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Course detail

Game Design and Production

Why study Abertay's BA (Hons) in Game Design and Production?

Learn to harness your creativity and get set to push the boundaries of games making by studying in the UK's first UNESCO City of Design. Get your degree from one of the most prestigious game design schools in the world.

Developed for creative and technically minded people with a desire to become a key part of the games industry, this degree is designed to make you work-ready, teaching you game concept and asset creation, game prototyping, and production and leadership skills.

As a student on this programme, you will:

Work alongside artists, programmers and audio specialists in small development teams to design and develop computer games
Study the historical context and fundamentals of game design, interaction and narrative theory
Develop professional skills in level design, concept development, project management and entrepreneurship
Learn how interactive entertainment products are designed, developed and marketed

You'll be encouraged to work creatively and professionally as a game designer, communicating concepts through prototypes, game assets, documentation and presentations, in addition to honing your communication and management skills through multidisciplinary projects.

This course gained an impressive 96% Overall Student Satisfaction rating in the 2020 National Student Survey and Abertay University ranked in the top three Scottish Universities for Student Satisfaction.

Abertay is widely regarded as THE place to study for a games degree. But don't just take it from us:

Sunday TimesUK University of the Year 2020 forTeaching Quality.
Guardian University Guide 2020Top 10 in the UK forStudent Satisfaction withTeaching,Course andFeedback.
National Student Survey 2020Top 10 UK Universities forStudent Satisfaction
Princeton Review 2021best in Europe forVideo Games Education for the 7th year in a row.

Subject Visit Days

You're invited to explore Abertay University at one of our upcoming in-person Subject Visit Days.

BOOK YOUR PLACE

Group of students outside of the Abertay University library

Your Journey Starts Here

At Abertay, we enjoy an international reputation for excellence in computer games education. This stems from our unique student experience, which places you in a simulated workplace that promotes innovative game creation.

About Your Modules

All modules shown are indicative and reflect course content for the current academic year. Modules are reviewed annually and may be subject to change. If you receive an offer to study with us we will send you a Programme document that sets out exactly which modules you can expect to take as part of your Abertay University degree programme. Please see Terms and Conditions for more information.

Modules

Year 1
Year 2
Year 3
Year 4

Year 1 Core Modules

You must study and pass all five core modules

Brief description

This module will provide students with an introduction to the games industry by engaging them with developing, pitching, and communicating game concepts, and by requiring them to consider gameplay principles, game development practices, and game production.

Indicative content:

History of Games and the Games Industry:Fundamentals of play, board and card games, early digital games, emergence of a professional digital games industry, the role of the game designer, the role of the game producer.

The Nature of Digital Games:Gameplay, game genres, game platforms, audiences.
The Structure of the Games Industry: Developers, software tools and middleware providers, publishers, hardware manufacturers, distributors and retail outlets.
Documentation and Communication: High concept, X meets Y, pitching, visualising concepts, communicating gameplay, developing a game design proposal.
An Introduction to Game Project Management: Overview of project management methodologies employed in digital game production, discussion of production planning materials, consideration of the business case, the scope baseline, the schedule baseline, work breakdown, cost breakdown, risk register.

Brief description

This module will introduce you to the processes and pipelines used to develop 2D and 3D assets for games. While the module will involve working with a range of digital art packages and graphics types, you will also learn about visual style development and asset implementation in game engines. This knowledge will enable you to: work alongside Game Artists more effectively; assist with the development of pipelines for art production; and effectively coordinate game projects that involve the management of art production.

Indicative content:

Visual research: Collecting and collating visual research materials such as photography, illustration, film and other media, existing game products and franchises.
Visual style development and communication: Developing style guides/ art bibles that clearly communicate the desired visual style of a game product.
Pipelines and platforms: Understanding the diversity of software used within game art pipelines, and the importance of considering game engines and target devices.
2D graphics: Creating and editing 2D graphics for games, including both raster and vector graphics.
3D graphics: An introduction to 3D modelling and texturing for games.
Animation: Understanding how to create and implement animated game assets.
User interfaces: Understanding the theories and best practices for UI design and implementation in games.
Professionalism: Presenting game art portfolios that show an awareness of best practices and employer expectations.

Brief description

The module provides an introduction to computational thinking for students who want to work in the games industry. This module is for students who require knowledge of programming for their game design practice, but who are not primarily programmers and who have limited or no previous experience in programming.

Indicative content:

Introduction: An introduction to fundamental concepts of programming.
Expressions, variables and statements: Use and syntax of basic programming mechanisms.
Conditionals: Checking conditions and changing the behaviour of a programme accordingly.
Repetition and Loops: Repeating code within a programme.
Functions: Create functions to perform tasks and operations within a programme.
Data structures: Introduce the concept of organising the data within a programme through the use of basic data structures such as lists (arrays) and dictionaries (associative arrays).
Classes: Write and use programme components that encapsulate data and functionality together.
Modules: Use independently developed modules (libraries) to create additional functionality within a programme.
Files: Create and use data stored in external files.
Engines: Demonstrate an awareness of available game engines and their applications.

Brief description

Introduction to the quality assurance process and user experience design. Gain practical experience in key software tools and techniques.

Indicative content:

Introduction to QA and User Experience: Why is testing necessary? What is testing? General testing principles. How testing relates to design.
QA in the Games Industry: The different types of testing: Functionality, Certification, Localisation, Focus, etc. What are the industry trends?
Game Testing Processes: Planning, Analysis, Design, Implementation, Execution and Reporting of the Test Process.
Documenting Game Quality: Design and implement test plans, test cases and bug reports for a computer game using common software packages.
Measuring Game Quality: Design and implement bug metrics and project indicators to measure project quality for games using a common software packages.
Game Testing Software and Tools: Defect Tracking, Version Control and the Build Process. The evolution of test engineering and automation techniques.
Game Submissions Process: How games projects are submitted and released with reference to Publishers and Platform Holders; PC, Console TRC/TCRs; Mobile and Web.
Designing a User Experience: The importance of user-centric design in computer development, designing for different user audiences.
Iterating on Design: How you incorporate focus testing and user feedback back into the project, an exercise in prioritisation and time management.

Brief description

In recent years, the democratisation of games technologies has made entry into game development easier and cheaper, resulting in a broader range of creative and experimental games that explore ethical, social, and cultural issues. As the breadth of game themes and topics expands, there is a growing need for game designers to demonstrate an awareness of pertinent theories, concepts, and models that could inform their practice. This module is designed to introduce you to game studies as a meta-discipline. Learn how to analyse and critique games and interactive media.

Indicative content:

Theories of play and games: The important theories of play, and games most often cited in game scholarship.
Critical theory and analysis: Theories for the analysis of cultural forms, including aesthetic theory and reception theory, useful for the analysis and criticism of games.
Histories of games: Various models of game history, from technological and techno-social through genre-specific and conceptual histories.
Culture and politics of games: Contemporary issues in representation and inclusion in cultures of digital gaming.

Years 1 and 2 Elective Modules

You must study and pass one elective module of your choosing

Brief description

Introduction of the concept of smart cities - hard infrastructure, social capital including local skills and community institutions, and digital technologies to fuel sustainable economic development and provide an attractive environment for all.

Module content:

Social impacts

There is an overall need for theoretical and methodological plurality in how we assess the impact and value of future cities in terms for individual and societal well−being. Gaps in our understanding relate to the complex ways individuals and groups engage with built and natural settings, the cultural goods and consequent benefits that may arise and the inequalities associated with these cultural benefits.

Security

Different types of cyber-attacks that could be launched against a Smart City. Impact of cyber-attacks. Approaches to securing the smart grid and critical infrastructure, i.e. improving cyber resilience.

Sustainable urban food production

Includes the long established allotments movement to large-scale projects based on sustainability throughout the food chain. Urban food production includes the long established allotments movement. The demand for urban growing also responds to the densification and intensification of living areas, due to population rise, migration and demographic aging with lower housing and 'garden' space standards placing greater importance on collective production.

Energy, waste and water

At present, water and wastewater facilities are often the largest and most energy intensive responsibilities owned and operated by local governments, representing up to 35% of municipal energy use. Future cities will need to utilise more sustainable methods of water and wastewater management and renewable energy production.

Digital technologies

Digital technologies will play a major role in creating sustainable and resilient cities offering a vehicle for more inclusive decision−making process and promoting dialog amongst architects, urban planners, the public and technologists.

Brief description

Develop a range of skills, knowledge and techniques within the natural, technological and social sciences relevant to the study of environmental sustainability and life in the twenty-first century. Understand the critical issues that confront humanity and begin to discern appropriate responses.

Module content:

• The challenge of sustainable development
Problems associated with life in the 21st Century and the relationship to scientific provisionalism and uncertainty.

• The genesis of sustainable development concept
Developments associated with the Club of Rome are outlined while Limits to Growth and the Tragedy of the Commons.

• Evolution of sustainable development
The Reo Summit and Suitability, and Policy Developments thereof.

• Scientific inquiry and sustainable development
Controversial issues like climate change, oil peak, and food production and the role of science in helping delimit them as problematic.

• Mainstreaming sustainability
Sustainability and Mitigation, Adaptation and Resilience, as individual and social concerns, and their role in transformation.

• Communicating sustainability
Human well-being, Environmental Justice, Environmental Policy and the practicalities of Sustainability in Scotland.

• Sustainable development in practice
Community Empowerment associated with Land Reform. Energy Production and Food Production in Tayside.

• Ethics and sustainability policy
Active citizenship and globalisation.

• Innovating locally, transforming globally
Transformations required to embrace Sustainability.

• Active relationship for sustainable futures
Thinking globally, acting locally.

Brief description

How lifestyle can affect physical and mental well-being. Reflect on your own lifestyle choices and how to incorporate good health behaviours into your life.

Module content:

Sleep and stress
The impact of sleep and stress on health and performance. Completion of sleep diaries and questionnaires related to sleep patterns and stress.
Physical activity
Current physical activity recommendations, components of physical fitness.
Physical inactivity
Understanding why people are inactive. The link between physical inactivity, obesity and type 2 diabetes.
Physical activity and mental well-being
The effects of physical activity on mental well-being.
The effect of carbohydrate consumption and exercise on blood glucose
Measurement and recording of blood glucose in response to the carbohydrate ingestion and exercise.
Simple health and fitness testing
Measurement and recording of data. Tests will include blood pressure, strength, endurance and flexibility. Data will be compared with normative values for these tests.

Brief description

Develop critical thinking skills that form the basis for progression across the academic disciplines of the university. Learn how to recognise, construct, evaluate, criticise and defend different forms of argument.

Module content:

•Potential 'timeless' debates
Debates delivered by internal and external experts on: e.g. existence of God; privacy and civil society; private property; money as source of 'evil'; nature/nurture; free speech; pornography; capital punishment; prostitution; animal experimentation; meaning of justice; abortion; affirmative action; just war; trade union power; good life/good political community; human nature; monarchy; value of democracy; meaning of equality; citizenship rights.

• Potential 'timely' debates
Debates delivered by internal and external experts on: eg, Scottish independence, academic freedom; drug legalisation; drug use in sport; immigration; free health care; war on terror; EU membership; euthanasia; progressive taxation; race and gender discrimination; gay marriage; human rights; politics/sport; global warming; internet censorship; nuclear power; education league tables; nuclear weapons; GM agriculture; religion; cloning; fair trade; value of contemporary culture.

•Critical thinking seminars
Follow-up discursive discipline specific seminar sessions led by teaching staff on topics covered in formal debates. Learn to identify types of argument presented, evaluate perspectives and to reflect upon their own reasoning processes and value assumptions. The debates and seminars facilitate a foundation for the acquisition of graduate attributes.

•WEB CT Wiki discussion forum
Work in small groups to write a short 800 word indicative "Thinking Summary" online Wiki of the arguments presented in each debate. These summaries will be constructed by each designated Thinking Group of three students using the Wiki facility on Blackboard which will facilitate further discussion on the moderated WEB CT discussion forum.

Brief description

The social, managerial, economic, political, and technical challenges and opportunities associated with emerging renewable energy innovation, production, supply and consumption.

Module content:

•Renewable energy non-technical challenges and opportunities
Social and political challenges and opportunities of renewable energy production supply and consumption. Economic and environmental challenges of renewable energy production supply and consumption. Strategic and managerial challenges of renewable energy production supply and consumption.

•Renewable energy technological challenges and opportunities
Geotechnical, Geophysical and Hydrographic information; Knowledge of sources of hydrographic information and interpretation of published charts. Forces on structures; Appreciation of the various forces acting on marine structures. Technical limitations and challenges of energy distribution systems and energy storage. Current technological development trend, collaborative innovation in renewable energy.

Brief description

An understanding of the concepts of tolerance, and the importance of making sound ethical decisions. Develop the qualities, characteristics and skills to meet the aspiration for Abertay graduates to become global and active citizens.

Module content:

•Introduction to equality and ethics legislation

•Diversity competence and moral/ethical reasoning
Inclusiveness, equal opportunities, positive action, reasonable adjustment.

•Attributes for the workplace and for global citizenship.

•Reflective practice
Application of models of reflective practice.

•Contemporary issues

Brief description

Learn how to adjust language to suit context. Analyse a range of linguistic issues, including "proper English", how language can be used to create moral panics, and the ethics of communication.

Module content:

•"Good English"
The role of standardisation, dialect and idiolect − how we choose language to reflect our identities and our role in a speech or discourse community.

• Language and influence
How the media constructs narratives to persuade or inform the audience (and how to tell the difference).

• Creating a narrative across genres
The conventions, freedoms and limitations of different forms; using these forms in new ways.

• Narrative changes over time
How authors reinvent old stories to reflect current concerns.

• Technical writing
The use and manipulation of data; hearing the author's voice; critiquing "bad science".

• The ethics of communication
(Electronic) media and ownership, attribution and theft.

Brief description

"Personal" digital safety to make computer security fun, practical and eye-opening. Learn the base knowledge that will continue to be relevant to future generations of devices.

Module content:

•Current state of computer security
An overview including legal aspects.

•Cyber-attacks, vulnerabilities and threats
Malware, Network attacks (denial of service, packet sniffing etc.), bots and rootkits. How the bad guys can obtain your password.

•Information leakage
Recovery and forensics recovering deleted or corrupted files. What your browser knows about you. Web browser forensics.

•Securing networks, accounts and devices
Defence against malware, honeypots, Secure protocols, intrusion detection, Password security, Mobile device security.

•Human aspects of cyber security
The Psychology of Hackers, Social Engineering, identity theft, Usability vs security.

•Breaking the code
An introduction to cryptography, Encryption and Decryption, public and private keys, the key exchange problem.

•History of cryptography
The Caesar cipher, polyalphabetic ciphers, the Playfair cipher, the role of Enigma and the Bletchley Park cryptographers in WWII.

•Computers and Crypto Diffie-Hellman and RSA encryption
Phil Zimmerman and "Pretty Good Protection". Quantum Cryptography – Provably unbreakable information hiding. Mathematical Underpinnings – Large prime numbers and why they matter.

•Steganography
A picture's worth a thousand words when you're hiding the wood in the trees.

•The law, society and cryptography
Why you can be imprisoned for forgetting your password. The Civil Liberties Arguments for and against strong-crypto. International perspectives on information hiding, information freedom, the right to privacy and the conflicts between these. Are unbreakable cyphers an unqualified "good thing"?

Brief description

Develop perspectives on the key challenges faced by humankind such as environmental change, pollution, food security, energy provision, conflicts, terrorism, emerging diseases, and changing demographics. Understand the overwhelming complexity of the problems and the need for interdisciplinary approaches to create solutions.

Module content:

Interdisciplinary research
Introductory lectures will discuss the definitions, methods, benefits, challenges, and drawbacks of disciplinary and interdisciplinary approaches and the role of public policy influencing research
Global challenges
Challenges from different disciplines. Examples include: Climate Change: causes and impact; Serious Games: science and application of visualization and games; Global Security: valuing ecosystems: balancing policy, economics and environment; Contemporary Challenges to Healthy Living; Food Security: global threats and local needs; Energy Poverty: space travel.

Brief description

Design an activity to communicate and present scientific principles to primary school children. Learn about working as a group and how to communicate complex ideas.

Module content:

• Developing a science communication activity
Target audience, sources of information to identify suitable activities (CfE documentation etc.), health and safety, issues around working with specific groups, accessibility, ethics, costing and sustainability.

• The landscape of engagement and current practice
Types of public engagement activities, target audiences, funding, role of learned societies, universities and other bodies. Public engagement in Dundee and Tayside.

Brief description

Develop the knowledge and awareness required to make good career decisions and the skills and confidence to successfully navigate each stage of the recruitment process for graduate jobs.

Module content:

Developing self-awareness
Profiling of personal strengths, values and priorities in relation to career choice.
Developing opportunity awareness
Generating career ideas based on your personal profile; Exploring the range of graduate opportunities within job sectors of interest; Reviewing occupations that are directly related to your own subject discipline.
Developing a career action plan
Matching your personal profile with best fit opportunities in the job market; Creating a timeline of actions to improve your prospects of meeting your aim.

Developing job seeking skills
Sourcing suitable job opportunities - both advertised and unadvertised; Creating a professional image online; Identifying the skills and qualities employers look for in graduates; Learning how to produce targeted applications for specific job roles; Practising the presentation of your strengths and motivations in face to face selection activities.

Brief description

Learn about natural disaster such as landslides and flooding, structural disasters such as the Tay Rail Bridge and the system of critical infrastructure (such as road, rail, air and shipping transport networks, power grid, gas and water networks, health system) that constitute the backbone of modern societies.

Module content:

•Overview of the scope and the content of concept of critical infrastructure failure during natural disasters and resilience against such failures
The consequences of geophysical, hydrological and meteorological disasters on critical infrastructure and critical infrastructure protection capabilities against natural disasters. Interdependencies of critical infrastructures during large disasters, presents a brief review of current research being done in this field, and presents a methodology to address interdependencies.

•The identification of the vulnerabilities of the critical systems
The critical systems upon which modern society, economy, and polity depend. The identification of the vulnerabilities of these systems threats that might exploit these vulnerabilities. The effort to develop techniques to mitigate these vulnerabilities through improved design.

•Flooding in Scotland
General overview of fluvial, pluvial and coastal flooding, the structural, economic and societal impact and responses to flooding. Resources will include historical examples, current policies and information (including SEPA flood maps). Case study (with virtual/actual field visit?) the Perth Floods of 1990 and 1993 and the Perth flood defence scheme*

•Landslide origins, types and mitigations
General overview what landslides are, why they happen and what can be done to prevent them.

•Structural failure
An example such as why the Tay Bridge failed and what it meant for the Forth Rail Bridge.

•Reports and investigations
The role of reports in accident and disaster investigations in creating informative reports; case studies of accidents, disasters, learning from history, learning from case studies, learning from common law

Brief description

Introduction to the skills and knowledge needed to launch a small business successfully. This module will define and help you acquire the personal and professional skills needed to develop a professional career and/or to succeed as entrepreneurs in Small and Medium sized Enterprises (SMEs).

Module content:

Understanding entrepreneurship.
Generating successful business ideas.
Environmental scanning.
Developing a credible business plan that includes evaluating business ideas.
Presenting the business idea.

Brief description

An understanding of some of the processes involved in food production. Discuss common misconceptions and ideas which present the food and nutritional industries in a bad light.

Module content:

•Student led investigations
Student led investigations of the different sectors within the food and drink industry including: prebiotics – and the controversy surrounding the term; if barbequing is a healthy cooking method; and exposing the celebrity chef - common Myths about cooking.

•Consumerism
Does the food industry listen to us? Understanding consumer and sensory science to better understand why you buy the products you buy. How food/public health is reported by the media? The French paradox / Mediterranean diet.

•Future of food
Ethical food production and the future of foods, and what's waste got to do with it?

•Debunking myths
Debunking food myths, more science than science fiction in our food today, like the science behind getting sauce out of a bottle and what to drink – Whisky or Beer?

•Facts from fiction
Finding facts from fiction, investigating the three-second rule – should I eat things that have fallen on the floor? What's so super about super-foods? Fat or sugar: Which is worse?

Brief description

Learn how we approach and understand mental health, from historic, social, therapeutic, and individual perspectives. Explore questions such as 'what is madness?', 'how does society position people with mental illness?', and 'how do we best respond to challenges to our mental health?'

Module content:

Historical and cultural perspective on mental illness
How do we 'think' about mental health, and mental ill health?
Diagnosis and the anti-psychiatry movement
Who holds the power to decide what is normal in terms of psychological well-being and behaviour?
Gender, culture and mental health
How gendered cultural expectations and representations influence how we respond to mental health issues.
Media representations
The impact of film and literature on attitudes and understandings of mental health.
Resilience, treatment and recovery
Common mental health problems in the UK, treatment and management, and frameworks for enhancing well-being and resilience.

Brief description

An introduction to the wide range of disciplines in forensic investigation. Learn how crimes are investigated from the moment of reporting through to the presentation of the evidence in court. A hypothetical case study provides an over-arching framework in which to explore the critical aspects of forensic investigations. It involves not only physical and electronic evidence, but also statements from witnesses, suspects and victims which requires cross discipline collaboration of professionals.

Module content:

• Crime scene investigation
How a crime scene is examined in the context of incomplete contextual information and to avoid loss or contamination of evidence and the maximising of the value of evidential material.

• Media involvement
Positive and negative effects of the media/public interest in the crime.

• Forensic biology
Examination and evidential value of body fluids, DNA, hairs and fibres.

• Forensic chemistry
Analysis for drugs, toxicological analysis, firearms, explosives, and trace evidence.

• Digital sources
Evidence from CCT, mobile phones, computer hardware, on−line behaviour.

• Forensic reasoning and practice
An introduction to forensic problem solving, thinking styles, case assessment and interpretation.

• Psychology of witnesses and suspects
False confessions, offender profiling, effects and avoidance of cognitive bias in forensic science through process design.

Year 2 Core Modules

You must study and pass all five core modules

Brief description

Introduction to the knowledge, processes and techniques to formulate and explore effective, innovative game ideas with consideration for the structure of both gameplay and narrative design.

Indicative content:

Game Genre Mechanics: Deconstructing core components of popular game genres.
Constructs of Gameplay: What is gameplay and how is this broken down and communicated within the game design.
Design Documents and Artefacts:Physical prototypes, visual documentation, technical design, capturing requirements.
Game Design Process: Conceptualisation, iteration, phases of workflow, alternative approaches.
Narrative Theory for Game Design: Themes, narrative structures, characters, storyboarding, animatics, scripts.
Experimental Approaches: Exploring emergent practices and methods for innovative game design.
Visualisation and Digital Techniques:Utilising digital techniques to produce gameplay and narrative previsualisation, developing rudimentary digital prototypes.
Audience and Cultural Engagement: Discussing the role of audience and exploring cultural aspects of game design.

Brief description

Introduction to the 3D game art pipeline. gain the knowledge and skills required to design and build your own 3D assets for games.

Indicative content:

Software skills: Work with a range of 2D, 3D, and game engine tools to produce 3D game assets.
Polygon modelling:Use polygon modelling tools to build 3D assets for games.
Curves and NURBS modelling: Create polygon models for games using curves and NURBS modelling tools.
UV mapping: Create and edit UV layouts for 3D models.
Materials: Learn to select, edit, and apply materials to 3D models in both 3D software and in game engines.
Texture production: Use 2D graphics packages to build textures and texture sets for 3D game models.
3D painting: Create texture maps using 3D painting packages and techniques.
Sculpting:Use sculpting packages/tools to create high poly detail and generate advanced texture maps.
Lighting : Apply theories of colour and light to 3D game scenes.
Modular production: Learn to create modular 3D assets appropriate for the production of game scenes.

Brief description

Develop skills in the use of game engines with an emphasis on the creation of game content and levels underpinned by level design theory and practice.

Indicative content:

Terminology and concepts: Common aspects and features of game engines.
Editing systems: Creating custom geometry, terrain etc. with in-engine tools.
Scripting game logic: Adding interaction to a level.
AI and pathing: Pathing techniques and movement logic.
Physics: Creating custom physics interactions.
Interface: Creating and editing user interfaces.
Content: Importing art and audio content.
Cameras: Working with cameras, animating and switching between cameras, cut-scenes.
Spatial and lighting design: Considering appropriate theories for spatial layout, composition, lighting etc.
User experience: Considering the user journey, playtesting, iteration.

Brief description

Operating at the intersection of graphic design, interaction design, programming, and psychology, User Interface (UI) designers hold significant responsibility within game development teams and digital design studios. Develop your practical and technical skills in UI design, along with your applied knowledge and understanding of underpinning theories and methodologies.

Indicative content:

UX and UI: Considering user experience and the intersection with user interfaces. Examining the role of UX/UI designers in industry.
Interaction design: Discussing methodologies of interaction design and associated design disciplines such as human-computer interaction (HCI), user-centred design (UCD) and human factors.
Accessibility and inclusive design: Considering audience diversity and the need to design and develop accessible interfaces.
Game UI and menus: Diegetic, non-diegetic, meta, and spatial UI. Structuring menus for consistency, clarity, and effective communication with players.
Graphic design for interfaces: Graphic design principles and visual style considerations; skeuomorphism, flat design, hierarchy, composition.
Feedback: Interface animation, visual feedback, and audio feedback.
Controllers: Controller selection/design, control mapping, communicating controls to players.
Platforms: Understanding platforms - including mobile, console, PC, online, VR/AR/MR – and how platform selection interacts with UX and UI design.

Brief description

The processes and purposes of designing and developing a piece of interactive entertainment.

Indicative content:

Historical Overview:How games have been designed, prominent genres, styles and techniques.
Concept and Communication: Conceptualising and communicating ideas, scoping requirements, giving and receiving critique.
Design Process: Establishing a process, proposing solutions, iteration and documentation.
Core Design: Working up the concept, graphics, features, setting, story, objectives, levels.
The Development Team: Roles and responsibilities, scheduling and milestones, inclusive and supportive working.
Rules and Mechanics: Implementing choices, interactivity, strategies, motivation and reward, balancing gameplay.
Look and Feel: Establishing a style, ambience, colour and mood, sound effects, and music.
Cultural and Commercial Awareness: Designing for an audience, markets, genres and platforms.

Years 1 and 2 Elective Modules

You must study and pass one elective module of your choosing

Brief description

Module content:

Social impacts

Security

Sustainable urban food production

Energy, waste and water

Digital technologies