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Full Time MSc Degrees in Engineering, Shrivenham, United Kingdom

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Cranfield University at Shrivenham Defence and Security
Distance from Shrivenham: 0 miles
All those involved in the wider defence enterprise, across government, military, industry, science and technology have changing needs and aspirations for defence. Read more

Course Description

All those involved in the wider defence enterprise, across government, military, industry, science and technology have changing needs and aspirations for defence. Agility, resilience, continuity of supply, skills and innovation now complement the continuing need to balance cost, time and performance in everything we do.

The Centre for Systems Engineering has been at the forefront of developing systems engineering education for the past fifteen years, blending the breadth of systems thinking with the rigour of systems engineering and closely integrating this within acquisition management.

You will develop knowledge and skills in understanding the wider context of defence capability and guiding the development of operational, support and enabling business solutions which both deliver cost effective outcomes and contribute to the attributes of defence as a whole.

Course overview

The course is modular and you will accumulate credits for each module you successfully complete:

- Full modules are each worth 10 credits.
- The Advanced Systems Engineering Workshop is worth 20 credits.

The course structure has been devised to give the maximum amount of flexibility for you to create your own learning pathway whilst ensuring that the fundamental principles of systems engineering are compulsory.

- The PgCert comprises 60 credits of which 40 are for compulsory modules and 20 are for elective modules.
- The PgDip comprises 120 credits of which 70 are for compulsory modules and 50 are for elective modules.
- The MSc comprises 200 credits of which 70 are for compulsory modules, 50 credits are for elective modules and 80 are for the thesis associated with the Individual Project.

Full-time MSc - one year, Part-time MSc - up to three years, Full-time PgCert - one year, Part-time PgCert - two years, Full-time PgDip - one year, Part-time PgDip - two years

(For MOD status students the duration may vary, subject to annual review.)

Individual Project

The Individual Project provides you with an opportunity to undertake an in-depth study of an area of particular interest to you or your sponsor which is written up as a thesis or dissertation. The study might include, for example:

- Application of Systems Engineering tools and techniques to a real world problem.
- Analysis of underpinning Systems Engineering theory and practice.
- Development of new or tailored Systems Engineering processes.

Modules

The Compulsory and Elective Modules below are as for the MSc and PgDip. For PgCert students Capability Context and Advanced Systems Engineering Workshop are Elective.

Core -

Advanced Systems Engineering Workshop (ASEW)
Applied Systems Thinking
Capability Context
Lifecycle Processes Introduction
Lifecycle Processes Advanced
Systems Approach to Engineering

Elective -

Availability, Reliability, Maintainability and Support Strategy (ARMSS)
Decision Analysis, Modelling and Support (DAMS)
Human Centric Systems Engineering (HCSE)
Introduction to Defence Capability
Model Based Systems Engineering
Simulation and Synthetic Environments
System of Systems Engineering
Thesis Selection Workshop
- Systems Engineering and Software
- Systems Engineering Workshop
- Networked and Distributed Simulation Exercise

Assessment

Coursework, written examinations, oral examinations, portfolio and, for the MSc only, an individual thesis.

Funding

Funding is available to MoD students. For more information contact MoD Enquiries by calling 01793 314485 (Option 4) or Mil: 96161 4485.

For more information on funding for non-MoD students please contact

Career opportunities

Takes you on to impressive career prospects across a range of roles commensurate with your experience. This includes membership of multidisciplinary teams in acquisition, supply or research organisations. This could be in both general systems engineering roles or as a focal point for specific skills such as availability, reliability and maintenance (ARM), human factors, requirements, architecture test and evaluation, etc. It is also applicable to key roles in MoD acquisition such as Project Team leader, capability manager and requirements manager.

Further Information

For further information on this course, please visit our course webpage - http://www.cranfield.ac.uk/Courses/Masters/Systems-Engineering-for-Defence-Capability

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Cranfield University at Shrivenham Defence and Security
Distance from Shrivenham: 0 miles
This course has been designed specifically to provide an opportunity to a wide range of attendees, which include military officers, defence industry staff, government servants and civilian students. Read more

Course Description

This course has been designed specifically to provide an opportunity to a wide range of attendees, which include military officers, defence industry staff, government servants and civilian students.

The course offers advanced academic background necessary for students to contribute effectively to technically demanding projects in the field of explosives and Explosives Ordnance Engineering (EOE). It does this by introducing them to up-to-date and current research, which enables them to obtain a critical awareness to problem solving and capability to evaluate both military and commercial best practice in the field of EOE.

This course enables students to learn in a flexible manner as it offers both part-time and full-time learning all with full access to an outstanding remote virtual learning environment and on-line literature through our extensive library facilities. Other qualities and transferable skills include opportunities that will enhance employment potential in this field, problem solving, self-direction and informed communication skills.

This course meets the educational requirements for the Engineering Council UK’s register of Chartered Engineers (CEng); the course is accredited by the Institution of Mechanical Engineers (IMechE) and the Institution of Engineering and Technology (IET).

Overview

This course specialises in explosive ordnance and engineering and is world class in teaching and research. We have a diverse student body drawn mainly from personnel linked to the military from numerous industries and institutions in the UK as well as overseas providing a rich educational experience. Our class size is normally 20 - 25 comprising a combination of full and part time students.

Start date: Full-time: September. Part-time: by arrangement

Duration: Full-time MSc - one year, Part-time MSc - up to three years, Full-time PgDip - one year, Part-time PgDip - two years

English Language Requirements

Students whose first language is not English must attain an IELTS score of 7.0

Course overview

Part One of the MSc course contains an introductory period followed by academic instruction, which is in modular form. Students take ten core modules covering the main disciplines and choose two optional modules based upon their particular background, future requirements or research interests. To qualify for the Explosives Ordnance Engineering MSc, students must successfully complete formal examinations, individual coursework, one group project and a research project.

Research project:
In Part Two, students undertake a research project - a list of prospective projects is provided each year by the teaching staff. Alternatively, with the agreement of the teaching staff/supervisor, students may undertake appropriate research of their own choice.

The structure of this course has been devised so that students learn the fundamental elements of EOE from an academic perspective whilst having the opportunity to learn something new by selecting elective modules.

Modules

The MSc is 200 credits of which 90 are compulsory, 80 are for the thesis and 30 credits are elective.

The PgDip is 120 credits of which 90 are compulsory and 30 credits are elective.
Full modules are 10 credits each; half modules are 5 credits each.

Core:
- Ammunition Systems 1 (Warheads)
- Ammunition Systems 2 (Delivery Systems)
- Ammunition Systems 3 (Target Effects)
- Future Developments: Scanning the Horizon in EOE
- Insensitive Munitions (Half Module)
- Introduction to Explosives
- Manufacture and Material Properties of Explosives
- Gun Propellants
- Research Methodology
- Testing and Evaluation of Explosives (Half Module)
- Transitions To Detonation (Half Module)
- EOE Project Phase

Elective:
- Explosives and the Environment (Half Module)
- Explosives for Nuclear Weapons
- Pyrotechnics
- Computer Modelling Tools in Explosives Ordnance Engineering (Half Module)
- Risk Assessment for Explosives (Half Module)
- Forensic Investigation of Explosives and Explosive Devices
- Rocket Motors and Propellants

Individual Project

The aim of the project phase is to give the students an opportunity to apply the skills, knowledge and understanding acquired on the taught phase of the course to a practical problem in EOE. A list of available project titles is produced in the first few months of the course so that a student can make an early choice and begin planning their programmes well before the project phase begins. Suggestions for projects may come from a variety of sources, for example an individual student’s sponsor, a member of staff, or the wider EOE community.

Group Project

To integrate module learning into an overall critical evaluation of new trends in EOE the students undertake a group project, which considers current ‘Hot Topics in EOE’, for example, nanotechnology, insensitive munitions, analysis and detection and environmental initiatives. The group project involves the students working together to research these hot topics and to critically appraise the facts, principles, concepts, and theories relating to a specific area of EOE. They do this as a group and then individually prepare elements of a presentation that they feedback in groups to their peers in an open forum. The presentation is then graded from an individual and group perspective.

The group project enables the students to work as a team, enhances their communication skills and encourages the ability to present scientific ideas in a clear and concise manner. It also gives the students an understanding of the procedures and challenges associated with peer review and grading and prioritisation of presented work against a clear assessment framework.

Assessment

Coursework, examination, group project and individual thesis (MSc only).

Career opportunities

Many of the students are linked to military employment and as such are sponsored through this route. Therefore the majority of the students continue to work for them on completion of the course. However, the course has the potential to take you on to enhanced career opportunities often at a more senior level across a range of roles corresponding with your experience.

For further information

on this course, please visit our course webpage http://www.cranfield.ac.uk/courses/masters/explosives-ordnance-engineering.html

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Cranfield University at Shrivenham Defence and Security
Distance from Shrivenham: 0 miles
This course provides education and training in selected military electronic systems. The course is intended for officers of the armed forces and for scientists and technical officers in government defence establishments and the defence industry. Read more

Course Description

This course provides education and training in selected military electronic systems. The course is intended for officers of the armed forces and for scientists and technical officers in government defence establishments and the defence industry. It is particularly suitable for those who, in their subsequent careers, will be involved with the specification, analysis, development, technical management or operation of military radar, electro-optics, communications, sonar or information systems, where the emphasis will be on an Electronic Warfare environment.

Students taking the Postgraduate Certificate (PgCert) course variant are able to choose to study, and will be awarded, either the Communications Electronic Warfare PgCert or Sensors Electronic Warfare PgCert.

Overview

A Military Electronic Systems Engineering graduate achieves a high level of understanding and detailed knowledge of military communications and sensor systems with particular regard to electronic warfare. In addition, the MSc course enables the student to carry out an in-depth investigation into an area of electronic warfare to further enhance their analytical capability. Successful graduates of this course should be fully equipped for roles in defence intelligence, systems development and acquisition, involving the specification and analysis of such systems, working individually or as part of a team.

A typical course cohort comprises 10-15 full time students and up to 4 part time.

Duration: Full-time MSc - one year, Part-time MSc - up to three years, Full-time PgCert - one year, Part-time PgCert - two years, Full-time PgDip - one year, Part-time PgDip - two years

Course overview

- MSc students must complete a taught phase consisting of twelve modules, followed by an individual dissertation in a relevant topic.
- PgDip students must complete a taught phase consisting of twelve modules.
- PgCert students must complete a taught phase consisting of six specified modules.

Core Modules

The MSc/PGDip taught phase comprises 10 compulsory modules and a choice of either Information Networks and Advanced Radar, or, Aeronautical Engineering Parts 1 and 2.

Core:
- Electromagnetic Propagation and Devices
- MES-CP - Communications Principles
- Communications Systems 1 and 2
- Radar Principles
- Radar Electronic Warfare
- Electro-Optics and Infrared Systems 1
- Electro-Optics and Infrared Systems 2
- Information Networks

Elective:
- MES-AR - Advanced Radar
- MES-ASDP - Advanced Sensor Data Processing
- Aeronautical Engineering 1
- Aeronautical Engineering 2

Individual Project

The project aim is for the student to undertake an extensive analytical research project using appropriate research methodology, involving simulation and modelling, measurements, experimentation, data collection and analysis. This will enable students to develop and demonstrate their technical expertise, independent learning abilities and critical research skills in a specialist subject area relevant to the field of study of the course.

Assessment

By examination, assignments and thesis.

Career opportunities

This course is typically a requirement for progression for certain engineering and technical posts within UK MOD.

Successful graduates of this course should be fully equipped for roles in defence intelligence, systems development and acquisition, involving the specification and analysis of such systems, working individually or as part of a team either in the military or in the defence industry.

For further information

On this course, please visit our course webpage - http://www.cranfield.ac.uk/courses/masters/military-electronic-systems-engineering.html

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Cranfield University at Shrivenham Defence and Security
Distance from Shrivenham: 0 miles
The emphasis of this course is on the application of engineering and the physical sciences to forensic problems. The course is designed to give a broad introduction to the subject, rapidly advancing into the understanding of the cutting-edge research and latest techniques. Read more

Course Description

The emphasis of this course is on the application of engineering and the physical sciences to forensic problems. The course is designed to give a broad introduction to the subject, rapidly advancing into the understanding of the cutting-edge research and latest techniques.

The course is highly practical and hands-on, aiming to produce forensic experts capable of giving an expert opinion in a courtroom situation and elsewhere.

The course consists of a two-week period of introductory studies followed by academic instruction in modular form. Most modules are of five days' duration, interspersed with weeks devoted to private study and visits to forensic science establishments.

The Forensic Engineering and Science MSc is part of the Forensic MSc Programme which has been formally accredited by the Forensic Science Society.

Course overview

The course consists of a one-week period of introductory studies followed by academic instruction in modular form. Most modules are of five days' duration, interspersed with weeks devoted to private study. Students are required to take four core modules, four role specific modules and choose three elective modules based on their particular background, future requirements or interests. This is followed by a four-month research project and either a thesis or literature review and paper.

Duration: Full-time MSc - one year, Part-time MSc - up to three years, Full-time PgDip - one year, Part-time PgDip - two years

English Language Requirements

Students whose first language is not English must attain an IELTS score of 7

Individual Project

The individual project takes four months from April to July. The student selects from a range of titles, or may propose their own topic. Most are practically or experimentally based using Cranfield’s unique facilities.

Assessment

By written and practical examinations, continuous assessment, project presentation and viva voce.

Career opportunities

Takes you on a career opportunities in forensic engineering and science with, for example, forensic laboratories, government bodies, police departments and independent consultants working for insurance companies.

For further information

On this course, please visit our course webpage - http://www.cranfield.ac.uk/courses/masters/forensic-engineering-and-science.html

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Cranfield University at Shrivenham Defence and Security
Distance from Shrivenham: 0 miles
This course provides education and training in selected weapons systems. The course is intended for officers of the armed forces and for scientists and technical officers in government defence establishments and the defence industry. Read more

Course Description

This course provides education and training in selected weapons systems. The course is intended for officers of the armed forces and for scientists and technical officers in government defence establishments and the defence industry. It is particularly suitable for those who, in their subsequent careers, will be involved with the specification, analysis, development, technical management or operation of weapons systems.

The course is accredited by the Institution of Mechanical Engineers and will contribute towards an application for chartered status.

Overview

The Gun System Design MSc is part of the Vehicle and Weapons Engineering Programme. The course is designed to provide an understanding of the technologies used in the design, development, test and evaluation of gun systems.

This course offers the underpinning knowledge and education to enhance the student’s suitability for senior positions within their organisation.

Each individual module is designed and offered as a standalone course which allows an individual to understand the fundamental technology required to efficiently perform the relevant, specific job responsibilities. The course provides students with the depth of knowledge to undertake engineering analysis or the evaluation of relevant sub systems.

Duration: Full-time MSc - one year, Part-time MSc - up to three years, Full-time PgCert - one year, Part-time PgCert - two years, Full-time PgDip - one year, Part-time PgDip - two years

English Language Requirements

If you are an international student you will need to provide evidence that you have achieved a satisfactory test result in an English qualification. The minimum standard expected from a number of accepted courses are as follows:

IELTS - 6.5
TOEFL - 92
Pearson PTE Academic - 65
Cambridge English Scale - 180
Cambridge English: Advanced - C
Cambridge English: Proficiency - C

In addition to these minimum scores you are also expected to achieve a balanced score across all elements of the test. We reserve the right to reject any test score if any one element of the test score is too low.

We can only accept tests taken within two years of your registration date (with the exception of Cambridge English tests which have no expiry date).

Course overview

This MSc course is made up of two essential components, the equivalent of 12 taught modules (including some double modules, typically of a two-week duration), and an individual project.

Modules

MSc and PGDip students take 11 compulsory modules and 1 optional module.
PGCert students take 4 compulsory modules and 2 optional modules.

Core:
- Element Design
- Fundamentals of Ballistics
- Finite Element Methods in Engineering
- Gun System Design
- Light Weapon Design
- Military Vehicle Propulsion and Dynamics
- Modelling, Simulation and Control
- Solid Modelling CAD
- Survivability
- Vehicle Systems Integration

Optional:
- Guided Weapons
- Military Vehicle Dynamics
- Reliability and System Effectiveness
- Uninhabited Military Vehicle Systems

Individual Project

In addition to the taught part of the course, students can opt either to undertake an individual project or participate in a group design project. The aim of the project phase is to enable students to develop expertise in engineering research, design or development. The project phase requires a thesis to be submitted and is worth 80 credit points.

Examples of recent titles are given below.
- Use of Vibration Absorber to help in Vibration
- Validated Model of Unmanned Ground Vehicle Power Usage
- Effect of Ceramic Tile Spacing in Lightweight Armour systems
- Investigation of Suspension System for Main Battle Tank
- An Experimental and Theoretical Investigation into a Pivot Adjustable Suspension System as a Low Cost Method of Adjusting for Payload
- Analysis of Amphibious Operation and Waterjet Propulsions for Infantry Combat Vehicle.
- Design of the Light Weapon System
- Analysis of the Off-road Performance of a Wheeled or Tracked Vehicle

Group Project

- Armoured Fighting Vehicle and Weapon Systems Study
To develop the technical requirements and characteristics of armoured fighting vehicles and weapon systems, and to examine the interactions between the various sub-systems and consequential compromises and trade-offs.

Syllabus/curriculum:
- Application of systems engineering practice to an armoured fighting vehicle and weapon system.
- Practical aspects of system integration.
- Ammunition stowage, handling, replenishment and their effects on crew performance and safety.
- Applications of power, data and video bus technology to next generation armoured fighting vehicles.
- Effects of nuclear, biological and chemical attack on personnel and vehicles, and their survivability.

- Intended learning outcomes
On successful completion of the group project the students should be able to –
- Demonstrate an understanding of the engineering principles involved in matching elements of the vehicle and weapon system together.
- Propose concepts for vehicle and weapon systems, taking into account incomplete and possibly conflicting user requirements.
- Effectively apply Solid Modelling in outlining proposed solutions.
- Interpret relevant legislation and standards and understand their relevance to vehicle and weapon systems.
- Work effectively in a team, communicate and make decisions.
- Report the outcome of a design study orally to a critical audience.

Assessment

Continuous assessment, examinations and thesis (MSc only). Approximately 30% of the assessment is by examination.

Career opportunities

Many previous students have returned to their sponsor organisations to take up senior programme appointments and equivalent research and development roles in this technical area.

For further information

On this course, please visit our course webpage - https://www.cranfield.ac.uk/Courses/Masters/Gun-Systems-Design

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Cranfield University at Shrivenham Defence and Security
Distance from Shrivenham: 0 miles
This course provides education and training in military vehicle systems. The course is intended for officers of the armed forces and for scientists and technical officers in government defence establishments and the defence industry. Read more

Course Description

This course provides education and training in military vehicle systems. The course is intended for officers of the armed forces and for scientists and technical officers in government defence establishments and the defence industry. It is particularly suitable for those who, in their subsequent careers, will be involved with the specification, analysis, development, technical management or operation of military vehicles.

It will provide students with the technical knowledge and understanding of weapon systems and military vehicles to make them effective in their specification, design, development and assessment.

The course is accredited by the Institute of Mechanical Engineers and will contribute towards an application for chartered status.

Course overview

This course is made up of two essential components, the equivalent of 12 taught modules (including some double modules, typically of a two week duration).

In addition to the taught part of the course, students undertake an individual project . The aim of the project phase is to enable students to develop expertise in engineering research, design or development. The project phase requires a thesis to be submitted and is worth 80 credit points.

Earning the appropriate credits can lead to the following academic awards:

- Postgraduate Certificate (PgCert) – any combination of modules (building a total of 60 credits).
- Postgraduate Diploma (PgDip) – all modules (120 credits).
- Master of Science (MSc) – all modules (120 credits) plus project (80 credits).

The Military Vehicle Technology MSc is part of the Vehicle and Weapons Engineering Programme. The course is designed to provide an understanding of the technologies used in the design, development, test and evaluation of military vehicle systems. Both armoured and support vehicles are covered within the course.

This course offers the underpinning knowledge and education to enhance the student’s suitability for senior positions within their organisation.

Each individual module is designed and offered as a standalone course which allows an individual to understand the fundamental technology required to efficiently perform the relevant, specific job responsibilities. The course also offers a critical depth to undertake engineering analysis or the evaluation of relevant sub systems.

Individual Project

In addition to the taught part of the course, students undertake an individual project. The aim of the project phase is to enable students to develop expertise in engineering research, design or development. The project phase requires a thesis to be submitted and is worth 80 credit points.

Examples of current titles are given below:

- Use of Vibration Absorber to help in Vibration
- Validated Model of UGV Power Usage
- Effect of Ceramic Tile Spacing in Lightweight Armour systems
- Investigation of Suspension System for Main Battle Tank
- An Experimental and Theoretical Investigation into a Pivot Adjustable Suspension System as a Low Cost Method of Adjusting for Payload
- Analysis of Amphibious Operation and Waterjet Propulsions for Infantry Combat Vehicle.
- Optimisation of the suspension system for a vehicle.
- Analysis of the off-road performance of a wheeled or tracked vehicle.

Modules

Core -

Introductory Studies
Solid Modelling CAD
Finite Element Methods in Engineering
Modelling, Simulation and Control
Weapon System Technology
Survivability
Vehicle Systems Integration
Armoured Fighting Vehicle and Weapon Systems Study
Military Vehicle Dynamics
Military Vehicle Propulsion

Optional -

Fundamentals of Ballistics
Military Vehicle Propulsion and Dynamics
Gun System Design
Element Design
Guided Weapons
Uninhabited Military Vehicle Systems
Reliability and System Effectiveness
Light Weapon Design
Rocket Motors and Propellants

Assessment

Continuous assessment, examinations and thesis (MSc only). Approximately 30% of the assessment is by examination.

Funding

For more information on funding please contact

Career opportunities

Many previous students have returned to their sponsor organisations to take-up senior programme appointments and equivalent research and development roles in this technical area.

Further Information

For further information on this course, please visit our course webpage - http://www.cranfield.ac.uk/courses/masters/military-vehicle-technology.html

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Cranfield University at Shrivenham Defence and Security
Distance from Shrivenham: 0 miles
Delivered by the Cranfield Forensic Institute this course focuses on providing the knowledge and skills required to conduct comprehensive forensic examinations of digital devices. Read more
Delivered by the Cranfield Forensic Institute this course focuses on providing the knowledge and skills required to conduct comprehensive forensic examinations of digital devices. Guest lectures are delivered by Digital Forensic practitioners throughout the course, with guest lecturers coming from both law enforcement and private companies.

Please note the MSc is available as a full and part-time option. The PgCert and PgDip are only available as a part-time option.

Course overview

The Digital Forensic MSc is available both full-time and part-time. Students will complete a number of taught modules each with theoretical and practical elements and, for the MSc, an individual research project.

Individual Project -

The individual project will involve academic research in a specific area of digital forensics. The student will produce a substantial dissertation detailing their investigation and findings. Students are pushed to produce high quality, novel research during this period, and research outcomes are often at the cutting edge of the subject.

Assessment -

The assessments on this course are a mixture of written and practical exams, oral presentations, coursework assignments and (MSc only) a thesis.

The coursework assignments vary, but will include conducting digital forensics examinations of disk images for particular scenarios, conducting research into the artefacts left by applications, and further written assignments on digital forensic processes and theory.

Start date, duration and location

Start date: Full-time: September. Part-time: September

Duration: Full-time MSc - one year, Part-time MSc - up to three years, Full-time PgCert - one year, Part-time PgCert - two years, Full-time PgDip - one year, Part-time PgDip - two years

(For MOD status students the duration may vary, subject to annual review.)

Teaching location: Shrivenham

Facilities and resources

Facilities -

There are comprehensive facilities and resources to support study on the Forensic Computing course.

Digital Forensics Laboratories -

The majority of taught modules will be delivered in a dedicated digital forensics teaching computer laboratory regularly reconfigured for different modules, and equipped with all the necessary hardware and software. For example for the “Mac OS X Forensics” module, the PCs are removed and replaced with Apple Macs, for the “Network” module students build their own network and connect to a domain, and for the “Forensic Computing using Linux” module the standard Windows build is replaced with Linux.

There is also a separate digital forensic student laboratory available for general use by students for coursework and research. This is equipped with the latest digital forensics software including Encase 6 and 7, FTK 5, Blacklight, NetAnalysis and WinHex.

In addition a digital forensics research laboratory is used by staff and by students conducting research projects. This contains mobile phone acquisition equipment, reconfigurable networks and customisable hardware.

A network forensics research laboratory is available for research into network protocols and evidence from servers.

A “Crime Scene Room” is used during search and seizure exercises where students will learn how to identify and secure the physical evidence upon which digital evidence resides. The room is equipped with cameras so actions can be recorded and played back in order to analyse and improve strategy and behaviour. It is reconfigured to simulate a variety of crime scenarios.

Learning resources -

Lectures are delivered almost exclusively in the digital forensics teaching laboratory and these along with the practical sessions are supported using Moodle, an open source Virtual Learning Environment ensuring that notes are available electronically. Exercises and exercise data can be downloaded for later study and interactive digital exercises can be used to support the learning of complex subjects.

The Barrington Library provides resources to support the main teaching material where electronic and physical access is available to the latest digital forensics journals including Digital Investigation. Access to the latest textbooks, digital forensics magazines, and past Cranfield digital forensics theses that date back to 2002 are also accessible. Cranfield University subscribes to the latest library databases so digital forensics papers located in non-specialist journals can also be easily located during research and assignments.

Full-time and part-time students will join together during classroom (residential study school) sessions. This is an ideal opportunity for networking.

Entry Requirements

Normally a first or second class Honours degree or equivalent in science, engineering or mathematics. Alternatively, a lesser qualification together with appropriate work experience may be acceptable.

The full-time course is ideally suited to recent graduates in a related subject such as Computer Science who wish to specialise in Forensic Computing. It is also suitable for those who have recently completed a BSc in Computer Forensics, Digital Forensics, Cybercrime Forensics or a related subject, who would wish to deepen their knowledge, improve their skills and increase their employability, in what is a very competitive market.

The part-time course is more suited to those already in full-time employment, such as law enforcement officers, government staff, security consultants, accountancy and banking organisations, corporate security personnel and members of associated agencies in both the UK and overseas. This programme could lead to a new career or promotion with an existing employer. Guidance may be sought by those who do not have the formal qualifications necessary to enrol immediately onto the programme, as to the best study route to take. Please contact us ()

English Language -

Students whose first language is not English must attain an IELTS score of 7

Funding

For more information on funding please contact .

Additional information is available here - https://www.cranfield.ac.uk/Research/Doctoral-Research/Funding

Career opportunities

Our MSc course and it’s individual modules, or equivalent, are regularly cited in job adverts for digital forensics jobs.

This highlights our real-world learning, application to the work place and our relevance to practitioners.

For further information

On this course, please visit our course webpage https://www.cranfield.ac.uk/courses/taught/digital-forensics

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Cranfield University at Shrivenham Defence and Security
Distance from Shrivenham: 0 miles
The Guided Weapon Systems MSc is a flagship Cranfield course and has an outstanding reputation within the Guided Weapons community. Read more

Course Description

The Guided Weapon Systems MSc is a flagship Cranfield course and has an outstanding reputation within the Guided Weapons community. The course meets the requirements of all three UK armed services and is also open to students from NATO countries, Commonwealth forces, selected non-NATO countries, the scientific civil service and industry. The course structure is modular in nature with each module conducted at a postgraduate level; the interactions between modules are emphasised throughout. A comprehensive suite of visits to industrial and services establishments consolidates the learning process, ensuring the taught subject matter is directly relevant and current.

Overview

This course is an essential pre-requisite for many specific weapons postings in the UK and overseas forces. It also offers an ideal opportunity for anyone working in the Guided Weapons industry to get a comprehensive overall understanding of all the main elements of guided weapons systems.

It typically attracts 12 students per year, mainly from UK, Canadian, Australian, Chilean, Brazilian and other European forces.

English Language Requirements

If you are an international student you will need to provide evidence that you have achieved a satisfactory test result in an English qualification. The minimum standard expected from a number of accepted courses are as follows:

IELTS - 6.5
TOEFL - 92
Pearson PTE Academic - 65
Cambridge English Scale - 180
Cambridge English: Advanced - C
Cambridge English: Proficiency - C

In addition to these minimum scores you are also expected to achieve a balanced score across all elements of the test. We reserve the right to reject any test score if any one element of the test score is too low.

We can only accept tests taken within two years of your registration date (with the exception of Cambridge English tests which have no expiry date).

Course overview

The course comprises a taught phase and an individual project. The taught phase is split into three main phases:
- Part One (Theory)
- Part Two (Applications)
- Part Three (Systems).

Core Modules

- Introductory and Foundation Studies
- Electro-Optics and Infrared Systems 1
- Radar Principles
- GW Propulsion & Aerodynamics Theory
- GW Control Theory
- Signal Processing, Statistics and Analysis
- GW Applications – Control & Guidance
- GW Applications – Propulsion & Aerodynamics
- Radar Electronic Warfare
- Electro-Optics and Infrared Systems 2
- GW Warheads, Explosives and Materials
- GW Structures, Aeroelasticity and Power Supplies
- Parametric Study
- GW Systems
- Research Project

Individual Project

Each student has to undertake an research project on a subject related to an aspect of guided weapon systems technology. It will usually commence around January and finish with a dissertation submission and oral presentation in mid-July.

Assessment

This varies from module to module but comprises a mixture of oral examinations, written examinations, informal tests, assignments, syndicate presentations and an individual thesis.

Career opportunities

Successful students will have a detailed understanding of Guided Weapons system design and will be highly suited to any role or position with a requirement for specific knowledge of such systems. Many students go on to positions within the services which have specific needs for such skills.

For further information

On this course, please visit our course webpage - http://www.cranfield.ac.uk/Courses/Masters/Guided-Weapon-Systems

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Cranfield University at Shrivenham Defence and Security
Distance from Shrivenham: 0 miles
The course provides a detailed exposure to the context, issues and methods used to analyse the increasingly complex problems which are found in the defence environment and to support decision making. Read more

Course Description

The course provides a detailed exposure to the context, issues and methods used to analyse the increasingly complex problems which are found in the defence environment and to support decision making. It exposes the types of analysis and allows practical experience of tools and methods which are used, ranging from judgemental analysis through mathematical techniques to models and simulations. The course includes judgemental elicitation and analysis techniques, mathematical analysis methods (including optimisation), war gaming and combat modelling, logistics modelling and simulation methods. The use and utility of all the methods are explored through practical exercises and studies.

Course overview

The modular form of the course, consisting of a compulsory core and a selection of Standard and Advanced modules, enables you to select the course of study most appropriate to your particular requirements.

Standard modules normally comprise a week of teaching (or equivalent for distance learning) followed by a further week of directed study/coursework (or equivalent for part time and distance learning).

Advanced modules, which will enable you to explore some areas in greater depth, are two week (or equivalent for part time and distance learning) individual mini-projects on an agreed topic in that subject, which includes a written report and oral presentation.

- MSc students must complete a taught phase consisting of eight standard modules, which includes two core modules (Introduction to Operational Research Techniques and Decision Analysis), plus four advanced modules, followed by an individual thesis in a relevant topic. Thesis topics will be related to problems of specific interest to students and sponsors or local industry wherever possible.
- PgDip students are required to undertake the same taught phase as the MSc, but without the individual thesis.
- PgCert students must complete the core module (Introduction to Operational Research Techniques) together with five other modules; up to three of these may be advanced modules.

On successful completion of the course you will:

- Demonstrate a thorough understanding of the methods, techniques and tools for modelling defence problems and systems
- Be able to critically assess a range of approaches and methods to help support defence analysis and decision-making.

10 places are normally available for the full-time cohort.

The course is suitable for both military and civilian personnel, including those from defence industry and government departments

Individual Project

An individual research project on an agreed topic that allows you to demonstrate your technical expertise, independent learning abilities and critical appraisal skills.

Modules

Part-time students will typically not study as a cohort, but will follow an agreed individual programme of study, attending courses as convenient.
Advanced Modules, which typically comprise individual self-study, can be selected to follow on from any standard modules that have been chosen.
Standard Modules, which typically involve traditional classroom instruction and/or VLE-based delivery, can be chosen from the following:

Core -

Decision Analysis
Introduction to Operational Research Techniques

Optional -

Advanced Decision Analysis
Advanced Discrete and Continuous Simulation
Advanced Logistics Modelling
Advanced War Gaming and Combat Modelling
Applied Optimisation
Computational Statistics
Discrete and Continuous Simulation
Further Operational Research Techniques
Intelligent Systems
Intelligent Systems - Research Study
Logistics Modelling
Neural Networks
Optimisation
Statistical Analysis and Trials
War Gaming and Combat Modelling
Weapon System Performance Assessment

Assessment

Continuous assessment, written examinations, oral vivas and (MSc only) thesis.
Proportions of different assessment types will vary according to programme and elective options chosen. For an MSc these might typically comprise 15-24% continuous assessment (written and oral), 36-45% written examinations and 40% thesis/dissertation.

Career opportunities

Equips you for:

- Appointments within the armed forces or government, or in the defence related activities of commercial organisations.
- Further research leading to a PhD.

Further Information

For further information on this course, please visit our course webpage - http://www.cranfield.ac.uk/Courses/Masters/Military-Operational-Research

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Cranfield University at Shrivenham Defence and Security
Distance from Shrivenham: 0 miles
The course addresses the design, development, procurement, use and management of models and simulations for applications in experimentation, training, testing, analysis and assessment of military forces, systems and equipment. Read more

Course Description

The course addresses the design, development, procurement, use and management of models and simulations for applications in experimentation, training, testing, analysis and assessment of military forces, systems and equipment.

Overview

On successful completion of the course you will be familiar with the technologies, methodologies, principles and terminology of Modelling and Simulation as used across defence, including the challenges and issues as well as the benefits. Through use of facilities such as the Simulation and Synthetic Environment Laboratory (SSEL), with its wide range of specialist applications, students will gain a broad understanding of modelling and simulation in areas such as training, acquisition, decision-support, analysis and experimentation.

•10 places are normally available for the full-time cohort
•The course is suitable for both military and civilian personnel, including those from defence industry and government departments

Start date: Full-time: annually in September. Part-time: by arrangement

Duration: Full-time MSc - one year, Part-time MSc - up to three years, Full-time PgCert - one year, Part-time PgCert - two years, Full-time PgDip - one year, Part-time PgDip - two years

English Language Requirements

Students whose first language is not English must attain an IELTS score of 6.5.

Course overview

The modular form of the course, consisting of a compulsory core and a selection of standard and advanced modules, enables each student to select the course of study most appropriate to their particular requirements.

Standard modules normally comprise a week of teaching (or equivalent for distance learning) followed by a further week of directed study/coursework (or equivalent for part time and distance learning).

Advanced modules, which enable students to explore some areas in greater depth, are two week (or equivalent for part time and distance learning) individual mini-projects on an agreed topic in that subject, which includes a written report and oral presentation.

- MSc students must complete a taught phase consisting of eight standard modules, which includes two core modules (Foundations of Modelling and Simulation and Networked and Distributed Simulation), plus four advanced modules, followed by an individual thesis in a relevant topic. Thesis topics will be related to problems of specific interest to students and sponsors of local industry wherever possible.

- PgDip students are required to undertake the same taught phase as the MSc, but without the individual thesis.

- PgCert students must complete the core module (Foundations of Modelling and Simulation) together with five other modules; up to three of these may be advanced modules.

Modules

Part-time students will typically not study as a cohort, but will follow an agreed individual programme of study, attending courses as convenient.
Advanced Modules, which typically comprise individual self-study, can be selected to follow on from any standard modules that have been chosen.
Standard Modules, which typically involve traditional classroom instruction and/or VLE-based delivery, can be chosen from the following:

Core:
- Foundations of Modelling and Simulation
- Networked and Distributed Simulation

Elective:
- Advanced Computer Graphics
- Advanced Discrete and Continuous Simulation
- Advanced Logistics Modelling
- Advanced Modelling and Simulation
- Advanced War Gaming and Combat Modelling
- Computational Statistics
- Computer Graphics
- Discrete and Continuous Simulation
- High Performance and Parallel Computing
- Intelligent Systems
- Intelligent Systems - Research Study
- Logistics Modelling
- Networked and Distributed Simulation Exercise
- Neural Networks
- Programming and Software Development in C
- Statistical Analysis and Trials
- War Gaming and Combat Modelling
- Weapon System Performance Assessment

Individual Project

An individual research project on an agreed topic that allows you to demonstrate your technical expertise, independent learning abilities and critical appraisal skills.

Assessment

Continuous assessment, written examinations, oral vivas and (MSc only) thesis.

Proportions of different assessment types will vary according to programme and modules taken. For an MSc these might typically comprise 15-24% continuous assessment (written and oral), 36-45% written examinations and 40% thesis/dissertation.

Career opportunities

Equips you for simulation-specific appointments within the armed forces or government, or in the defence related activities of commercial organisations.

For further information

On this course, please visit our course webpage http://www.cranfield.ac.uk/Courses/Masters/Defence-Simulation-and-Modelling

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Cranfield University at Shrivenham Defence and Security
Distance from Shrivenham: 0 miles
This course is designed to give a broad introduction to the subject, rapidly advancing into the understanding of cutting-edge research and the latest methodologies. Read more

Course Description

This course is designed to give a broad introduction to the subject, rapidly advancing into the understanding of cutting-edge research and the latest methodologies. The course is highly practical and hands-on, aiming to produce forensic experts capable of giving expert witness testimonies in a courtroom situation and elsewhere.

The course consists of a two-week period of introductory studies followed by academic instruction in modular form. Most modules are of five days' duration, interspersed with weeks devoted to private study and visits to forensic science establishments.

The Forensic Explosives and Explosion Investigation MSc is part of the Forensic MSc Programme which has been formally accredited by the Forensic Science Society.

This degree is currently under review and some modules are likely to change.

Course overview

The course consists of a one-week period of introductory studies followed by academic instruction in modular form. Most modules are of five days' duration, interspersed with weeks devoted to private study. Students are required to take four core modules, four role specific modules and choose three elective modules based on their particular background, future requirements or interests. This is followed by a four-month research project and either a thesis or literature review and paper.

Duration: Full-time MSc - one year, Part-time MSc - up to three years, Full-time PgDip - one year, Part-time PgDip - two years

English Language Requirements

Students whose first language is not English must attain an IELTS score of 7

Individual Project

The individual project takes four months from April to July. The student selects from a range of titles, or may propose their own topic. Most are practically or experimentally based using Cranfield’s unique facilities.

Assessment

By written and practical examinations, continuous assessment, project presentation and viva voce.

Career opportunities

Supports professional development for those in security and defence occupations related to explosives, intelligence or search. Excellent grounding for career starters looking to join government scientific services, forensic laboratories, police departments and insurance companies.

For further information

On this course, please visit our course webpage - http://www.cranfield.ac.uk/courses/masters/forensic-explosives-and-explosion-investigation.html

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