Aerospace Electronic Engineering (MEng)

This module will be first offered in the 2018/19 academic year. Laboratory exercises are provided to familiarise the students with particular components, which they may elect to use in the main part of the module, namely the group design exercise. The...

This module introduces and develops the knowledge in fundamental electromagnetics for second year Electrical and Electronic Engineering students. The course presents the basic concepts of electromagnetic theory from a physical and application points of vi...

To develop knowledge of the analysis of linear continuous-time systems. To introduce the basic analysis and design tools for electronic system control and communications engineering. To provide a comprehensive foundation for Part III/IV signal processing,...

This module is taught by a combination of lectures, laboratory exercises and a design assignment. You will gain practical knowledge of digital system design and of digital signal processing in the context of modern systems. The design exercise is inten...

- To introduce the students to fundamental concepts and principles of operation of various types of electrical machines. - To equip students with basic experimental and modelling skills for handling problems associated with electrical machines. - To giv...

The aims of this module are to: - Give students a solid grounding in mathematical methods and ideas in areas relevant to applications in engineering: Fourier series, Fourier transforms, eigenvalues, eigenvectors and eigenfunctions, linear ordinary differ...

This module will be first offered in the 2018/19 academic year. To present the fundamental principles and engineering techniques used in the design and operation of radar and to relate them to the current and future aerospace applications.

This module will provide students with an introduction to management and law – knowledge and skills which can be applied to the operations of an engineering-based organisation. The learning outcomes address: managerial decisions, commercial aspects of eng...

This module will be first offered in the 2019/20 academic year. This module will provide a basic grounding in navigation guidance and control with particular aspects on the processing of the signals involved and overall system integration.

The individual project gives students the opportunity to gain both detailed knowledge and practical experience in a more focussed area than generally possible elsewhere in their degree programme. Most projects are in the nature of a challenging enginee...

This module is intended for anyone interested in pursuing in more detail the space part of aerospace engineering. It looks at each of the key subsystems of a spacecraft in detail. It also introduces the overall theme of space systems engineering by emphas...

Partial Differential Equations (PDEs) occur frequently in many areas of mathematics. This module extends earlier work on PDEs by presenting a variety of more advanced solution techniques together with some of the underlying theory.

The topics considered are: z transforms, sampling and reconstruction, discretisation, elements of realisation theory, controller design via pole placement, observers, optimal control design.

Many classes of problems are difficult to solve in their original domain. An integral transform maps the problem from its original domain into a new domain in which solution is easier. The solution is then mapped back to the original domain with the inver...

This module manufacturing and materials is intended to develop a deeper understanding of the relationship between design, manufacturing processing and materials properties. This module discusses various manufacturing methods including casting, forming, we...

The module provides an overview of relevant topics in mechanical power transmission and methodology of vibration analysis for such mechanical assemblies. The main objective of the module is to learn methods of analysis and design of machines and their ...

The module introduces the operational research approach for modelling and solving engineering and management problems.

The module provides an introduction to the theory and practice of optimization techniques. It covers linear programming as well as nonlinear programming. This module is suitable to those who want to apply computational optimization methods to their proble...

This module gives a broad introduction to development of real-time and embedded systems

Robots are becoming more widely used in society, with applications ranging from agriculture through to manufacturing, with increasing interest in autonomous systems. This module will introduce students to the fundamentals of robotic systems including k...

The course requires to understand C code, assembly language, x86 architectures and memory allocation (a refresher will be provided).

Signal processing is an essential part of human life and of modern industrial systems. As humans we see and hear and process signals. This is the same in electronic systems: we sense and then process signals. We need to be able to understand these signals...

This module introduces both the wireless and optical propagation environments, the modelling of the corresponding channels as well as their implications on the design and architecture of wireless and optical communications systems. The basic principles of...

This module provides an introduction to intensive group project work in collaboration with an industrial or academic customer. Students work in groups of at least four people on a project typically based on an idea from an industrial partner, or from an a...

This module is taught in Semester 2. It is particularly aimed at equipping our MSc Mobile Communications and Smart Networking, and MEng Electronic Engineering with Wireless Communication students with advanced communication theory and technologies, vital ...

This module will introduce the student to key topics within control and signal processing, developing understanding through a combination of theoretical content and practical application. The theoretical content is focussed in a number of key themes wi...

The aim of this module is to provide an overview of a range of biomolecular, microscale and nanoscale systems and devices, including sensors. The module consists of practical work on three different systems, involving construction and characterisation wit...

This module lies at the intersection of robotics and biology. Through the abstraction of design principles from biological systems, it is possible to develop a range of core competences, including mechatronic systems, sensor and actuator technologies. By ...

This module covers the mathematics, techniques, and applications of modern cryptography. We will look at the history of code making and code breaking, and draw lessons for the future from the mistakes and successes of the past. We will also give a gentle ...

This module will be first offered in the 2020/21 academic year. This module looks at the specific and somewhat unique requirements for electronics on spacecraft such as, radiation effects, other environmental hazards, e.g. space debris, atomic oxygen,...

This module is useful to introduce: - Image processing and its relation to signal processing. - Image transformations for filtering, coding and etc. - Histogram processing algorithms to enhance image qualities and visibility. - Theories analysing and ...

The Individual Research Project is a 7.5 ECTS credit masters level module undertaken by independent study that allows students to demonstrate mastery of an advanced aspect of their discipline, including critical evaluation of current research and research...

This module presents a broad overview of microsensor technologies, including the basic principles of measurement systems and the scaling effects arising from system miniaturisation. The practical component, assessed by a Lab Report, involves the design an...

The emphasis of this module is on the methods required to develop mathematical models using differential equations to understand physical problems. The module involves both conventional lectures as well as discussion lectures. The discussion lectures comp...

Modern (and future) aircraft employ a variety of nonlinear techniques to both design control systems and perform analysis of the arising closed-loop. This is due to the fact that aircraft dynamics are fundamentally nonlinear and also, with the widespread ...

Often in mathematics, it is possible to prove the existence of a solution to a given problem, but it is not possible to "find it". For example, there are general theorems to prove the existence and uniqueness of an initial value problem for an ordinary di...

The syllabus will be based upon several topics relating to the use of power semiconductors and components in power systems. The course starts with considerations of the individual power electronic devices, before moving on to their use as part of an HVDC ...

This module will be first offered in the 2020/21 academic year. Robotics plays an important part in the development and operation of autonomous aerospace vehicles. The robotic element may consist of a complete vehicle either in outer space or on a pla...

This course is intended to give students an outline of how wireless communication and computer networks work "above the physical layer". This includes the interoperability of wireless networks such as WiMax/GPRS and WiFi to provide WiFi on trains etc. How...

This course introduces the principles and techniques needed to design a wireless transceiver. We will cover the process needed to take the main principles of digital communications such as digital modulation and detection. Through lectures and coursework,...