MSc Cyber Security (Infrastructures Security)

Certified by the NCSC – a part of GCHQ

This degree has been awarded Provisional Certification by the NCSC

About

Digital technologies drive economic growth yet create new cyber risks demanding ever more sophisticated solutions. There is worldwide demand for new and innovative approaches to tackle global cyber-threats specific to large-scale infrastructures, from energy production to finance through to healthcare and smart transportation. The cyber security of such infrastructures is paramount – their disruption can have large-scale impacts on society as well as massive business losses. There is a major shortage of cyber security professionals globally, and the specialist nature of critical infrastructures makes the problem even more acute.

A strong ethos of rigorous experimental and empirical cyber security research underpins the MSc, facilitated by a state-of-the-art testbed for studying critical National Infrastructure (CNI) and Internet of Things (IoT) security, and bespoke teaching equipment. You’ll learn to apply foundational cyber security techniques to infrastructure and will develop the skills for engineering scalable solutions. You'll be exposed to real-world problems that are practical and challenge-oriented but underpinned by rigorous research.

This MSc aims to:

  • Enable a deep understanding of fundamental concepts, design principles, building blocks and methods to understand and mitigate against cyber security threats;
  • Give you hands-on experience of working with devices, systems and networks utilised in realistic infrastructure environments;
  • Equip you with the ability to apply security principles and technical knowledge to analyse complex real-world infrastructures systems (including software systems, networks, control systems and IoT) to identify potential security issues and solutions;
  • Provide you with the skills to reason critically about complex problems that require evaluation and analysis from a multi-dimensional perspective including technical, human and organisational aspects.

Why study MSc Cyber Security (Infrastructures Security)?

Find out what you’ll be studying in this hands-on innovative MSc from Programme Director, Awais Rashid.

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Programme Details

Programme Structure

The MSc consists of the following compulsory units:

  • Foundations (20 credits)
  • Network Security (20 credits)
  • Fundamentals of System Security (20 credits)
  • Security of Industrial Control Systems (30 credits)
  • IoT and IIoT Security (30 credits).

To complete your studies, you will undertake a 60-credit individual research project proposed by project supervisors. This unit will provide you with first-hand experience in planning, running, documenting, and presenting a substantial piece of original work in the field of cyber security of infrastructures. This will typically include reading and synthesising academic literature, developing a hypothesis and validating it through hands-on experimental or implementation work. The projects offered each year will vary and each will have a different focus under the overarching umbrella of Infrastructures Security.

The part-time programme provides the exact same coverage and depth as for full-time students albeit the course is taken over a period of 2 or 3 years.Students will have a recommended set of units to take as follows (see programme structure below):
  • Year 1: TB1 units Foundations and Network Security; TB2 Unit: Security of Industrial Control Systems.
  • Year 2: TB1 unit: Fundamentals of System Security; TB2 Unit: IoT & IIoT Security. Depending on whether the student aims to finish within 2 or 3 years, a dissertation project can be undertaken in Year 2 or 3.
  • Other combinations can be allowed as long as the pre-requisites are respected and with the express permission of the Programme Director. For instance, a student may take all of TB1 units in Year 1, all of TB2 units in year 2 and the dissertation in year 3. This would be an acceptable combination.

MSc Delivery Team

Our delivery structure reflects the interdisciplinary, socio-technical ethos we aim to engender within the programme.

Research Activities

PETRAS - IoT Systems Cybersecurity

Cyber Security for Food Security

How many shades of NIS? (RITICS)

Decisions and Disruptions - role-playing game

As the programme hasn’t started yet we can’t offer any specific examples – these will be released to students during TB1:
  • The aim of the project is to carry out an in-depth investigation into a specific area of cyber security relevant to the programme topic (Infrastructures Security) and to make a valuable and original scientific or technical contribution. 
  • The focus is on discovery and demonstration of innovative cyber security ideas that will have the potential to generate real-world impact or otherwise have impact for some research community. 
  • Projects may involve the design of hardware, software, experiments, studies involving human users or organisations (within the scope of the programme topic). Topics may include threat hunting relating to critical infrastructures, developing new software security mechanisms or new types of vulnerability analysis or intrusion detection systems. Students may also conduct studies deploying a number of security mechanisms to experimentally evaluate their comparative strengths and weaknesses.
  • Specialist teaching equipment for ICS and IoT security – custom-built equipment for Industrial Control Systems (ICS) teaching and projects; the Testbed is a state-of-the-art experimental research facility including 2 physical processes (water treatment plant, model factory); three station Security Operations Centre (SOC); dedicated workshop featuring a 3D printer, circuit board printer, soldiering station and tools.
  • Absolutely – Cyber Security is a long-standing research strength and a strategic priority for the University. The programme is founded on the internationally recognised research expertise, team and unique facilities of Bristol Cyber Security Group - students will be taught by research experts in the field. The group also developed world-first teaching equipment and materials, not available elsewhere, which will be used in this Master’s programme.
  • In the taught part of the programme students will acquire hands-on experience of applying their knowledge to real devices and systems by working on specialist equipment in the labs (drawing upon the state-of-the-art CNI and IoT testbed facilities developed by the research group) to hone their skills through supervised lab sessions. Group work, for example large case studies, will be utilised in order that students gain an understanding of leveraging and applying their knowledge. These group working skills are key in this sector as securing such infrastructures requires teamwork and collaborative effort and leveraging understanding from a diverse range of perspectives. Students will also develop their individual analytical and problem-solving skills by applying the knowledge gained in the programme to case studies or development of security applications or tools. Students will develop confidence in their abilities to solve problems unaided through extension exercises that will follow-on from the lab workbooks on a weekly basis.
  • The MSc Dissertation Project represents the pinnacle of the MSc Cyber Security degree programme allowing students to independently (with a dedicated supervisor from the research group) carry out an in-depth investigation into a specific area of cyber security. In the run-up to this students will take courses on research methods, dissertation writing and responsible innovation (not part of a standard unit, or assessed) as well as a dedicated panel session with academic staff to discuss what makes good research questions depending on the nature of a project, e.g., technical, experimental or empirical.
  • There will also be seminars which students will have the opportunity to attend. The Cyber Security Group participate in or lead several major initiatives, e.g., leading projects in national institutes and centres and hosting such centres too. There are many events related to the research in these centres and some events are open to graduate students. Our students will naturally be invited to such open events.

Facilities

The Bristol Cyber Security Group testbed provides a realistic environment for research into cyber-physical systems security. It has been built from the ground up, based on extensive past experience of building ICS security testbeds and input from industry partners.

 

Joe Gardiner, Lecturer, Department of Computer Science, outlines the Bristol Cyber Security Group Testbed Tour. 

  • Multiple physical and virtual processes
    Including a water treatment plant, model factory and building management system, each within distinct, centrally managed field sites.
  • Physical industrial control hardware
    Sourced from a number of vendors including the latest devices with the newest protocols.
  • Fully-realised experimental network environment
    Covering both the IT and OT network environments, with comprehensive data capture abilities.
  • Training and prototyping environment
    Comprehensive fully simulated environments and small scale physical testbeds.
  • ICS training boxes
    Designed and built in-house.
  • Remote field site with physical process
    Mobile and self-contained.
  • Federated architecture
    Allowing for granular integration of remote testbed/control structures to enable large scale and diverse experimentation.
  • Our own workshop
    Including 3D-print capabilities for rapid prototyping.
  • Access to the electrical engineering workshop team
    For design and building of testbed infrastructure.