Programme Specifications

Data Science (with integrated year in industry)


1 : Awarding Institution / Body
Aberystwyth University

2a : Teaching Institution / University
Aberystwyth University

2b : Work-based learning (where appropriate)


Information provided by Department of Computer Science:

Integrated Year in Industry available


Information provided by Department of Mathematics:



3a : Programme accredited by
Aberystwyth University

3b : Programme approved by
Aberystwyth University

4 : Final Award
Bachelor of Science

5 : Programme title
Data Science (with integrated year in industry)

6 : UCAS code
7G74

7 : QAA Subject Benchmark


Information provided by Department of Computer Science:

Computing


Information provided by Department of Mathematics:



8 : Date of publication


Information provided by Department of Computer Science:

September 2023


Information provided by Department of Mathematics:



9 : Educational aims of the programme


Information provided by Department of Computer Science:

​​​Data Science is a rapidly growing area of Computing specialism, with applications in all areas of business, of government, and of science. Applications range from identifying customers buying patterns to tracking the spread of a disease, from monitoring expensive machinery to logging and improving an individual's health. There is a huge demand for graduates with skills in ‘Big Data’: data management, statistical techniques and machine learning for data analysis and data mining.

​The key aim of this degree scheme is to produce good quality graduates with strong skills in Computing and Statistics who are able to apply those skills to Data Science problems.

​The scheme will deliver the following outcomes:

  • ​to enable students to develop the skills to be expected of any graduate, including the ability to reason logically and creatively; to communicate clearly both orally and in writing; and to be able to obtain and interpret information from a wide range of sources

  • ​to equip students with the skills necessary to program in high-level computing languages

  • ​to enable students to understand and apply the range of principles and tools available to the software engineer

  • ​to provide students with knowledge and understanding in a range of topics in Statistics.

  • ​to develop skills in the application of such knowledge and understanding to the solutions of problems in Statistics.

  • ​to prepare students to work as data scientists

  • ​to give students an appreciation of the professional, economic, legal and social issues surrounding software systems.

  • ​to produce graduates who have the potential to succeed in a rapidly changing data science industry.​​

  • To apply Computer Science approaches, concepts, skills, methods and/or theories in a work-based context.

  • To develop highly valued transferable and professional skills during a work placement, providing a competitive edge in the graduate job market.

  • To enable students to learn about an organisation and its area of work, providing an excellent opportunity to evaluate further career paths.

  • On completion of the degree, students will:

  • Have gained a valuable insight into a field of employment relating to Computer Science developing associated skills.


Information provided by Department of Mathematics:



10 : Intended learning outcomes


Information provided by Department of Computer Science:

The scheme provides opportunities for students to develop and demonstrate knowledge and understanding, skills, qualities and other attributes in the following areas:


Information provided by Department of Mathematics:



10.1 : Knowledge and understanding


Information provided by Department of Computer Science:

  • A1 Knowledge of a range of programming languages and software design techniques

  • A2 Knowledge of algorithm design and use of efficient data structures

  • A3 In depth knowledge of relevant concepts and techniques of calculus, algebra, geometry, analysis, mathematical modelling, probability and statistics

  • A4 An understanding of computer hardware architecture and construction

  • A5 Knowledge of software engineering, the management of software projects, and their legal, social, ethical and professional aspects

  • A6 Knowledge of a range of specialist topics in data science

Learning and Teaching

  • ​​​Lectures (A1-A6)

  • Problem classes (A2,A3)

  • ​Seminars (A5, A6)

  • ​Laboratory work (A1, A2, A4, A5, A6)

  • ​Group and individual projects (A1, A2, A4, A5, A6)

  • ​Visiting lecturer series (A5, A6)​​

Assessment Strategies and Methods

  • ​​​Time-constrained examinations (A1-A6)

  • ​Problem sheets (A1, A2, A3)

  • ​Project diaries (A1,A5, A6)

  • ​Project reports (A1, A2, A5, A6)

  • ​Oral presentations (A5, A6)

  • ​Computer programs and assignments (A1, A2, A5, A6)

  • ​Capstone project (A1, A2, A5, A6)​​

On completion of the degree, students will have gained a valuable insight into a field of employment relating to Computer Science developing associated skills and be able to demonstrate a range of transferable skills including initiative, independence and professional awareness.

During their year in industry students will embed themselves within a working environment, allowing for the development of a range of transferable and life skills. Furthermore, students on this scheme will have the potential to utilize the knowledge and skills associated with other outcomes developed at Levels 1 and 2. This will be in part dependent on the nature of the organisation at which they undertake the year in industry.

Information provided by Department of Mathematics:



10.2 : Skills and other attributes


Information provided by Department of Computer Science:

  • B1 Application of a range of concepts and principles in well-defined mathematical or statistical contexts, showing judgement in the selection and application of tools and techniques.

  • B2 Implementation of computer programs in a range of modern languages

  • B3 The ability to develop and evaluate logical arguments

  • B4 The skill of abstracting the essential elements of problems, formulate them them in a mathematical context and obtain solutions by appropriate methods

  • B5 Application of statistical principles and knowledge to practical data science problems

  • B6 The capability of evaluating systems in terms of general quality attributes, possible trade-offs and risk within the given problem

Learning and Teaching

  • ​​​Lectures (B1-B6)

  • ​Problem classes (B1, B3, B4, B5)

  • ​Seminars (B1, B4, B5, B6)

  • ​Laboratory work (B2, B5)

  • ​Group and individual projects (B1-B6)

  • ​Visiting lecturer series (B3, B5, B6)​​

Assessment Strategies and Methods

  • ​​​Time-constrained examinations (B1-B6)

  • ​Problem sheets (B1, B2, B3)

  • ​Project diaries (B1, B3, B6)

  • ​Project reports (B1-B6)

  • ​Oral presentations (B1, B3, B6)

  • ​Computer programs and assignments (B1, B2, B4, B5)

  • ​Capstone project (B1, B2, B4, B5)​​

10.2.2 Professional practical skills / Discipline Specific Skills

By the end of their programme, all students are expected to be able to:

  • C1 Present arguments and conclusions effectively and accurately

  • C2 Use computer software to analyse and interpret data

  • C3 Design and carry out a survey as a member of a group, interpret the data collected and write a report

  • C4 Use appropriate theory, practices and tools for the specification, design, implementation and evaluation of computer-based systems

  • C5 Recognise any risks, safety or security aspects that may be involved with a computer system within a given context

  • C6 Deploy effectively the tools used for the construction and documentation of data science applications

    Integrated Year in Industry Students have the below additional learning oucome:

  • C7 Demonstrate a range of transferable skills in employment including employability, initiative, independence, and commercial awareness

Learning and Teaching

  • ​​​Lectures (C1-C6)

  • ​Problem classes (C1)

  • ​Seminars (C1-C6)

  • ​Laboratory work (C4, C6)

  • ​Group and individual projects (C1-C6)

  • ​Visiting lecturer series (C1, C3, C5)​​

Assessment Strategies and Methods

  • ​​​Time-constrained examinations (C1, C4, C5)

  • ​Problem sheets (C1)

  • ​Project diaries (C2, C3, C5)

  • ​Project reports (C1, C2, C4, C5, C6)​​

On competion of the degree, students will be able to demonstrate experience of working in a professional environment. Relevant skills will be achieved by completing an extended period at a suitable workplace. 10.2.2 Professional practical Skills By the end of their programme, all students are expected to be able to demonstrate application of discipline principles, methods, approaches, concepts, skills and/or theories in a professional context, as well as understanding the challenges of working in a professional environment. Relevant skills will be primarily developed through spending a year in industry

Information provided by Department of Mathematics:



10.3 : Transferable/Key skills


Information provided by Department of Computer Science:

By the end of their programme, all students are expected to be able to:

  • D1 Apply general mathematical skills to the interpretation of numerical data

  • D2 Work independently

  • D3 Use information technology effectively to manage information

  • D4 Manage time and resources effectively

  • D5 Develop effective learning skills

  • D6 Be aware of the need to plan for employment and to develop various skills for such employment

  • D7 Work cooperatively as a member of a software development team, recognising the different roles within a team and different ways of organising teams.

Learning and Teaching

  • ​​Lectures (D1-D7)

  • ​Problem classes (D1,D5)

  • ​Seminars (D4, D5, D7)

  • ​Laboratory work (D3, D4, D7)

  • ​Group and individual projects (D2, D3, D4, D5, D7)

  • ​Visiting lecturer series (D6, D7)​

  • Assessment Strategies and Methods

  • ​​​Time-constrained examinations (D1)

  • ​Problem sheets (D1,D5)

  • ​Project diaries (D3, D4, D7)

  • ​Project reports (D5,D6, D7)

  • ​Oral presentations (D7)

  • ​Computer programs and assignments (D2, D3, D4, D5, D7)

  • ​Capstone project (D2, D3, D4, D5)​​

By the end of their programme, all students are expected to be able to demonstrate professionalism and an understanding of commercial/professional pressures. Relevant skills will be primarily developed through spending a year in industry.

Information provided by Department of Mathematics:



11 : Program Structures and requirements, levels, modules, credits and awards



BSC Data Science (with integrated year in industry) [7G74]

Academic Year: 2024/2025Single Honours scheme - available from 2016/2017

Duration (studying Full-Time): 4 years

Part 1 Rules

Year 1 Core (120 Credits)

Compulsory module(s).

Semester 1
CS10220

Introduction to Computer Infrastructure

CS12020

Introduction to Programming

MA10310

Probability

MA10510

Algebra

MP10610

Calculus

Semester 2
CS12320

Programming Using an Object-Oriented Language

MA11110

Mathematical Analysis

MA11310

Statistics

MP11010

Further Algebra and Calculus

Part 2 Rules

Year 2 Core (120 Credits)

Compulsory module(s).

Semester 1
CS21120

Algorithm Design and Data Structures

CS27020

Modelling Persistent Data

MA25200

Introduction to Numerical Analysis and its applications

MA26010

Distributions and Estimation

MA26600

Applied Statistics

Semester 2
CS22120

Software Engineering

MA21410

Linear Algebra

MA25220

Introduction to Numerical Analysis and its applications

MA26620

Applied Statistics

Year 3 Core (120 Credits)

Compulsory module(s).

Semester 1
CSS0000

Sandwich Year

CSS0100

Sandwich Year

Semester 2
CSS0060

Sandwich Year

CSS0160

Sandwich Year

Final Year Core (50 Credits)

Compulsory module(s).

Semester 1
MA36510

Linear Statistical Models

Semester 2
CS39440

Major Project

Final Year Options

Choose 40 credits

Semester 1
MA37810

Stochastic Models in Finance

Semester 2
MA32410

Graphs and Networks

MA35210

Topics in Biological Statistics

MA36010

Comparative Statistical Inference

MA37410

Probability and Stochastic Processes

MT32410

Graffiau a Rhwydweithiau

Final Year Electives

Choose 30 credits, as advised by the computer science department


12 : Support for students and their learning
Every student is allocated a Personal Tutor. Personal Tutors have an important role within the overall framework for supporting students and their personal development at the University. The role is crucial in helping students to identify where they might find support, how and where to seek advice and how to approach support to maximise their student experience. Further support for students and their learning is provided by Information Services and Student Support and Careers Services.

13 : Entry Requirements
Details of entry requirements for the scheme can be found at http://courses.aber.ac.uk

14 : Methods for evaluating and improving the quality and standards of teaching and learning
All taught study schemes are subject to annual monitoring and periodic review, which provide the University with assurance that schemes are meeting their aims, and also identify areas of good practice and disseminate this information in order to enhance the provision.

15 : Regulation of Assessment
Academic Regulations are published as Appendix 2 of the Academic Quality Handbook: https://www.aber.ac.uk/en/aqro/handbook/app-2/.

15.1 : External Examiners
External Examiners fulfill an essential part of the University’s Quality Assurance. Annual reports by External Examiners are considered by Faculties and Academic Board at university level.

16 : Indicators of quality and standards
The Department Quality Audit questionnaire serves as a checklist about the current requirements of the University’s Academic Quality Handbook. The periodic Department Reviews provide an opportunity to evaluate the effectiveness of quality assurance processes and for the University to assure itself that management of quality and standards which are the responsibility of the University as a whole are being delivered successfully.