electronic engineering lecturer

Further study:

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23 SECTION 3 – Teaching, Learning and Assessment

Educational Aims

In broad terms the programme aims:

o To enhance and further the critical evaluation skills of students when considering primary and secondary research

o To ensure students have the requisite analytical skills to evaluate problem-solving strategy to develop, maintain and advance embedded system infrastructure

o To enhance presentational and debating skills so that students have both the confidence and ability to express their creativity both individually and as part of a team

o To ensure students maintain a responsible, professional and ethical attitude towards the development of embedded systems

o To provide students with the opportunity to demonstrate the ability to formulate strategies for embedded system deployment, undertake a critical evaluation of deployment and suggest improvements

o To equip students with the knowledge and skills to effectively manage embedded system development projects o To develop students’ critical awareness of new emerging solutions and technologies.

In addition to the broad aims of the course, the qualities built into the curriculum ensure that students will gain a deep systemic understanding of embedded system development in the context of, in particular, electronic engineering and will develop capacities and skills of developing such systems for real-world electronic products. The course’s specific objectives are to equip students with:

o the requisite skills to identify and analyse functional requirements of embedded systems given various electronic products

o the skills and knowledge to propose and critically evaluate possible implementations of the functional requirements and leading edge ideas

o the ability to analyse, synthesise, critique and evaluate systems modelling, deployment and maintenance o the appropriate skills to undertake the effective management of embedded system development project in

different industrial settings

o the ability to understand and analyse the impact of systems and changes in systems to electronic products o an understanding of the societal implications of embedded systems.

Course Learning Outcomes

Upon successful completion of this course, students should be able to:-

o LO1: Demonstrate a depth of knowledge at theoretical level and a systematic understanding of embedded techniques and be critically aware of emerging techniques and their impact on embedded systems, and to communicate their knowledge, understanding and original idea using a variety of communication media (e.g., formal written reports, essays and PowerPoint presentations with supporting oral communication)

o LO2: Autonomously carry out a substantial piece of original research in terms of analysing and evaluating existing embedded techniques and emerging techniques against theoretical and practical criteria and proposing creative and innovative embedded solutions to a variety of complex electronic products

o LO3: Undertake an embedded system development project which involves the use of theoretical knowledge to solve practical problems and includes every aspect of a project life-cycle, such as requirement collection and analysis, design, implementation, testing, and maintenance, and project management either individually or working as a team member

o LO4: Integrate embedded solutions with electronic products and critically evaluate the solutions in the contexts of the products

o LO5: Critically evaluate and apply appropriate industry-standard developing toolkits in embedded system development projects

o LO6: Demonstrate an understanding of social and economic impacts of embedded techniques

o LO7: Question and challenge current thinking and consider possible future developments in the field within a variety of diverse and complex scenarios

o LO8: Apply and challenge the standards and practices of professional bodies (e.g., IET) with respect to complex problems related to embedded techniques.

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24 Teaching Strategy

A wide variety of teaching modes will be used throughout this course. The most important aspect will be that of a student-centred approach. Students will beencouraged (through relevant guidance) to become independent thinkers who can take responsibility for their own learning and ensure to adapt to a wide variety of different situations. The course will mainly make use of traditional lectures and practical sessions and will encourage students to engage in various scenarios (e.g. project managing, team working etc.). In addition, some units will use podcasts to provide the students with an overview/summary of different topics. Some units (e.g. Emerging Technologies) with include seminar based sessions and class discussions.

About 70% of the course will be classroom based with the remaining 30% being independent learning which will make use of BREO, Learning Resources and various other electronic resources.

Assessment Strategy

The assessment strategy used is a balance of written reports, exams, practical (coursework) assignments and computer based assessment. The method used will depend on the nature of the subject being taught in the unit, and the most appropriate method has been chosen.

Coursework assignments have incorporated formative feedback (as part of our Risk Strategy initiative) so that the students can gain an insight into whether their work is meeting the necessary targets.

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Course Information Form (CIF) Page 25 of 7 Curriculum Structure, Assessment Methods and Learning Outcomes

Unit Code Level Unit Name Credit Core (C)

Option (O)

Assessment Methods*

Contributing towards the Learning Outcomes (Taught (T), Practised (P) and/or Assessed (A))

1 2 1 2 3 4 5 6 7 8 9 10

CIS043-6 6 Microprocessor architecture and

embedded hardware 15 Core

RE PC EX TP A TP A TP A TP A TP A TP A

CIS44-6 6 Advanced DSP 15 Core RE

PC EX TP A TP A TP A TP A

CIS46-6 6 Embedded sensors, controllers and

energy 15 Core AR CS RE EX TP A TP A TP A TP A TP A TP A TP A

CIS45-6 6 Programming embedded systems 15 Core RE

PC EX TP A TP A TP A TP A TP A

CIS018-6 6 Intelligent agents 15 Core

GR PC PR EX TP A TP A TP A TP A

CIS004-6 6 Emerging technologies 15 Core

RC GR PR EX TP A TP A TP A TP A TP A

CIS035-6 6 Advanced digital communications 15 Core RE EX TP

A TP A TP A TP A

CIS011-6 6 Professional project management 15 Core GR

RE OT TP A TP A TP A

CIS000-6 6 MSc project 60 Core PR

RE OR TP A TP A TP A TP A TP A TP A TP A TP A

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26 SECTION 4 – Learning and Employability

Skills Development Strategies Communication

To help with the development of this students will:-

Be given access to a variety of tasks that will develop their oral and written communication skills. Throughout the course the students will be asked to perform a variety of written (essay, formal report) and oral (presentations) tasks. Formative feedback as well as summative feedback will be used throughout.

Information Literacy

Learn to enhance their understanding and skills with respect to standard desktop applications (MS Excel and Word) as well as developing new skills with respect to specialist software related to the course.

Research and Evaluation

Develop their ability to work independently as well as enhancing their reflective skills. The students will be set tasks that require them to undertake background research, and at times to evaluate what they have undertaken.

Creativity and Critical Thinking

Undertake a significant piece of work (usually the MSc dissertation) which requires them to use thier (analytical) problem solving and creative skills in order to develop a solution, and to be able to critically evaluate the work that they have performed.

Team Working

Various units incorporate group/team work into their assessment strategy. Students will be required to work effectively as part of a group (especially as part of the Professional Project Management unit). As such skills are important for all graduates/postgraduates, the course will aim to provide the students with opportunities to develop their teamwork skills.

Improving Learning and Performance

Students will, at various points, be provided with feedback. This feedback is an important part of the learning process and will allow the students to find out their strengths and areas for development. Such feedback will allow the students to see where they need to focus and will allow them to improve their performance.

Career Management Skills

The course will develop students’ ability to reflect on their performance, and to develop teamwork, written and oral communication.

Progress Files

Students will be required to keep an e-portfolio that shows their development (both academic and personal) that can be used to show employers how their studies have allowed them to develop personal and professional skills, as well as the knowledge that they have gained.

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27 Students will be expected to develop not only their academic skills, but also soft-skills (teamwork, oral and written communication, inter-personal skills etc.). As such they are expected to adhere to the IET's Code of Conduct and Code of Practice which details what is expected (from a professional perspective) of an engineer.

Strategy for Developing and Embedding the Professional Standards

The course will embed aspects of professionalism (ethics, professional conduct etc.) into the different units. The two most telling examples are the Project Management unit (CIS011-6) and the MSc project. These two units provide an excellent opportunity for students to develop their professional skills by engaging in professional tasks (e.g. project managing and working as part of a team).

SECTION 5 – Administrative Information

Faculty CATS

Field Computer Science and Technology

Department/School/Division Computer Science and Technology

Course Leader Dr Dayou Li

Version Number 01

Body approving this version FTQSC Date of University approval of this version

(dd/mm/yyyy)

Form completed by:

Name: Dr Dayou Li……….. Date: 26/12/2010…………

Authorisation on behalf of the Faculty Teaching Quality and Standards Committee (FTQSC)