LSI

Programme Specification

PgCert Digital Project Management

In an era where digital transformations are reshaping every industry, the ability to manage complex, technology-driven projects is crucial.

This programme provides the advanced skills needed to lead in the digital economy with precision and purpose. You will explore the practical application of AI, digital engineering, and innovative project management techniques that are revolutionising businesses across the globe.

Each module is designed to sharpen your understanding of how to harness emerging technologies, manage digital projects, and foster innovation within organisations. By the end of this course, you will be equipped to steer high-impact projects and drive real change within your sector.

Award information

Type of Qualification Postgraduate Certificate
Final Award PgCert Digital Project Management
Awarding Body London School of Innovation
Teaching Institute London School of Innovation
Exit Award(s)
External Accreditation N/A

Programme details

Qualification Level Postgraduate
Language Of Programme English
Mode(s) of Study Full-time blended
Part-time blended
Credits CATS 60, ECTS 30
Notional Learning Time 600 hours
Applicable FHEQ Descriptor FHEQ - Level 7
Applicable Subject Benchmark Statement CMI Level 7 (Subject Benchmark Statement)
HECoS Code project management (100812)

Entry criteria

Admission to this programme will be governed by the School's Admissions Policy, which aligns with our commitment to inclusivity as outlined in the School's Access and Participation Statement. All applications will be assessed in accordance with the Admission and Registration Regulations of the School, ensuring a fair, transparent, and equitable process for all prospective students.

Requirement Details
Qualifications or experiences This programme is designed for established professionals. To qualify, applicants must have a degree in STEM (science, technology, engineering or math), Management/Business studies or Humanities, as well as at least 12 months' experience in a technical, administrative or managerial position involving intellectually challenging day-to-day tasks. Alternatively, applicants without a degree can qualify if they have at least 4 years' commercial experience in software engineering, quality assurance, business analysis, or management, involving intellectually challenging day-to-day tasks.
English Language To succeed on this programme, strong academic English is essential. If you are from a majority English-speaking country or have studied at an English-speaking university, no proof is needed. Otherwise, you will need an IELTS Academic score of 6.5 overall (with no section below 5.5), or an equivalent test (e.g. TOEFL, Duolingo, Cambridge, PTE, Oxford ELLT, LanguageCert, Trinity ISE, etc).
IT Fundation

Some programmes require a foundational understanding of IT through academic or professional experience.

If you lack this background but meet other criteria, you may receive a conditional offer, subject to completing our free IT Foundation and Programming course.

Your success in this course will demonstrate your commitment and ability to learn advanced digital skills, leading to an unconditional offer.

Aims and objectives

Target Details
Skill Development This course is designed to transform you into a master of modern digital project management. You will develop advanced digital acumen, enabling you to understand and navigate the complexities of the digital economy. From learning how to craft solutions with precision through modern requirements engineering to acquiring leadership skills that foster innovation, every aspect of this programme is focused on developing your expertise. You will also gain practical knowledge in AI strategies for business and how to build compelling business cases that win stakeholder approval. Each skill you acquire is intended to empower you to lead with confidence and impact.
Real World Application Success in digital project management is defined by the ability to apply theory to real-world challenges. In this programme, you will dive deep into case studies that reflect the current landscape of AI, innovation, and digital transformation. From developing strategies for AI implementation to mastering the art of pitching business cases to stakeholders, you will learn through scenarios that mirror the complexities of modern industries. By working on projects that simulate real business environments, you will gain the experience and confidence needed to deliver results in a high-pressure, dynamic world.
Career Prospects The demand for professionals who understand both the strategic and technical aspects of digital project management has never been higher. Graduates of this course are well-positioned for roles such as digital project manager, innovation lead, or AI strategist, with opportunities spanning industries like technology, finance, healthcare, and more. The course prepares you to take on leadership positions where you will manage cutting-edge digital projects, implement AI solutions, and foster innovation. Whether you aim to advance in your current career or pivot to a new path, this programme will open doors to a wealth of opportunities.
Personal Growth This course is not just about professional advancement, it is about personal transformation. As you navigate the complexities of digital project management, you will grow into a more confident, visionary leader. You will develop the foresight to lead teams through innovation, the resilience to manage high-stakes projects, and the ability to communicate complex ideas with clarity. These skills go beyond the professional sphere, equipping you with the mindset to thrive in all aspects of your life. Through this programme, you will become someone who not only adapts to change but drives it with purpose and passion.

Learning outcomes

CMI Level 7 (Subject Benchmark Statement)
Qualification Descriptor Programme outcome(s)
Critical perspective
Critical awareness of current issues in business and management, informed by leading edge research and practice in the field, and a proactive and independent approach to learning
 Exhibit critical awareness of contemporary issues in digital project management, informed by cutting-edge research and practices. Evaluate the implications of AI, innovation, and digital engineering on industries through independent, evidence-based learning. Foster a proactive approach to problem-solving, integrating insights from diverse global perspectives to address ethical, economic, and societal challenges. Critically assess evolving trends to contribute meaningfully to the advancement of the digital economy.
Ethical values
Commitment to championing, managing and leading with a strong sense of global social responsibility, ethical values and behaving with integrity in complex business and management environments		 Lead and manage with a strong commitment to ethical values, global social responsibility, and integrity in digital project management. Champion sustainability and inclusivity by fostering equitable practices within organisations. Balance technological innovation with a nuanced understanding of its societal, economic, and environmental impacts. Cultivate ethical decision-making processes that align with governance standards, ensuring accountability and transparency in managing complex digital initiatives.
Global values
Ability to take an international perspective, including understanding the impact of globalisation on businesses, societies and the environment 		Analyse and respond to the impacts of globalisation on businesses, societies, and the environment. Integrate international perspectives into decision-making, ensuring strategies address cross-cultural, economic, and social dynamics. Anticipate global market trends and navigate the complexities of multinational projects with resilience and agility. Demonstrate leadership in fostering innovation that aligns with global sustainability goals, equipping organisations to thrive in an interconnected, technology-driven world.
Knowledge and understanding
Systematic and deep understanding of relevant knowledge about organisations		 Develop a systematic and deep understanding of organisations by synthesising advanced digital project methodologies, critical leadership principles, and AI-driven strategies. Evaluate how innovation reshapes industries and integrate emerging technologies to address business challenges. Analyse organisational behaviour and strategic frameworks to navigate complexities, enabling precise and impactful decisions that foster organisational resilience, growth, and adaptability in an ever-evolving global economy.
Original application
Apply relevant knowledge to a range of complex situations, with originality and creativity

Apply advanced knowledge with originality and creativity to navigate complex situations in digital project management. Innovate in designing solutions for organisational challenges by integrating AI strategies, entrepreneurial practices, and leadership insights. Generate impactful approaches to deliver sustainable business outcomes, leveraging established and emerging techniques. Demonstrate ingenuity in leading transformative projects, fostering organisational innovation while balancing strategic and operational demands in an increasingly interconnected world.
Practical application
Practical understanding of how established techniques of research and enquiry are used to create and interpret knowledge in business and management, or in a specialist field within it		 Exhibit practical mastery of research methodologies and enquiry techniques to create, analyse, and interpret digital and business management knowledge. Apply evidence-based approaches to address real-world challenges, crafting business cases and delivering solutions through data-driven insights. Integrate principles of sustainability, ethical practice, and innovation to optimise project outcomes. Demonstrate an ability to bridge theory and practice, enhancing decision-making processes that drive value for diverse stakeholders in a global digital economy.
Skills
Excellent command of subject-specific techniques and skills, relevant to the appropriate field of business and management
 Demonstrate an excellent command of advanced digital project management techniques, applying user-centred design principles, modern requirements engineering, and innovative entrepreneurial strategies. Leverage data systems, AI tools, and leadership frameworks to implement digital transformations effectively. Exhibit precision in crafting business solutions, managing dynamic projects, and delivering results that advance strategic objectives, combining technical acumen with leadership capabilities to excel in complex, technology-driven environments.
FHEQ Level 7 (Threshold Academic Standard)
Qualification Descriptor Programme outcome(s)
Domain knowledge
Systematic understanding of knowledge in their field		 Exhibit a systematic understanding of digital project management, including knowledge of digital, web and software project management and methodologies, and key concepts, such as value propositions, life-cycle models, risk assessment, team dynamics, and quality assurance.
Knowledge discernment
Practical understanding of how to create and interpret knowledge in their field using established techniques of research and enquiry		 Evaluate the benefits and limitations of different practical methods in the field of business and digital transformation in the creation and interpretation of new insights, such as effective stakeholder and market research, software platform design and integration, evaluation, and testing, and what should be done with regards to these for the discernment of knowledge.
Originality
Show some originality in applying knowledge		 Synthesise knowledge and new insights in digital project management in a novel way that shows a comprehension of how knowledge in the field is advanced, including by designing and executing practical research projects that propose digital solutions for business needs, new digital strategies, identifying process redesign, having an all-round customer view, and solving commercial, technical and other problems through creative digital and other strategies that maximise advantages and lead to change.
Problems and new ideas in the field
Critical awareness of current problems or new ideas in their field		 Demonstrate a critical awareness of contemporary developments in digital project management, including customer relationship management (CRM) systems, big data, content management systems integration, AI, blockchain, and process redesign, and issues related to their application in different contexts, such as the professional, legal, and ethical.
Research critique
Conceptual understanding so they can criticise and evaluate the current research papers in their field, and the current methodologies and techniques. 		Critique current problems and new insights within business and digital transformation, including in current literature, such as on legacy systems, Environmental, Social, and Governance (ESG), handling change management, and the methodologies and paradigms used, to propose new theories and possible solutions.
Techniques
Comprehensive understanding of applicable techniques in their field		 Have a clear and comprehensive understanding of the appropriate techniques that can be applied to identify problems and provide solutions in digital project management, including digital strategy development, qualitative and quantitative research, data analysis, project management, upskilling, and the application of industry-standard digital methods and tools, including the utilisation of software such as Gantt charts and resource allocation models.

Programme structure

To qualify for the Postgraduate Certificate (PgCert) you must achieve 60 CATS credits from the following.

Core Modules

Title Code Credits Level Teaching System Duration
Interaction Design for User-Centred Systems VS71 15 FHEQ - L7 Technical 15 4 Months Spec
Modern Requirements Engineering RE71 15 FHEQ - L7 Professional 15 4 Months Spec
Digital Delivery Management DM71 30 FHEQ - L7 Professional 30 4 Months Spec
Advanced Leadership for Innovation AL71 15 FHEQ - L7 Professional 15 4 Months Spec
AI in Business: Strategies and Implementation MA71 15 FHEQ - L7 Professional 15 4 Months Spec

Optional Modules

Title Code Credits Level Teaching System Duration
Digital Entrepreneurship DE71 30 FHEQ - L7 Professional 30 4 Months Spec
Modern Database Systems DS71 30 FHEQ - L7 Technical 30 4 Months Spec

Programme modules outcomes map

The following mapping demonstrates how the programme outcomes are all addressed by the module outcomes.
In compliance with the School's regultations, every programme outcome is covered by at least one core module outcome.

FHEQ Level 7 (Threshold Academic Standard)

Programme Learning Outcome
Core
VS71
Interaction Design for User-Centred Systems
Core
RE71
Modern Requirements Engineering
Core
DM71
Digital Delivery Management
Core
AL71
Advanced Leadership for Innovation
Core
MA71
AI in Business: Strategies and Implementation
Core
FP10
Master's Final Project
Optional
DE71
Digital Entrepreneurship
Optional
DS71
Modern Database Systems
Domain knowledge LO1 LO1 LO1 LO1 LO1 LO1, LO2 LO1, LO2
Problems and new ideas in the field LO2, LO3, LO1 LO2, LO1, LO3 LO2, LO3, LO1 LO2, LO1, LO3 LO2, LO1 LO1 LO3, LO1, LO2, LO4 LO1, LO3, LO2, LO4
Techniques LO4 LO4, LO5 LO5, LO4 LO5, LO4 LO3, LO4 LO2, LO3 LO6, LO5 LO5
Originality LO4, LO2, LO3 LO2, LO3, LO4, LO5 LO2, LO3, LO5, LO4 LO5, LO2, LO4, LO3 LO2, LO3, LO4 LO1, LO2, LO3 LO3, LO6, LO4, LO5 LO3, LO5, LO4
Knowledge discernment LO2, LO3 LO2, LO3 LO2, LO3 LO2, LO3 LO2 LO1 LO3, LO4 LO3, LO4
Research critique LO2, LO3, LO1 LO2, LO1, LO3 LO2, LO3, LO1 LO2, LO1, LO3 LO2, LO1 LO1 LO3, LO1, LO2, LO4 LO1, LO3, LO2, LO4

CMI Level 7 (Subject Benchmark Statement)

Programme Learning Outcome
Core
VS71
Interaction Design for User-Centred Systems
Core
RE71
Modern Requirements Engineering
Core
DM71
Digital Delivery Management
Core
AL71
Advanced Leadership for Innovation
Core
MA71
AI in Business: Strategies and Implementation
Core
FP10
Master's Final Project
Optional
DE71
Digital Entrepreneurship
Optional
DS71
Modern Database Systems
Knowledge and understanding
Skills
Critical perspective
Original application
Practical application
Ethical values
Global values

Mode(s) of study

Students can choose either of the following. Entry points can be at the beginning of any semester in the School's academic calendar (February, June or October) where an entry cohort is provisioned. For each semester of each year, the School's website will set out whether an entry cohort for this programme is scheduled.

Please view the programme page on our website for the latest information.

FullName Duration Location AsynchronousLearning SynchronousLearning
1 Full-time blended
Ideal for students who can fully commit to weekly classes (in-person or remotely) and willing to immerse in full-time education.		 12 months
Students can begin in any of our standard semesters, on the first of February, June or October, and complete the programme in 3 consecutive semesters, studying 60 credits per semester. 		On-campus or online. All modules delivered at LSI will allow remote attendance in order to promote flexibility, access, and participation. Our advanced, AI-enhanced online learning platform elevates student engagement. It features the Interactive Knowledge Graph (IKG) for efficient, engaging knowledge attainment, alongside AI-guided activities like quizzes, discussions, Q&A, and immediate feedback on practical tasks, supplementing synchronous classes. Rather than conventional lectures, our academic staff and subject-matter experts focus on interactive methods in live classes, facilitating problem-solving, role-play, case studies, discussions, and teamwork. Students attend these weekly sessions to engage in structured social learning. Our hybrid approach blends the convenience of digital resources with the motivation of human interaction.
2 Part-time blended
Ideal for students busy with work/life commitments, but who can commit to weekly classes (in-person or remotely).		 24 months
Students can begin in any of our standard semesters, on the first of February, June or October, and complete the programme within 2 years. Per semester, they typically study 30 credits. Each taken module should begin and end within the same semester, except the final project, which can be stretched across two. 		On-campus or online. All modules delivered at LSI will allow remote attendance in order to promote flexibility, access, and participation. Our advanced, AI-enhanced online learning platform elevates student engagement. It features the Interactive Knowledge Graph (IKG) for efficient, engaging knowledge attainment, alongside AI-guided activities like quizzes, discussions, Q&A, and immediate feedback on practical tasks, supplementing synchronous classes. Rather than conventional lectures, our academic staff and subject-matter experts focus on interactive methods in live classes, facilitating problem-solving, role-play, case studies, discussions, and teamwork. Students attend these weekly sessions to engage in structured social learning. Our hybrid approach blends the convenience of digital resources with the motivation of human interaction.

Credit structure

The following are examples only. For more information, please read the school's registration regulations .

Full-time blended Example (total of 60 credits)
Taught modulesFinal project
Semester 160
Total60
Part-time blended Example 1 (total of 60 credits)
Taught modulesFinal project
Semester 130
Semester 230
Total60
Part-time blended Example 2 (total of 60 credits)
Taught modulesFinal project
Semester 120
Semester 220
Semester 320
Total60

Teaching systems

Name Workload Assessment Modules
Technical 15

Standard LSI teaching system for 15-credit modules for subjects requiring hands-on technical skills.

 9h πŸ•‘ AI formative assessment
18h πŸ•‘ Concept learning (knowledge graph)
51h πŸ•‘ Independent reading, exploration and practice
18h πŸ•‘ Individual or group assignments
30h πŸ•‘ Summative assessment
1.5h πŸ•‘ Introductory lecture
13.5h πŸ•‘ Workshop/Lab Sessions
9h πŸ•‘ Case Study Review
Total : 150.0 hours		 40% I K P Invigilated Exam
60% I T P K Technical Analysis and Solution Assessment		 VS71
Professional 30

Standard LSI teaching system for 30-credit modules for foundational subjects focusing mostly on understanding key concepts, with minimal hands-on technical skills or professional practice.

 18h πŸ•‘ Case Study Review
40h πŸ•‘ Summative assessment
18h πŸ•‘ AI formative assessment
1.5h πŸ•‘ Introductory lecture
36h πŸ•‘ Concept learning (knowledge graph)
27h πŸ•‘ Individual or group assignments
13.5h πŸ•‘ Workshop/Lab Sessions
146h πŸ•‘ Independent reading, exploration and practice
Total : 300.0 hours		 50% I T K P Simulation and Role Playing Assessment
50% I K P Invigilated Exam		 DE71, DM71
Technical 30

Standard LSI teaching system for 30-credit modules for subjects requiring hands-on technical skills.

 36h πŸ•‘ Concept learning (knowledge graph)
1.5h πŸ•‘ Introductory lecture
18h πŸ•‘ AI formative assessment
64h πŸ•‘ Summative assessment
27h πŸ•‘ Workshop/Lab Sessions
153.5h πŸ•‘ Independent reading, exploration and practice
Total : 300.0 hours		 40% I K P Invigilated Exam
60% I T P K Technical Analysis and Solution Assessment		 DS71
Professional 15

Standard LSI teaching system for 15-credit modules for professional subjects focusing on understanding key concepts and processes, and developing management or analytical skills.

 13.5h πŸ•‘ Workshop/Lab Sessions
61.5h πŸ•‘ Independent reading, exploration and practice
18h πŸ•‘ Concept learning (knowledge graph)
1.5h πŸ•‘ Introductory lecture
9h πŸ•‘ AI formative assessment
24h πŸ•‘ Summative assessment
9h πŸ•‘ Case Study Review
13.5h πŸ•‘ AI Roleplay
Total : 150.0 hours		 50% I K P Invigilated Exam
50% I T K P Simulation and Role Playing Assessment		 RE71, AL71, MA71
Postgraduate Final Project 60

A practical project module, suitable for the final project of a specialist master's programme, with one-to-one supervisory meetings every 2 weeks for 45 minutes per session on average. This involves learning the concepts in the glossary of research methods and best-practices.

 270h πŸ•‘ Independent reading, exploration and practice
4.5h πŸ•‘ One-to-one project supervision meeting
318h πŸ•‘ Individual Research
7.5h πŸ•‘ Final Project Seminars
Total : 600.0 hours		 15% K I P Research Module Assessment: Presentation
50% I K P Research Module Assessment: Final Report
35% T I K P Research Module Assessment: Artefact 		FP10

Teaching and learning methods

Each module will specify its teaching system, including weighted teaching and learning activities, which will be drawn from the following pool as appropriate.

Name Description
1 AI formative assessment

Once each concept of the theory is studied, students will be prompted to engage in formative assessment with instant AI feedback. They include multiple-choice questions, socratic questions and answers, written questions, role-play and other AI-assisted practice scenarios.

The purpose of this automated formative assessment is to provide students with immediate feedback on their understanding of module material and highlight any areas that need support or further study. They are also used to track student progress, boost motivation and promote accountability.
2 Concept learning (knowledge graph)

Our institution's approach to teaching is primarily based on flipped learning. Ahead of each weekly session (Workshop/Lab), students will be required to study the essential concepts that are used in the coming session so they are familiar with the theories and ideas related to that session. The study material will be in the form of written content, illustrations, pre-recorded lectures and tutorials, and other forms of content provided through the AGS.

This content is self-navigated by the students, accommodating different learning styles and schedules, allowing students to watch or listen to them at their own pace and review them as needed.
3 Independent reading, exploration and practice

This activity challenges students to engage with the reference material and independently explore and analyse academic literature related to the course topic. Students are expected to select relevant sources, practice critical reading skills, and where applicable technical skills, and synthesise information from multiple references. This is an opportunity to enhance research abilities, critical thinking, and self-directed learning skills while broadening and deepening subject knowledge.
4 Individual or group assignments

Each Workshop/Lab session will be followed by an assignment. Assignments are used to reinforce learning and encourage independent thinking and problem-solving. They help the students identify the gaps in their understanding of the subject and provide them with an opportunity to apply what they have learned in a practical setting.

Assignments can be individual or group-based (teams of 2 to 4). They can take many forms, including essays, presentations, or projects. When they are group-based, teams will be randomly picked by AGS, in order to promote broader teamwork practice. Assignment files will be uploaded to AGS by the students ahead of the next weekly session. Feedback will be provided on each submitted assignment.
5 Introductory lecture

This is the first weekly session, dedicated to providing a comprehensive introduction to the module. The module leader will present an overview of the subject, elucidating its importance within various digital engineering professions and its interrelation with other modules. Students will need no preparation ahead of attending this session.

The module leader will provide a structured breakdown of the content to be covered in the subsequent 9 sessions. Students will also receive an outline of the essential reference materials, alongside suggestions for supplementary reading. The format and criteria for the summative assessment will be delineated, followed by a dedicated period for questions and answers.

A recording of the session will be available to facilitate async engagement for any other student who missed the class, also offering an opportunity to review the content again.
6 Workshop/Lab Sessions

Those studying in the blended learning mode will attend these 9 weekly classes (in person or remotely) during weeks 2 to 10. These sessions will complement the theory already studied during the preceding week (in our flipped-learning model), with discussions, analysis, practice or experience . They will be interactive and participatory, rather than one-way lectures. There will also be an opportunity for Q&A in every session. Depending on the nature of the content, challenges and learning activities will be pre-designed to apply flipped learning. They may include hands-on project work, group discussions or debates, roleplay, simulation, case studies, presentations, and other learning activities and opportunities. These workshops present an opportunity to apply critical thinking and problem-solving skills. They also encourage collaboration and foster a sense of community among students.
7 Case Study Review

In this learning activity, students explore recent real-world case studies relevant to their course topic. The case studies will have been selected and curated by the module leader to represent up-to-date examples. They guide students through key details, contextual factors, and outcomes. This approach enhances students' understanding of current industry trends, challenges, and solutions, preparing them for real-world scenarios they may encounter in their future careers.

The learning experienced will be augmented by AI (virtual private tutor) allowing the students to critically engage with the content and discuss the case studies.
8 AI Roleplay

AI Roleplay is an innovative educational approach that leverages artificial intelligence to create immersive, interactive learning experiences for university students. In this activity, students are presented with a professional challenge or scenario relevant to their course. They then engage in a simulated interaction with one or more AI-powered characters, each programmed to embody specific roles, personalities, and expertise.

These AI characters respond dynamically to the student's inputs, creating a realistic and adaptive roleplay environment. Students can practice their communication skills, decision-making, problem-solving, and other professional competencies in a safe, low-stakes setting. After the session, the AI system provides detailed feedback on the student's performance, highlighting strengths and areas for improvement. This personalised guidance helps students refine their skills and gain confidence in handling real-world professional situations.
9 One-to-one project supervision meeting

During these meetings, the student presents their recent progress, including any research findings, data analysis, or draft sections of their work. The supervisor provides feedback, addressing both strengths and areas needing improvement. These sessions often involve discussing challenges faced by the student, strategising solutions, and setting goals or deadlines for the next phase of work. The supervisor may also offer insights on relevant literature, methodologies, or academic writing techniques.
10 Individual Research

Part of the credit hours on a module are also made up of self-guided individual research. These hours enable students to look at what components they are going to study on a module and ascertain for themselves what they will believe will additionally benefit their leaning. This may be prior to attending a lecture or workshop, following their use of a concept learning (knowledge graph) where they identify that additional reading may deepen their understanding of a concept, or after a seminar has taken place. Students will also use self-guided individual research to prepare for summative assessments. In the main, as this is self-guided, students will decide for themselves what additional research they will do. This will require them to identify what concepts or knowledge, skills, and competencies they want to deepen, what resources will assist them, such as books, videos, or online sources, how they will use these, and what the outcomes should be. Students may decide to work with their peers in undertaking this individual research – and they can ask their tutors for guidance and help. Students may also have to use some of their self-guided individual research to prepare for lectures, workshops, or assignments, or for work their tutors have set them.
11 Final Project Seminars

A series of 5 live seminars, with Q&A opportunities.

Seminar 1: Foundations of the Final Project (Week 1): It lays the groundwork for your final project, focusing on setting clear objectives that deliver real-world impact. We’ll cover Level 7 learning outcomes and professional standards, providing insight into assessment criteria with an emphasis on originality and applied knowledge. Building on feedback from your proposal, we’ll discuss ways to refine your project design using an agile approach. The seminar also introduces Open Science principles, fostering ethical transparency. You’ll learn to craft a literature review that supports the practical aims of your project, enabling you to interpret findings meaningfully. Finally, we’ll address strategies for communicating your project’s impact to varied audiences, ensuring your work resonates on personal, professional, and social levels.

Seminar 2: Defining Project Objectives and Approach (Week 1): In this session, we focus on defining actionable objectives and a practical approach to your final project. You’ll develop self-direction and initiative, essential for a high-impact project, and explore the value of interdisciplinary methods to broaden your project’s relevance. The seminar covers foundational skills in computing and data science, which are critical for creating impactful, evidence-based results. We’ll also review the scientific method’s application, guiding you in setting up a clear framework for problem-solving. Essential project management techniques will be discussed, covering time and risk management. Additionally, you’ll identify key soft skills like adaptability and communication that are necessary for successful project execution.

Seminar 3: Criteria for Project Success (Week 2): This seminar explores the criteria that underpin project success, focusing on the effective application of research methods. We’ll examine advanced data processes such as collection, processing, and quality assurance to support rigorous project outcomes. Special attention is given to ensuring the reliability and validity of your data, minimising bias and maximising accuracy. You’ll learn how to refine your project in iterative cycles, incorporating feedback and testing to strengthen your deliverable. This approach ensures that your final project meets Level 7 expectations and demonstrates a strong grasp of practical data management, research methods, and the iterative improvement necessary for high-quality results.

Seminar 4: Professional, Legal, and Ethical Standards (Week 2): In this seminar, we delve into the professional, legal, and ethical standards essential to your project. Emphasising responsible innovation, we’ll discuss what it means to be an ethical project leader. You’ll learn about data protection legislation, including GDPR compliance, and gain practical guidance on responsible data handling. Navigating the School’s ethics approval processes, cybersecurity protocols, and digital best practices are covered to ensure your project aligns with professional standards. We’ll also discuss the integration of ESG (Environmental, Social, and Governance) and EDI (Equality, Diversity, and Inclusion) principles, ensuring your project meets modern expectations of responsible and inclusive innovation.

Seminar 5: Project Submission and Professional Presentation (Mid-Way): This seminar prepares you for project submission, focusing on practical submission requirements, including documentation and professional presentation of results. We’ll revisit assessment criteria, focusing on how to demonstrate integrity, originality, and IP considerations. Strategies for articulating your project’s impact to different audiences, from academic to industry stakeholders, will be discussed. We’ll also cover the submission process, ensuring compliance with regulatory guidelines and plagiarism standards. Finally, we’ll explore opportunities for publishing your work and discuss career development, highlighting how your project experience can be leveraged in professional contexts for maximum visibility and influence in the field.

Assessment formats

Each module will specify its weighted summative assessment formats which will be drawn, as appropriate, from the following pool.

Name OutcomesLinks Modules
1 Invigilated Exam
This is a time-limited and closed-book exam with a mix of multiple-choice and analytical written questions that students undertake during the summative assessment period as scheduled under the School’s remote invigilation conditions to ensure quality and academic integrity. The exam enables the students to demonstrate their successful attainment of the module learning outcomes, primarily related to knowledge and understanding, and secondarily related to Professional/Transferable Skills. The analytical written questions will consist of problem questions representing issues and dilemmas students are likely to encounter in professional life and students have to synthesise and apply what they have learnt on the module in order to produce sound and reasonedΒ judgements with respect to the problem. To enable the students to practice and prepare, various formative assessment activies, including quizzes and a AI-augmented assignments and mock exams are built into the module. Additionally, throughout the course, students will regularly receive feedback on their knowledge and assignments from AI as well as peers and staff to indicate how to improve future work and how to give constructive feedback to others.		 I K P RE71, MA71, DM71, VS71, AL71, DE71, DS71
2 Technical Analysis and Solution Assessment
This assessment requires students to develop a solution to a complex problem within a simulated domain, followed by a detailed analysis and reflection on their design and its theoretical underpinnings. The aim is to assess students' abilities to design practical solutions, critically analyse their work, and articulate their understanding of the technical and theoretical aspects of the module.		 I T P K VS71, DS71
3 Simulation and Role Playing Assessment
This assessment requires students to engage in AI-assisted simulations or role-playing scenarios that mirror real-world professional situations. It evaluates their practical knowledge, decision-making, and adaptability. Students are given a detailed brief outlining a dynamic, evolving problem involving various issues like business, legal, professional, and ethical considerations. They must interpret the situation, consult relevant sources, and present a solution based on their knowledge from the module. At the start of the module, students attend a workshop on effective participation in simulations aligned with the learning outcomes. Throughout the term, they practice through formative simulations, receiving feedback from AI, peers, staff, and their module leader.		 I T K P RE71, MA71, DM71, AL71, DE71
4 Research Module Assessment: Presentation
Students must deliver a presentation on their artefact. The purpose of the presentation is to assess their ability to communicate their research findings, methodologies, and implications effectively to a diverse audience in a concise, professional, and engaging manner. The presentation stems from the research problem statement set out in the Final Project proposal, which require students to come up with a practical solution in the form of an artefact that uses the implementation lifecycle. It is envisaged that the Final Project will require students to apply the tools and architectures they have learnt in their programme modules to diagnose problems, undertake requirements analyses, and produce an artefact. This presentation will require them to expand on how they strategised and overcame practical, professional, ethical and other issues and constraints they may have come across. Students will have a workshop in the research module on how to make an effective presentation, and their module leader will be able to provide them with further support whilst they work on their project. They will have the opportunity to present their work in their programme modules and receive peer and tutor feedback. Throughout such programme modules, students will also regularly receive formative assessment tasks and feedback opportunities to gain actionable feedback (from self, peers and staff) on their own work to indicate how to improve future work and learn how to give constructive feedback to other people. 		K I P FP10
5 Research Module Assessment: Final Report
Students will be required to submit a final report. The purpose of the final report is to assess how students conducted independent research, applied critical thinking, and demonstrated a systematic understanding of their subject of study within computer science in producing their artefact. The final report also allows students to showcase their originality in applying knowledge and techniques in producing the artefact, as well as their proficiency in utilising established research methods and tools. It provides an opportunity for students to communicate their research findings, interpretations, and conclusions effectively, both to specialist and non-specialist audiences. Students will have a workshop in the module on how to prepare, structure, and submit a final report, and your module leader will be able to provide you with further support whilst you work on it. You will be shown examples of successful and unsuccessful final reports. You will also have the opportunity to present your work during your programme modules and receive peer and tutor feedback. Throughout the programme, students will regularly receive formative assessment tasks and feedback opportunities to gain actionable feedback (from self, peers and staff) on their own work to indicate how to improve future work and learn how to give constructive feedback to other people. 		I K P FP10
6 Research Module Assessment: Artefact
For the research project, students must submit an artefact that meets the problem statement that they articulate in their final report. You will have a workshop on the module on how to ideate and design practical solutions for problems using an implementation lifecycle and how to succeed with your project. Throughout the programme, in particular, their programme modules, students will regularly receive formative assessment tasks and feedback opportunities to gain actionable feedback (from self, peers and staff) on their own work to indicate how to improve future work and learn how to give constructive feedback to other people. 		T I K P FP10

Marking criteria

The following grid sets out the School’s marking criteria for FHEQ - L7.

Outcome Expectation Distinction (70 - 100%) Merit (60 - 69%) Pass (50 - 59%) Fail (0 - 49%)
Intellectual Skills Ability to analyse, apply, and critically evaluate knowledge, techniques, and practices, in unpredictably complex contexts and to existing discourses and methodologies with intellectual skill and some originality. Exceptional analysis, application, and critical evaluation of knowledge, techniques, and practices in unpredictably complex contexts and to existing discourses and methodologies, with a high-level of intellectual skill and some originality. Sound analysis, application, and critical evaluation of knowledge, techniques, and practices in unpredictably complex contexts and to existing discourses and methodologies, with very good intellectual skill and some originality. Acceptable analysis, application, and critical evaluation of knowledge, techniques, and practices in unpredictably complex contexts and to existing discourses and methodologies, with satisfactory intellectual skill and limited originality. Little to no analysis, application, and critical evaluation of knowledge, techniques, and practices in unpredictably complex contexts and to existing discourses and methodologies, with a very narrow level of intellectual skill and no originality.
Knowledge and Understanding Systematic and critical understanding of relevant knowledge, concepts, new insights, and developments in the discipline, including within current literature, and also incorporating interrelationships with other relevant disciplines. Outstanding systematic and critical understanding of relevant knowledge, concepts, new insights, and developments in the discipline, including within current literature, and also incorporating interrelationships with other relevant disciplines. Very good systematic and critical understanding of relevant knowledge, concepts, new insights, and developments in the discipline, including within current literature, and also incorporating interrelationships with other relevant disciplines. Satisfactory systematic and critical understanding of relevant knowledge, concepts, new insights, and developments in the discipline, including within current literature, and also incorporating interrelationships with other relevant disciplines. Little to no systematic and critical understanding of relevant knowledge, concepts, new insights, and developments in the discipline, including within current literature, and also incorporating interrelationships with other relevant disciplines.
Professional/Transferable Skills Ability to show awareness, autonomy and self-direction in development and learning, tackling and solving complex problems, approaching and implementing tasks in diverse and unpredictable contexts, including professional, legal and ethical, critically evaluating own and others capabilities, and with an ability to communicate work to specialist and non-specialist audiences. Exceptional ability to show awareness, autonomy and self-direction in development and learning, taking a thorough proactive approach to tackling and solving complex problems, approaching and implementing tasks in diverse and unpredictable contexts at a very high level, including professional, legal and ethical, exceptional critical evaluation of own and others work, and with a thorough ability to communicate work to specialist and non-specialist audiences Very good ability to show awareness, autonomy and self-direction in development and learning, taking an effective and proactive approach in tackling and solving complex problems, approaching and implementing tasks in diverse and unpredictable contexts at a very good level, including professional, legal and ethical, very good critical evaluation of own and others work, and with a very good ability to communicate work to specialist and non-specialist audiences. Satisfactory ability to show awareness, autonomy and self-direction in development and learning, taking a good approach in tackling and solving complex problems, approaching and implementing tasks in diverse and unpredictable contexts at an acceptable level, including professional, legal and ethical, satisfactory critical evaluation of own and others work, and with a good ability to communicate work to specialist and non-specialist audiences. Little to no ability to show awareness, autonomy and self-direction in development and learning, taking a limited or no proactive approach in tackling and solving complex problems, approaching and implementing tasks in diverse and unpredictable contexts at a very limited level, including professional, legal and ethical, little to no critical evaluation of own and others work, and with little to no ability to communicate work to specialist and non-specialist audiences.
Technical/Practical Skills Comprehensive and critical understanding and organisation of specialist techniques and advanced methodologies in the discipline, including those related to critical thinking, specialist projects, research design, problem-solving, and techniques, and a practical understanding of how they should be selected and used to interpret incomplete knowledge and create effective artefacts. Outstanding critical understanding and organisation of specialist techniques and advanced methodologies in the discipline, including high-level critical thinking, specialist projects, research design, problem-solving, and techniques, and a thorough practical understanding of how they should be selected and used to interpret incomplete knowledge and create effective artefacts. Very good critical understanding and organisation of specialist techniques and advanced methodologies in the discipline, including sound critical thinking, specialist projects, research design, problem-solving, and techniques, and a very good practical understanding of how they should be selected and used to interpret incomplete knowledge and create effective artefacts. Acceptable critical understanding and organisation of specialist techniques and advanced methodologies in the discipline, including satisfactory critical thinking, specialist projects, research design, problem-solving, and techniques, and acceptable understanding of how they should be selected and used to interpret imcomplete knowledge and create effective artefacts. Limited or no critical understanding and organisation of specialist techniques and advanced methodologies in the discipline, including little or no critical thinking, , specialist projects, research design, problem-solving, and techniques, and a limited to no practical understanding of how they should be selected and used to interpret incomplete knowledge and create effective artefacts.

Programme contacts

Role Description Name Email
Programme Director Oversees the overall direction and integrity of the programme. Lindsay Jessup Lindsay.Jessup@geeks.ltd.uk

Programme approval

Stage Version ApprovalDate Authority Chair Revalidation
Strategic Approval 1.0 September 2024 Board of Governors Somayeh Aghnia September 2030
Operational Approval 1.0 November 2024 Executive Committee Paymon Khamooshi November 2030
Academic Approval 1.0 February 2025 Academic Board Dr Paresh Kathrani February 2031