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Masters Degrees (Helicopter)

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Electronic engineering is a discipline at the forefront of advances for modern-day living and continues to push forward technological frontiers. Read more

Why take this course?

Electronic engineering is a discipline at the forefront of advances for modern-day living and continues to push forward technological frontiers.

This course provides relevant, up-to-date skills that will enhance your engineering competencies. You will broaden your knowledge of electronic engineering and strengthen your ability to apply new technologies in the design and implementation of modern systems.

What will I experience?

On this course you can:

Focus on the practical application and design aspects of electronic systems rather than intensive analytical detail
Experiment with our range of control applications including helicopter development kits and walking robots
Access a wide range of powerful and modern multimedia computational facilities, with the latest industry software installed

What opportunities might it lead to?

This course has been accredited by the Institution of Engineering and Technology (IET) and meets the standards set by the Engineering Council in the UK Standard for Professional Engineering Competence (UK-SPEC). It will provide you with some of the underpinning knowledge, understanding and skills for eventual registration as an Incorporated (IEng) or Chartered Engineer (CEng).

Here are some routes our graduates have pursued:

Professional electronics
Design
Research and development
Product manufacture
Project management

Module Details

You will study several key topics and complete a four-month individual project in which you apply your knowledge to a significant, in-depth piece of analysis or design. Projects are tailored to your individual interests and may take place in our own laboratories or, by agreement, in industry.

Here are the units you will study:

VHDL and Digital Systems Design: This unit covers the use of a hardware description language (VHDL) to capture and model the design requirement - whilst programmable logic devices enable an implementation to be explored and tested prior to moving into manufacture. The learning will have a practical bias such that experience as well as theory is gained in completing this unit.

Advanced DSP Techniques: This unit aims to introduce you to the fundamentals of statistical signal processing, with particular emphasis upon classical and modern estimation theory, parametric and nonparametric modelling, time series analysis, least squares methods, and basics of adaptive signal processing.

Mixed Signal Processors: This unit focuses on both control and signal processing hardware, how it works, how to interface to it, and software - how to design it and debug it.

Sensors and Measurement Systems: This unit proposes to introduce you to the technologies underpinning measurements including sensors both in terms of hardware and software. It also aims to provide you with an opportunity to apply classroom knowledge in a practical setting and gain an appreciation of modern day requirements in terms of measurement.

Microwave and Wireless Technology: The unit combines team working via a project based learning activity relating to a significant circuit simulation and design problem with lectures aimed at analysing and applying the characteristics of a range of devices used in the microwave and wireless industries.

Communication System Analysis: This unit focuses on basic principles in the analysis and design of modern communication systems, the workhorses behind the information age. It puts emphasis on the treatment of analogue communications as the necessary background for understanding digital communications.

Programme Assessment

You will be taught through a mixture of lectures, seminars, tutorials (personal and academic), laboratory sessions and project work. The course has a strong practical emphasis and you will spend a significant amount of time in our electronic, communications and computer laboratories.

A range of assessment methods encourages a deeper understanding of engineering and allows you to develop your skills. Here’s how we assess your work:

Written examinations
Coursework
Laboratory-based project work
A major individual project/dissertation

Student Destinations

This course is designed to respond to a growing skills shortage of people with core knowledge in advanced electronic engineering. It is an excellent preparation for a successful career in this ever expanding and dynamic field of modern electronics.

On successful completion of the course, you will have gained the skills and knowledge that will make you attractive to a wide variety of employers with interests ranging from overall system design to the more detailed development of subsystems.

Roles our graduates have taken on include:

Electronics engineer
Product design engineer
Aerospace engineer
Application engineer

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Aerospace Propulsion provides a comprehensive background in the design and operation of different types of propulsion systems for aerospace applications. Read more

Course Description

Aerospace Propulsion provides a comprehensive background in the design and operation of different types of propulsion systems for aerospace applications. The course is designed for those seeking a career in the design, development, operation and maintenance of propulsion systems.  The course is suitable for graduates seeking a challenging and rewarding career in an established international industry. Graduates are provided with the skills that allow them to deliver immediate benefits in a very demanding and rewarding workplace and therefore are in great demand.

Overview

The key technological achievement underlying the development and growth of the aerospace industry has been the design and development of efficient and economical propulsion systems. This sector has experienced a consistent growth in the past and is expected to do so in the future. Major efforts are also now being dedicated to the development of new technologies relevant to the propfan and variable cycle engines.

The MSc in Aerospace Propulsion provides a comprehensive background in the design and operation of different types of propulsion systems for aerospace applications. The course is designed for those seeking a career in the design, development, operation and maintenance of propulsion systems.

The course is suitable for graduates seeking a challenging and rewarding career in an established international industry. Graduates are provided with the skills that allow them to deliver immediate benefits in a very demanding and rewarding workplace and therefore are in great demand.

Structure

The course consists of approximately ten to fifteen taught modules and an individual research project.

In addition to management, communication, team work and research skills, each student will attain at least the following outcomes from this degree course:

- Provide the skills required for a rewarding career in the field of propulsion and power
- Meet employer requirements for graduates within power and propulsion industries
- Demonstrate a working knowledge and critical awareness of gas turbine performance, analysis techniques, component design and associated technologies
- Explain, differentiate and critically discuss the underpinning concepts and theories for a wide range of areas of gas turbine engineering and associated applications
- Be able to discern, select and apply appropriate analysis techniques in the assessment of particular aspects of gas turbine engineering.

Modules

The taught programme for the Aerospace Propulsion masters consists of eight compulsory modules and up to six optional modules. The modules are generally delivered from October to April.

Individual Project

Individual Project
You are required to submit a written thesis describing an individual research project carried out during the course. Many individual research projects have been carried out with industrial sponsorship, and have often resulted in publication in international journals and symposium papers. This thesis is examined orally in September in the presence of an external examiner.

Recent Individual Research Projects include:

- Design of an experimental test rig facility for an axial compressor
- Energy management in a hybrid turbo-electric, hydrogen fuelled, hale UAV
- Civil aircraft intake, nacelle and nozzle aerodynamics
- The computation of adiabatic isobaric combustion temperature
- Air filtration systems for helicopters
- Nacelle parametric design space exploration
- Distributed propellers assessment for turboelectric distributed propulsion
- Aerodynamic analysis of the flowfield distortion within a serpentine intake
- Green runway :impact of water ingestion on medium and small jet engine performance and emissions
- Distributed propulsion systems boundary layer ingestion for uav aircraft
- Preliminary design of a low emissions combustor for a helicopter engine
- Compressor design and performance simulation through the use of a through-flow method
- Estimation of weight and mechanical losses of a pts for a geared turbofan engine
- Optimisation of turbine disc for a small turbofan engine
- Modelling of tip leakage flows in axial flow high pressure gas turbine
- Aerodynamic modelling and adjoint-based shape optimisation of separate-jet exhaust systems
- Preliminary design & performance analysis of a combustor for UAV.

Assessment

The final assessment is based on two components of equal weight; the taught modules (50%) and the individual research project (50%). Assessment is by examinations, assignments, presentations and thesis.

Funding

A variety of funding, including industrial sponsorship, is available. Please contact us for details.

Career opportunities

- Gas turbine engine manufacturers
- Airframe manufacturers
- Airline operators
- Regulatory bodies
- Aerospace/Energy consultancies
- Power production industries
- Academia: doctoral studies.

For further information

On this course, please visit our course webpage http://www.cranfield.ac.uk/Courses/Masters/Aerospace-Propulsion-Option-Thermal-Power

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The Masters in Aeronautical Engineering focuses on advanced engineering subjects required for understanding modern design of fixed-wing aircraft. Read more
The Masters in Aeronautical Engineering focuses on advanced engineering subjects required for understanding modern design of fixed-wing aircraft.

Why this programme

◾The University of Glasgow has been the home of Aerospace Research for over 60 years. This long-standing activity has culminated in the Division of Aerospace Sciences having internationally recognised expertise in all areas of Aeronautics and Aerospace Systems.
◾Aeronautical engineering at the University of Glasgow is consistently highly ranked recently achieving 10th in the UK and 1st in Scotland (Complete University Guide 2017).
◾If you are an aerospace engineering graduate wanting to improve your skills and knowledge; a graduate of a related engineering discipline or physical science and you want to change field; or you are looking for a well rounded postgraduate qualification in aeronautical engineering to enhance your career prospects, this programme is designed for you.
◾You will benefit from access to our outstanding facilities: including several wind tunnels, a flight simulation lab, an autonomous unmanned vehicle (UAV) laboratory, helicopter test rig laboratories, structural testing apparatus and computer labs for modelling and simulation.

Programme structure

Modes of delivery of the MSc in Aeronautical Engineering include lectures, seminars and tutorials and allow students the opportunity to take part in lab, project and team work. You will attend taught courses and take part in laboratory-based assignments and field visits. You will be further assessed in coursework, report writing and oral presentations.

The summer period is dedicated to project work, with either academic or industrial placements providing the context for your project.

Semester 1 courses
◾Aerospace control 1
◾Aircraft flight dynamics
◾Navigation systems
◾Space flight dynamics 1
◾Viscous shear flows.

Semester 2 courses (five chosen)
◾Autonomous vehicle guidance systems
◾Composites airframe structures
◾Introduction to aeroelasticity
◾Introduction to computational fluid dynamics
◾Introduction to wind engineering
◾Robust control 5
◾Spacecraft systems 2
◾Aerospace design project.

]]Projects]]
◾To complete the MSc degree you must undertake a project worth 60 credits.
◾The project will integrate subject knowledge and skills that you acquire during the MSc programme.
◾The project is an important part of your MSc where you can apply your newly learned skills and show to future employers that you have been working on cutting edge projects relevant to the industry.
◾You can choose a topic from a list of MSc projects in Aeronautical Engineering. Alternatively, should you have your own idea for a project, department members are always open to discussion of topics.

Example projects

Examples of projects can be found online

*Posters shown are for illustrative purposes

[[Accreditation ]]

MSc Aeronautical Engineering is accredited by the Royal Aeronautical Society (RAeS)

Career prospects

Career opportunities include positions in aerospace, defence, renewable energy, control design, structural engineering. You can also continue studying, for a research Masters or a PhD.

Graduates of this programme have gone on to positions such as:

◾Teaching Assistant at a university
◾Graduate Engineer at UTC Aerospace Systems
◾Scientist at Fluid Gravity Engineering Ltd.

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The Masters in Aerospace Engineering & Management introduces you to contemporary business and management issues while increasing your depth of knowledge in your chosen aerospace engineering speciality. Read more
The Masters in Aerospace Engineering & Management introduces you to contemporary business and management issues while increasing your depth of knowledge in your chosen aerospace engineering speciality.

Why this programme

◾The University of Glasgow has been the home of Aerospace Research for over 60 years. This long-standing activity has culminated in the Division of Aerospace Sciences having internationally recognised expertise in all areas of Aeronautics and Aerospace Systems.
◾You will be taught jointly by staff from the School of Engineering and the Adam Smith Business School. You will benefit from their combined resources and expertise and from an industry-focused curriculum.
◾The University of Glasgow is one of the few institutions in the UK, and the only University in Scotland, to offer an Aerospace System MSc.
◾Aeronautical engineering at the University of Glasgow is consistently highly ranked recently achieving 10th in the UK and 1st in Scotland (Complete University Guide 2017).
◾If you have an engineering background, but with little management experience and you are looking to broaden your knowledge of management while also furthering your knowledge of aerospace engineering, this programme is designed for you.
◾Students in this programme can benefit from access to our outstanding facilities: including several wind tunnels, a flight simulation lab, an autonomous unmanned vehicle (UAV) laboratory, helicopter test rig laboratories, structural testing apparatus and computer labs for modelling and simulation.
◾This programme has a September and January intake.

Programme structure

There are two semesters of taught material and a summer session working on a project or dissertation. September entry students start with management courses and January entry students with engineering courses.

Semester 1

You will be based in the Adam Smith Business School, developing knowledge and skills in management principles and techniques. We offer an applied approach, with an emphasis on an informed critical evaluation of information, and the subsequent application of concepts and tools to the core areas of business and management.

Core courses

◾Contemporary issues in human resource management
◾Managing creativity and innovation
◾Managing innovative change
◾Marketing management
◾Operations management
◾Project management.

Semester 2

You will study engineering courses, which aim to enhance your group working and project management capability at the same time as improving your depth of knowledge in chosen aerospace engineering subjects.

Core courses

◾Integrated systems design project.

Optional courses (four chosen)
◾Autonomous vehicle guidance systems
◾Composite airframe structures
◾Fault detection, isolation and reconfiguration
◾Introduction to aeroelasticity
◾Introduction to computational fluid dynamics
◾Introduction to wind engineering
◾Radar and electro-optic systems
◾Robust control 5
◾Spacecraft systems 2.

Project or dissertation

You will undertake an individual project or dissertation work in the summer period (May–August). This will give you an opportunity to apply and consolidate the course material and enhance your ability to do independent work, as well as present results in the most appropriate format. Project and dissertation options are closely linked to staff research interests. September entry students have a choice of management dissertation topics in addition to aerospace engineering projects, and January entry students have a choice of aerospace engineering projects.

Projects

To complete the MSc degree you must undertake a project worth 60 credits. This is an integral part of the MSc programme and many have a technical or business focus.

The project will integrate subject knowledge and skills that you acquire during the MSc programme. It is an important part of your MSc where you can apply your newly learned skills and show to future employers that you have been working on cutting edge projects relevant to the industry.

You can choose a topic from a list of MSc projects in Aeronautical Engineering or the Management portion of your degree. Alternatively, should you have your own idea for a project, department members are always open to discussion of topics.

Students who start in January must choose an engineering focussed project

Industry links and employability

If you are looking to advance to a senior position in industry and to perform well at this level, knowledge and understanding of management principles will give you a competitive edge in the jobs market.

The School of Engineering has extensive contacts with industrial partners who contribute to several of their taught courses, through active teaching, advising on projects, curriculum development, and panel discussion.

During the programme students have an opportunity to develop and practice relevant professional and transferrable skills, and to meet and learn from employers about working in the aerospace industry.

Career prospects

Career opportunities include positions in aerospace, defence, renewable energy, nuclear energy and management. You can also continue studying, for a research Masters or a PhD.

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Aerospace systems are the future of the aerospace industry and constitute the major component of all modern aircraft. They are the essential onboard systems that ensure the safe and accurate operation of all aerospace vehicles, from civil passenger planes to sophisticated unmanned aerial vehicles. Read more
Aerospace systems are the future of the aerospace industry and constitute the major component of all modern aircraft. They are the essential onboard systems that ensure the safe and accurate operation of all aerospace vehicles, from civil passenger planes to sophisticated unmanned aerial vehicles.

Why this programme

◾The University of Glasgow has been the home of Aerospace Research for over 60 years. This long-standing activity has culminated in the Division of Aerospace Sciences having internationally recognised expertise in all areas of Aeronautics and Aerospace Systems.
◾The University of Glasgow is one of the few institutions in the UK, and the only University in Scotland, to offer an Aerospace Systems MSc.
◾Aeronautical engineering at the University of Glasgow is consistently highly ranked recently achieving 10th in the UK and 1st in Scotland (Complete University Guide 2017).
◾If you are an aeronautical engineering or avionics graduate wanting to improve your skills and knowledge; a graduate of another engineering discipline, mathematics or physics and you want to change field; looking for a well-rounded postgraduate qualification in electronics & electrical engineering to enhance your career prospects; this programme is designed for you.
◾Students in this programme can benefit from access to our outstanding facilities: including several wind tunnels, a flight simulation lab, an autonomous unmanned vehicle (UAV) laboratory, helicopter test rig laboratories and computer labs for modelling and simulation.

Programme structure

Modes of delivery of the MSc in Aerospace Systems include lectures, seminars and tutorials and allow students the opportunity to take part in lab, project and team work.

The summer period is dedicated to project work, with either academic or industrial placements providing the context for your project.

Semester 1 core courses
◾Aircraft flight dynamics
◾Control M
◾Navigation systems
◾Simulation of aerospace systems
◾Space flight dynamics 1.

Semester 2 core courses
◾Autonomous vehicle guidance systems
◾Fault detection, isolation and reconfiguration
◾Radar and electro-optic systems
◾Robust control 5.
◾Aerospace systems team design project.

Projects

◾To complete the MSc degree you must undertake a project worth 60 credits.
◾The project will integrate subject knowledge and skills that you acquire during the MSc programme
◾The project is an important part of your MSc where you can apply your newly learned skills and show to future employers that you have been working on cutting edge projects relevant to the industry.
◾You can choose a topic from a list of MSc projects in Aerospace Systems. Alternatively, should you have your own idea for a project, department members are always open to discussion of topics

Example projects

Examples of projects can be found online

*Posters shown are for illustrative purposes

Accreditation

MSc Aerospace Systems is accredited by the Royal Aeronautical Society (RAeS)

Industry links and employability

◾You will be introduced to this exciting multi-disciplinary area of technology, gaining expertise in autonomous guidance and navigation, advanced aerospace control, simulation and simulators, fault detection and isolation, electro-optic and radar systems, and space systems.
◾The School of Engineering has extensive contacts with industrial partners who contribute to several of their taught courses, through active teaching, advising on projects, curriculum development, and panel discussion.
◾During the programme students have an opportunity to develop and practice relevant professional and transferrable skills, and to meet and learn from employers about working in the aerospace industry.

Career prospects

Career opportunities include aerospace, defence, laser targeting systems, radar development, electro-optics, autonomous systems and systems modelling.

Graduates of this programme have gone on to positions such as:
Software Engineer at Hewlett-Packard
Avionic and Mission System Engineer at Qinetiq
Engineering Corporal & Driver at Hellenic Army.

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The Graduate Certificate in Retrieval Medicine is designed to equip you with advanced skills and knowledge of critical care and emergency medicine which focuses on retrieval medicine. Read more

About the program

The Graduate Certificate in Retrieval Medicine is designed to equip you with advanced skills and knowledge of critical care and emergency medicine which focuses on retrieval medicine. The program is available for medical practitioners, nurses and paramedics already working in, or planning to work in this unique and challenging field.

See the website https://bond.edu.au/program/graduate-certificate-retrieval-medicine

- Scholarship available for Graduate Certificate in Retrieval Medicine
Open to successful applicants applying for a Graduate Certificate in Retrieval Medicine for September 2015, the Postgraduate Excellence Scholarship provides high achieving individuals with a unique opportunity to receive 25% tuition remission to complete postgraduate studies at Bond University. Be sure to tick you’re interested in applying for a scholarship on page one of your online application form and complete the scholarship section. Applications close August 31.

Delivered in partnership with the Royal Flying Doctor Service, the world’s largest aeromedical provider, the Graduate Certificate in Retrieval Medicine focuses on current and future retrieval systems and evidence based approaches within both an Australian and international context.

The program is structured to accommodate the busy health professional. Delivered in part-time mode, it combines intensive practical residential components with online delivery that enables networking opportunities.

The residential components are held as a compulsory 3 to 4 day intensive per semester. They will include case-based discussions and hands-on immersive learning sessions where technical and physical aspects of retrieval medicine will be covered. Topics will range from helicopter (rotary wing), fixed wing, ground and common retrieval equipment familiarisation through to pre-hospital critical care skills sessions. You will engage in ‘real world’ scenarios and simulation demonstrating retrieval medicine in action. Intense, small group interactive case-based discussions also play a role in the residential component and online learning throughout the semester.

The Graduate Certificate in Retrieval Medicine enables you to matriculate into the Graduate Diploma in Retrieval Medicine and the Masters of Retrieval Medicine.

Professional outcomes

The Graduate Certificate in Retrieval Medicine is available for medical practitioners, nurses and paramedics and designed to produce high quality graduates with advanced practical skills and theoretical knowledge to be well positioned to further their careers in retrieval medicine.

Please note: This program is currently only open to Australian citizens, Australian permanent residents, holders of an Australian Humanitarian visa and New Zealand citizens (but not New Zealand permanent residents).

English language proficiency requirements

As tuition is delivered in English, all students will be required to provide documented evidence of the required level of proficiency in the English language. Read more detailed information on English Language Proficiency Requirements for university study https://bond.edu.au/future-students/study-bond/how-apply/information-international-students/english-language-requirements .

Find out how to apply here https://bond.edu.au/future-students/study-bond/how-apply

See the website https://bond.edu.au/program/graduate-certificate-retrieval-medicine

For contact information see here https://bond.edu.au/program/graduate-certificate-retrieval-medicine

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