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Your smartphone is probably the most well-known example of an advanced embedded system; a handheld low-power device that carries out signal processing at the same time as it is able to entertain its user with computer games, internet sessions, and streaming audio/video. Read more
Your smartphone is probably the most well-known example of an advanced embedded system; a handheld low-power device that carries out signal processing at the same time as it is able to entertain its user with computer games, internet sessions, and streaming audio/video. What makes a system embedded is that system functionality must be implemented in hardware and software within very challenging constraints, such as performance, power consumption, real-time demands, reliability, and size.

The aim of this programme is to educate engineers that can design, implement and verify advanced embedded electronic systems based on hardware and software. The programme graduates will gain knowledge and skills in a variety of areas, such as integrated circuit technology, computer design, industrial design methodologies and industrial design software suites. Programme graduates will be qualified to work as productive engineers in industrial teams designing state-of-the-art embedded products or intellectual property, or to undertake graduate studies leading to a doctorate in the field of electronic system design.

Who should apply

As far as study background, most of our students have a Bachelor’s degree in Electrical Engineering or in Computer Science and Engineering. In particular, you need skills in electronic and computer fundamentals, including digital system design using VHDL/Verilog and basic programming.

Why apply

This programme is designed to address the entire design challenge of embedded systems. During the first fall semester three compulsory courses will give you a solid design platform in preparation for the spring design project, when all students will participate in a programme-wide embedded system design project; here, the knowledge and skills acquired during the fall are put to use in the design of a prototype embedded system. By adding elective courses from one of the three main profiles - System Design, Computer Systems and Electronics Production - each student can combine breadth with a certain depth.

An overarching idea of the programme is to facilitate progression of key knowledge and skills throughout the courses that lead up to the big spring project. The programme makes use of progressive educational methods such as small projects, hands-on design exercises, flipped classroom teaching and scientific writing. Also, examination is adapted to the learning outcomes which means that the traditional written exam is complemented by, for example, report and log book writing, project demonstrations and oral examinations.

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Explore the latest electrical engineering and process control techniques through this Masters in Microelectronic Systems Design. This postgraduate course is accredited by IET and meets Chartered Engineer status. Read more
Explore the latest electrical engineering and process control techniques through this Masters in Microelectronic Systems Design. This postgraduate course is accredited by IET and meets Chartered Engineer status.

•Complete this masters degree in one year (full time)
•Accredited by the Institution of Engineering and Technology (IET), the course meets Chartered Engineer status requirements
•Study at one the UK’s leading Engineering Schools
•Programme informed by internationally-acclaimed research
•Close industry links
•Excellent career opportunities in roles such as system designers, analysts, and senior engineers in the fields of electrical engineering, process control, and related industries

This Masters course will equip you with the technical and management skills you need to progress to senior professional positions, specialising in the design, fabrication and testing of microelectronic devices.

You will study the fundamental principles that drive future developments in microelectronics. We offer the opportunity to develop the critical, analytical and experimental skills to solve practical problems and work at the cutting edge of this rapidly developing field.

You’ll learn how to critically analyse designs, their functionality and expected reliability and it will also be important for you to gain a strong understanding of the capabilities and limitations of modelling and simulation tools.

The programme design provides opportunities to practice communication skills at Chartered Engineer level. You’ll gain sought after professional behavioural traits to prepare you for technical and management roles in microelectrical system design.

You will also undertake an individual project giving the opportunity to focus on your area of interest, working with our world-leading researchers.

Please see guidance below on core and option modules for further information on what you will study.
Level 7
Dynamic systems simulation
Microelectronic systems design
VLSI devices, fabrication and testing
Embedded systems
VLSI design
Research skills
Modelling with Matlab and Simulink
MSc project
Advanced single processing
Operations research
Safety and reliability
Project management
Programming for engineering
LabVIEW
Professional and leadership skills

Further guidance on modules

The information listed in the section entitled ‘What you will study’ is an overview of the academic content of the programme that will take the form of either core or option modules. Modules are designated as core or option in accordance with professional body requirements and internal Academic Framework review, so may be subject to change. Students will be required to undertake modules that the University designates as core and will have a choice of designated option modules. Additionally, option modules may be offered subject to meeting minimum student numbers.

Academic Framework reviews are conducted by LJMU from time to time to ensure that academic standards continue to be maintained. A review is currently in progress and will be operational for the academic year 2016/2017. Final details of this programme’s designated core and option modules will be made available on LJMU’s website as soon as possible and prior to formal enrolment for the academic year 2016/2017.

Please email if you require further guidance or clarification.

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The programme has the aim of preparing a highly qualified designer able to take on a design role concerning the product service system (considered as a… Read more

Mission and Goals

The programme has the aim of preparing a highly qualified designer able to take on a design role concerning the product service system (considered as a blend of products, communication strategies, services and spaces used by profit and non profit entities –enterprises, institutions, associations, etc.- to represent themselves in an integrated form to their reference market) in international contexts in which the individual innovation is no longer sufficient to combat increasing competitivity. The fundamental educational objective is to offer a wide range of design tools able to provide appropriate skills in creatively managing products, services, events, and communication strategies in an integrated way.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/product-service-system-design/

Career Opportunities

The graduate in Product Service Systems Design typically finds employment in companies in the design sector but also within research institutes for the design sector (Trend Institute, Research Agencies, etc.) and in consulting and communication companies.
In particular, certain roles which this figure may occupy are: product-, interior-, communication-, service- designer, brand designer, corporate coordinator, trends analyst, art director.

Presentation

See http://www.polinternational.polimi.it/uploads/media/Product_Service_System_Design_02.pdf
This MSc programme (open to approx. 40 Italian and 40 international students) offers an interdisciplinary course held in a multicultural context that leads to a professional qualification internationally accredited.
A “product-service-system” is defined by a blend of products, communication strategies, services and spaces. The center of the product-service-system is represented by people (users, suppliers, employees or stakeholders) who interact with the multiple design components. The approach to design is strongly interdisciplinary and provides participants with a wide set of design tools, some basics of projects management, logistics, supply chain management, communications and media. Career opportunities are within the
traditional design industry, but also as Service designer, Retail designer, Brand designer, Corporate coordinator, Art director, Ethnographic Researcher, Trend analyst. PSSD students have the possibility to apply for the double degree program at Tongji University (Shanghai) or for the internal double degree with Management Engineering at Politecnico di Milano. For more info about the double degree with Management, please visit http://www.ddpssdme.polimi.it/
The programme is taught in English.
For more information about the programme visit our website: http://www.pssd.polimi.it

Subjects

- First year:
Culture and History, Design Innovation and Design Methods, Visualization and Prototyping, Innovation Studio, Teambuilding, Network and Services, Product Service System Design Studio, Network and Services, Design Seminar, Elective courses.

- Second Year:
Final Synthesis Design Studio, Elective courses, Professional Workshop, Internship, Final examination.

See the website http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/product-service-system-design/

For contact information see here http://www.polinternational.polimi.it/educational-offer/laurea-magistrale-equivalent-to-master-of-science-programmes/product-service-system-design/

Find out how to apply here http://www.polinternational.polimi.it/how-to-apply/

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Nowadays, the term Healthcare indicates a process that requires to create a new complex and multifactorial system in which technological factors, organizational, and human dimensions must find a balanced mix to provide safe and high quality care for patients. Read more
Nowadays, the term Healthcare indicates a process that requires to create a new complex and multifactorial system in which technological factors, organizational, and human dimensions must find a balanced mix to provide safe and high quality care for patients. This also requires clinically effective and well-designed medical devices, as well as effective and reliable healthcare services based upon innovative technologies and systems, and the related organizational models to be implemented.

The Specializing Master Product Service System Design for Healthcare aims at providing the students with the fundamentals for designing biomedical devices, starting from the basics of methodologies and technologies for the measurement of physiological signals in clinical and home care applications.

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This programme is grounded on the belief that architects should be thinking well beyond the constraints of market forces and the traditional disciplinary limits of the profession, towards forms, technology and spaces for a more sustainable future. Read more
This programme is grounded on the belief that architects should be thinking well beyond the constraints of market forces and the traditional disciplinary limits of the profession, towards forms, technology and spaces for a more sustainable future. This is a student-led programme, and you can have very different experiences within it depending on the choices of studios and courses you make.

Why choose this course?

Founded in 1927, the School of Architecture at Oxford Brookes has established an international reputation for the quality of both its research and its teaching. As one of the largest architecture schools in the UK, with around 600 students and 70 staff, it plays a leading role in defining the national, and international, agenda in design education and research. The school enjoys an international reputation in research, in areas ranging from sustainable design to modular buildings and from design for well-being to vernacular architecture.

Staff in the school regularly secure research funding from the UK's research councils and the European Union as well as industry, with an annual research grant income averaging £1m in recent years. This programme provides RIBA/ARB Part 2.

Professional accreditation

Accredited by the Royal Institute of British Architects (RIBA) and the Architects Registration Board (ARB).

This course in detail

Year 1 - Research into design
This year has a very strong emphasis on acquiring in-depth knowledge of an architecturally important field of study and utilising that knowledge in design. This is achieved by taking one of the six 'design specialisations'.

You choose which design specialisation is best for you. The specialisations on offer are deliberately highly diverse to cater for the changing nature of the profession in practice. This course produces graduates for the global market and as such requires a high level of commitment from staff and students.

The design specialisations are:
-Advanced Architectural Design
-International Architectural Regeneration and Development
-Development and Emergency Practice
-Sustainable Building: Performance and Design
-Research-led Design
-Urban Design.

Each of the research specialisations offers teaching from experts within that subject area, and links, through teaching focus and staff, to the five research clusters that are an invaluable resource within the School of architecture.

The five research clusters keep the specialisations at the cutting edge in terms of a global agenda. They are, in general terms, environmental design, technology, development and emergency practice, humanities and architectural design.

Each of the design specialisations include a design project or projects, to which you will apply your detailed learning.

In addition to the design specialisation the first year will, through the Research Philosophy for Design module, widen your thinking in terms of what constitutes research, test your critical thinking and improved your analytical abilities. All of these are essential tools and their enhancement will place you in a stronger position to undertake the design studio in the second year.

Your ability to represent your ideas in a coherent and focused manner is the remit for the Representation module. This module will identify your strengths and build up your weaknesses, both in terms of visual and verbal communication methods. You will be able to dedicate time to fine-tuning techniques or building from basics in sketching, model making, 2D and 3D CAD. Your presentation of methods and actual practice will enable you to build confidence in verbal communication skills.

The Management, Practice and Law module in year one looks at the landscapes within which these issues are being informed. This module is taught by practising architects who have first-hand experience of the issues under discussion. Through a series of workshops you will work on topics that are essential to the practice of architecture. Management, practice and law is part of the design delivery of the programme and you will be expected to approach the coursework from a design position. This module asks that you approach this subject with a very different mind-set than the traditional position.

Due to the diverse and preparative basis of this year it is compulsory for all students to pass all compulsory components of the Research into Design year in order to be progress to the Design and Technology year.

Year 2 - Design and technology
This year is structured to enable you to synthesise a broad range of complex cultural, aesthetic, research and technical factors, and design-specialisation learning, into your major design project and portfolio.

The year is spent participating in one of six design studios. All studios have control over their own programme of projects, and each has a different view of architectural culture and promotes different design methods. The design studios are taught by some of the brightest designers and tutors in the country and consequently their programmes demand high levels of creative and intellectual endeavour from you, as well as high levels of productivity. Their aim is to raise your design thinking, skills and production to the highest possible standard.

All six units present their projects for the year in the induction session and you are asked to select all six in order of preference. This system is to allow for an even distribution of students across all six units. Most students are allocated to their first choice of studio although there is no guarantee of a particular design unit - normally at worst you are allocated your second choice.

During the design and technology year, your design work must develop into technically ambitious architecture and be the subject of your compulsory Advanced Technology for Design module. This module designs through technology and fully complements and parallels your work in the design studio. There is a very strong emphasis here upon the creative possibilities for architectural technology. We ask for an open and experimental approach to technology, but also a clear understanding of its context and aims.

The staff delivering the teaching in the design studio unit and the Advanced Technology for Design module are made up from academics and practitioners. This energetic mix will challenge you to think about design and technology in a new manner, building confidence in ability, enabling deep thinking, and aiding you to define a personal design spirit.

Sitting alongside the design and technology is the second Management, Practice and Law module. This module builds on the learning and skills from the first year module and prepares you for stepping back into practice. As in the first year module this is learning is delivered by practicing architects. Through focus groups with architectural practices, this module figures in the skills that are seen as highly desirable for the ARB part 2 graduate to have when seeking employment.

Throughout the two years of the programme there will be interim reviews. This offers an opportunity to receive feedback from outside of your design studio or design specialisation. We have strong links with practice and architectural institutions and can attract the most able people to sit on our reviews.

This is a programme that aims to give you the skills for international practice.

As our courses are reviewed regularly, modules may vary from those listed here.

Teaching and learning

The unique nature of the Applied Design in Architecture offers you the opportunity to select an individual pathway that will create a distinctive graduate profile that is unique to you alone.

The ability to choose modules from within design specialisations offers you the prospect of defining your own position. You will find that you are being taught with, in most cases, direct entry master's students from countries around the world.

This aspect is complemented by the Year 2 design studio where you will engage with a distinctive agenda and experience a diversity of design specialisation thinking from students within your unit.

Self-directed learning is highly supported by staff in the School of Architecture. Personal choice engenders motivation and a high level of commitment, and the programme has been designed to embrace this aspect whilst clearly building on skills, thinking, application and design production to achieve a final portfolio of the highest standard.

Careers and professional development

The modules Management Practice, and Law 1 and 2, include guidance on the necessary professional skills that are required both for ARB Part 2 and for preparation in commencing ARB Part 3. The design studio generates a portfolio of work that not only demonstrates the learning for ARB Part 2 but also written, research and visual skills. The design portfolio is intended as the vehicle for students to synthesise all facets of their learning in order to seek practice employment.

In addition the school maintains a jobs wall that advertises vacancies locally, nationally and internationally.

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Modern aircraft are a complex combination of aerodynamic performance, lightweight durable structures and advanced systems engineering. Read more
Modern aircraft are a complex combination of aerodynamic performance, lightweight durable structures and advanced systems engineering. Air passengers demand more comfort and more environmentally friendly aircraft. Hence many technical challenges need to be balanced for an aircraft to economically achieve its design specification. This course trains engineers to meet these challenges, and prepares them for careers in civil and military aviation.

Aircraft Design is an option for the MSc Aerospace Vehicle Design. Aircraft Design aims to provide a comprehensive overview of aircraft performance, structures and systems. A holistic teaching approach is taken to explore how the individual elements of an aircraft can be designed and integrated using up-to-date methods and techniques. You will learn to understand how to select specific systems such as fuel systems, and their effect on the aircraft as a whole.

This course is suitable for students with a background in aeronautical or mechanical engineering or those with relevant industrial experience, and prepares graduates for careers as project design engineers, systems design, structural design or avionic engineers in aerospace or related industries, with the aim of progressing to technical management/chief engineer.

Course overview

The Aircraft Design option consists of a taught component, a group design project 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:

To build upon knowledge to enable students to enter a wide range of aerospace and related activities concerned with the design of flying vehicles such as aircraft, missiles, airships and spacecraft.
To ensure that the student is of immediate use to their employer and has sufficient breadth of understanding of multi-discipline design to position them for accelerated career progression.
To provide teaching that integrates the range of disciplines required by modern aircraft design.
To provide the opportunity for students to be immersed in a 'Virtual Industrial Environment' giving them hands-on experience of interacting with and working on an aircraft design project.

Group project

The extensive group design project is a distinctive and unique feature of this course. This teamwork project takes place from October to March, and recreates a virtual industrial environment bringing together students with various experience levels and different nationalities into one integrated design team.

Each team member is given responsibility for the detailed design of a significant part of the aircraft, for example, forward fuselage, fuel system, or navigation system. The project will progress from the conceptual phase through to the preliminary and detail design phases. You will be required to run project meetings, produce engineering drawings and detailed analyses of your design. Problem solving and project coordination must be undertaken on a team and individual basis. At the end of the project, groups are required to report and present findings to a panel of 200 senior engineers from industry.

This element of the course is both realistic and engaging, and places the student group in a professional role as aerospace design engineers. Students testify that working as an integrated team on real problems is invaluable and prepares them well for careers in a highly competitive industry.

Watch past presentation videos to give you a taster of our innovative and exciting group projects (YouTube)

Blended Wing Body Aircraft
A9 Dragonfly Box Wing Aircraft
MRT7 Tanker Aircraft
A-13 Voyager
SL-12 Vimana

Individual Project

The individual research project aims to provide the training necessary for you to apply knowledge from the taught element to research, and takes place from March to September. The project may be theoretical and/or experimental and drawn from a range of topics related to the course and suggested by teaching staff, your employer or focused on your own area of interest.

Recent Individual Research Projects include:

Ultra Long Range Science UAV Structure / Systems Development
Conceptual Design of a Hypersonic Space Launcher and Global Transportation System
Effect of Aerodynamics on the Conceptual Design of Blended Wing Body Aircraft
Review, Evaluation and Development of a Microlight Aircraft
Feasibility of the Application of Low Cost Scaled Aircraft Demonstrators.

Assessment

The taught modules (10%) are assessed by an examination and/or assignment. The Group Project (50%) is assessed by a written technical report and oral presentations. The Individual Research Project (40%) forms the remainder of the course.

Career opportunities

The MSc in Aircraft Design is valued and respected by employers worldwide. The applied nature of this course ensures that our graduates are ready to be of immediate use to their future employer and has provided sufficient breadth of understanding of multi-discipline design to position them for accelerated career progression.

This course prepares graduates for careers as project design engineers, systems design, structural design or avionic engineers in aerospace or related industries, with the aim of progressing to technical management/chief engineer. Graduates from the MSc in Aircraft Design can therefore look forward to a varied choice of challenging career opportunities in the above disciplines.

Many of our graduates occupy very senior positions in their organisations, making valuable contributions to the international aerospace industry. Typical student destinations include BAE Systems, Airbus, Dassault and Rolls-Royce.

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Interaction design focuses on shaping products for people’s use and behaviour and includes designing interactive digital products, environments, visual communication systems and services. Read more

What is the MA in Interaction Design about?

Interaction design focuses on shaping products for people’s use and behaviour and includes designing interactive digital products, environments, visual communication systems and services. Interaction design is the synthesis and imagining of things as they might be, rathere than focusing on satisfying the needs and desires of the end user. This programme is specifically designed for honours graduates in product and industrial design, multimedia and game design, visual communication design, architecture, engineering and other design related fields. This Masters programme has been developed by IT Carlow in consultation with industry and is delivered through combination of the self-directed learning and graduate research within the structutred environment of a taught programme. This dynamic educational environment seeks to provide a framework for interdisciplinary and peer learning and equiry, which facilitates, promotes and leads the interaction between practice and theory. The Masters of Arts in Interaction Design aims to nurture and support a unique interdisciplinary approach to research and learning in this area. The programme is centered around the development and delivery of a major project which can be either practice or theory based.

What will I be able to do when I finish the course?
The Master of Arts in Interaction Design will provide graduates with a unique opportunity to gain a competitive edge prior to embarking on a career in design or related fields. Graduates may also adopt research and advisory roles in relation to new product development and development of the provision of creative services in practice. It is envisaged that graduates will be in a position to critically evaluate existing creative services and to visualize future possibilities for devising better design methodologies and best practice in managing design practices and studios.

Potential employment for graduates include:
• Interaction Designer
• User Experience Designer/ConsultantEngineer
• User Interface Designer
• Mobile App Designer
• Mobile App Developer
• Web Designer
• Front End Developer
• Digital Media Designer
• Visual Designe
• Communications Designer
• Multidisciplinary Design Studios
• Strategic Design Thinkers
• Design Manage
• Content Develope
• Product Designer
• Industrial Designe
• Service Designer
• Design Thinking
• Design Entrepreneur

What follow-on study opportunities are available?
Graduates may pursue Level 10 (PhD) study opportunities upon successful completion of this programme. Postgraduate Diploma Postgraduate Diploma in Arts in Interaction Design is an Embedded Exit Award.

What subjects will I study?
Subjects
Framing User Experience
Principles of Interaction Design
Prototyping Interactions
Design Entrepreneurship
Human Interface Design
Communication Design
Design Research Methods
Design Project Dissertation

Special features of the course:
The Masters programme sits within the Department of Humanities at IT Carlow which facilitates the culture of design lead research and learning. Our programme facilities a culture of interdisciplinary learning embedded within the ethos of studio based education environment.

What are the entry requirements?

A Level 8 Honours Degree in Product or Industrial Design, Games Design, Visual Communication Design, or other related design disciplines such as Architecture or Engineering (minimum 2nd class honours).

Candidates with significant experience in the design services sector (as determined by the Institute’s recognition of prior learning policy), in addition to an honours primary degree in another discipline area may also be considered for entry on a case by case basis through IT Carlow’s RPL system.

Applicants applying for entry via routes other than that listed above will be considered on a case by- case basis through IT Carlow’s RPL system.

FOR FURTHER INFORMATION CONTACT:

Con Kennedy
MA, PDP, LLM, PgCert
Programme Director
E:

Allison Kenneally
BCL, BA, LLM, PgCert
E:
T: 059-9175300

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MA Interaction Design Communication is a practice-led design course that prepares students to design for an increasingly technologically informed and interdisciplinary design world with skills in the following areas. Read more

Introduction

MA Interaction Design Communication is a practice-led design course that prepares students to design for an increasingly technologically informed and interdisciplinary design world with skills in the following areas: interaction design, design prototyping, physical computing, user centered design, open source digital platforms, design research, foresight and insight, experience design, communication design, speculative and critical design, interactive design and digital arts.

Content

MA Interaction Design Communication provides an opportunity for experimental practice in an area of design that increasingly explores the intersection of the physical and digital domains. With a focus on synthesising thought through rigorous design prototyping (making), digital processes and user perspectives, the course is highly reflective of interdisciplinary practice within the contemporary design, media and communications industries.

The integrated approach of the course to critical thinking provides you with the opportunity to work with critical ideas in an applied design context – for example psycho-geographic practice as empirical research or engaging with other critical theories of space to generate user perspectives. This ensures that ideation processes take on both the macro as well as micro opportunities for innovation and speculation crucial to building a portfolio of highly engaged work.

As well as placing you in a position to work across the board spectrum of interaction, design and communication the course is just as interested in design questions as design answers. This means that the course also prepares you for progression to further design research at MPhil/PhD level as well as to advanced self-directed experimental practice.

LCC has an outstanding team of practitioners and published researchers and enjoys a powerful programme of visiting speakers. The course also benefits from a cross-European collaboration with design industry professionals and higher education institutions and there is an opportunity to visit at least one other centre in Europe during the course.

Structure

Phase 1

1.1 Theories and Technologies of Interaction Design (40 credits)
1.2 Research Practice and Human Centered Design (20 credits)

Phase 2

2.1 Interaction Futures and Speculative Design (40 credits)
2.2 Physical Computing and Design Prototyping (20 credits)

Phase 3

Unit 3.1 Final Major Research Project

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This programme offers distinct specialisation areas in electronics. analogue VLSI design, bioelectronics and analogue and digital systems. Read more

Programme description

This programme offers distinct specialisation areas in electronics: analogue VLSI design, bioelectronics and analogue and digital systems.

In analogue VLSI design, our facilities include a unique custom designed analogue integrated circuit specifically designed to support laboratory based teaching. Our advanced design and prototyping laboratories, advanced micro and nano fabrication facilities and state-of-the-art digital system laboratories use the latest industry standard software tools.

Alternatively, students may specialise in the emergent discipline of bioelectronics where our research and teaching interests include access to the fabrication facilities at the Scottish Microelectronics Centre. For students who wish to study a more general electronics course including digital systems, a prescribed course selection is available.

Programme structure

This programme is run over 12 months, with two semesters of taught courses, with a number of options, followed by a research project, leading to a masters thesis.

Semester 1 courses:
Analogue IC Design
Analogue VLSI A
Discrete-Time Signal Analysis
Power Electronics
Principles of Microelectronic Devices
Digital Systems Laboratory A
Introduction to Bioelectronics
Biosensors

Semester 2 courses:
Digital System Design
Digital Systems Laboratory
Research Project Preparation
Electronic/Electrical Engineering System Design
Analogue VLSI B
Sigma Delta Converters
Analogue Circuit Design
Microfabrication Techniques
Biosensors and Instrumentation
Lab-on-Chip Technologies
Biomedical Imaging Techniques
Embedded Mobile and Wireless Systems
Modern Economic Issues in Industry
Technology and Innovation Management

Career opportunities

You will gain significant practical experience in analogue and digital laboratories and become familiar with the latest industry standard design software and environments. Having been exposed to concepts such as design re-use and systems on chip technology, you will be able to cooperate with others in electronic system design.

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This course is an advanced MSc course in the area of renewable energy engineering, with an emphasis on the design, analysis and implementation of renewable energy projects. Read more
This course is an advanced MSc course in the area of renewable energy engineering, with an emphasis on the design, analysis and implementation of renewable energy projects. The course is designed to help you develop critical understanding that you can apply to assist the wide range of renewable energy industries. The course will equip you with the engineering knowledge and practical skills necessary to develop and implement creative solutions to engineering problems encountered in renewable energy capture and conversion, system design and analysis, project development and implementation.

You will use lab and field-testing facilities for measuring and monitoring performance of different renewable energy systems, such as wind turbines, photovoltaic power systems and heat pumps. You will also learn to use tools for component and system design, simulation of the performance and monitoring of renewable energy systems. These tools include Matlab/Simulink, ANSYS and SciLab for wind turbine blade design and CFD, GH WindFarmer and WAsP for wind farm design, PVsyst for photovoltaic system design and Labview for system monitoring.

The course is suitable for students with a science or engineering background.

Professional Accreditation

This MSc is accredited by the Institution of Engineering and Technology (IET), as further learning satisfying the educational requirements for Chartered Engineer (CEng) registration

Professional Placements

The Professional/Work Placement options will give you the opportunity to research, secure and undertake a period of work experience or industrial placement in an organization appropriate to the field of study. They take place after the completion of the taught modules.

Course content

Core Modules
• SC4107 Research Methods
• MP4708 Renewable Energy Technology
• MP4709 Energy Systems
• MP4710 Design and Analysis of Renewable Energy Systems
• EL4895 Masters Project (Engineering)

Option Modules
Two of the following:
• MP4701 Design and Operation of Sustainable Systems
• MP4705 Sustainable Systems Development
• MP4706 Sensors, Instrumentation & Control
• MP4713 Wind Turbine Generators, Power Electronics and Control

Optional placement modules:
• Professional Placement (Engineering); (120 credits)
• Work Placement (Engineering); (60 credits)

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This programme is an advanced MSc course in renewable energy engineering, with an emphasis on the design, analysis and implementation of renewable energy projects. Read more
This programme is an advanced MSc course in renewable energy engineering, with an emphasis on the design, analysis and implementation of renewable energy projects. Designed to help you develop critical understanding, the course will equip you with the engineering knowledge and practical skills necessary to develop and implement creative solutions to engineering problems encountered in renewable energy capture and conversion, system design and analysis, project development and implementation. You’ll use lab and field-testing facilities for measuring and monitoring performance of different renewable energy systems, such as wind turbines, photovoltaic power systems and heat pumps.

You’ll also learn to use tools for component and system design, simulation of the performance and monitoring of renewable energy systems. These tools include Matlab/Simulink, ANSYS and SciLab for wind turbine blade design and CFD, GH WindFarmer and WAsP for wind farm design, PVsyst for photovoltaic system design and Labview for system monitoring. You’ll also have the option to experience a Professional/Work Placement in addition to the taught course.

PROFESSIONAL ACCREDITATION

This MSc is accredited by the Institution of Engineering and Technology (IET), as further learning satisfying the educational requirements for Chartered Engineer (CEng) registration.

LEARNING ENVIRONMENT

Students will benefit from:
-Free supportive short course tailored to students individual needs. This is a group of lectures/tutorials, provided as part of the independent learning on foundation topics such as electric circuits, 3-phase current, rotating machines, maths, and excel.
-Free supportive English language module for International students
-Seminars on Employability
-Sites visits on UK renewable energy installations.
-Variety in assessment for learning methods including: examination, coursework, tests, presentations, poster defence and written reports.

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With the MSc Business Systems Analysis and Design course at City you can unravel a business system and prepare to work as an analyst within the industry. Read more
With the MSc Business Systems Analysis and Design course at City you can unravel a business system and prepare to work as an analyst within the industry.

Who is it for?

The course is for motivated students who enjoy working within high-pressure environments often to tight deadlines. You will need a good undergraduate degree as well as the tenacity and patience to understand business systems and the ability to adapt to constant change.

Objectives

There is a common misconception in building business systems: that users know their requirements. Often they don’t. This postgraduate Business Systems Analysis programme has been designed to address this problem.

The MSc in Business Systems Analysis and Design is not about developing algorithms and coding. We work with technology but we are not technicians because we know that to become an IT consultant or business analyst, you need to understand the disparate areas that make up the discipline. This is a Masters degree where you will design a business system; in order to do this you will unpick the information infrastructure to find out if the system works.

Analysing a business system is a process that demands constant re-evaluation. By investigating system requirements, considering how information flows through it, and exploring the pitfalls that emerge within user hierarchies, at City we examine the business system as a whole. This approach is essential to respond to rapid business change.

These are some of the questions the course poses:
-What is the right system to address the problem?
-Does the system meet the needs of the business now and will it be able to adapt in the future?
-How is information flowing within the system?
-How will users interact with the system throughout the project life cycle?

Placements

As a student on this programme you can undertake an internship in the July to December period, for up to six months. You can work under a client’s direction for all or part of this time. Many students use the internship as an opportunity to carry out a specific project which forms the context for their final dissertation.

One current student is working within a user experience design company to investigate how scents affect the emotional perception of digital fruit images displayed on a desktop service.

Academic facilities

As a student on the MSc Business Systems Analysis and Design course you will have access to dedicated labs and use specialist software such as SAP. At City we also have access to Microsoft Dynamics ERP software to support the enterprise information system module. Microsoft Dynamics is an industry-based CRM system. As part of the University of London you can also become a member of Senate House Library for free with your student ID card.

Teaching and learning

We provide a diversity of teaching approaches so you get a diversity of learning experiences in the form of traditional lectures, live classroom demonstrations, tutorials, laboratories, and TV studio role-playing. We encourage you to engage with the material in an active way. As a postgraduate student, we expect you to take responsibility for your own learning and use non-timetabled hours for your own private study or group interactions.

You will be assessed in a variety of ways from coursework and laboratory work to presentations, examinations and a project dissertation. By successfully completing eight taught modules and the research project you will be awarded a Master of Science (MSc) degree. All modules in this course are supported by Moodle, City's online learning environment.

The course is available full time (12 months) and part time (up to 28 months - two days a week). The Department is aware that this involves considerable commitment from part-time students, and we try to be as flexible as we can so you can successfully combine your work and study.

By completing eight modules and the dissertation you will be awarded 180 credits and a Masters level qualification. Alternatively, if you do not complete the dissertation but have successfully completed the eight modules, you will be awarded 120 credits and a postgraduate diploma. If you successfully complete four modules (60 credits) you will be awarded a postgraduate certificate.

Modules

There are six core modules and four electives from which you can choose two topics. Practical work is emphasised throughout the degree programme to develop your understanding and skills, which is strengthened by interactive teamwork. The course has an excellent track record in producing employable hybrid IT/business professionals.

In the industry you need to communicate your expertise in lay terms. The modules give you experience in working on group projects so you can manage roles and responsibilities and build a set of professional values. The core content will also give you the ability to set strategies, manage information flows and deal with problems such as overload and risk.

The course develops:
-Skills in business awareness, design and consultancy to facilitate the alignment of IT systems and services to business objectives
-The specialist understanding of theoretical principles in business systems analysis and design.
-Technical skills, through practical laboratory work, so you can apply your knowledge of IT and how it affects business competitiveness.

The course will give you specialist knowledge ranging from business systems requirements analysis and design, software systems engineering, data modelling to business intelligence, project management and business engineering with ERP solutions.

Core modules
-Business engineering with ERP solutions INM342 (15 credits)
-Business intelligence & analytics INM451 (15 credits)
-Practical business systems consultancy INM353 (15 credits)
-Project management INM372 (15 credits)
-Research methods and professional issues INM373 (15 credits)
-Systems specification INM312 (15 credits)

Elective modules - choose from one module in the first term from the following:
-User-centred design INM355 (15 credits)
-Information and knowledge management INM351 (15 credits)

Choose from one module in the second term from the following:*
-Databases INM343 (15 credits)
-Information Retrieval (IR) INM351 (15 credits)

*Note: Databases is compulsory for students who do not have prior knowledge at the discretion of the programme director.

Career prospects

As a City graduate you leave with front-line knowledge. With insight from major areas of research including software engineering, human-computer interaction and artificial intelligence, you will be able to assimilate your skills within the industry and offer a future-focused mindset.

From Unilever to HMV and from Accenture to ITN, City graduates are employed across sectors in consultancy companies, software houses, the public services, telecommunications, multinational manufacturers, and large retailers. The programme will help you build a strong peer network as well as a solid network of contacts for your continued career development.

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The MSc Advanced Landscape and Urbanism encourages students to develop inventive and speculative approaches to the design of cities, landscape and territories. Read more
The MSc Advanced Landscape and Urbanism encourages students to develop inventive and speculative approaches to the design of cities, landscape and territories. It promotes distinct design and research methods and the integration of new and innovative technologies to explore the complexity of contemporary cities, including issues of urban growth, climate change, globalisation and social inequality. The programme is designed for students of architecture, landscape architecture, design and related disciplines, who wish to enhance their academic, intellectual and professional skills.

The programme interrogates the growing influence of landscape processes on the design of future cities and environments. It provides a platform from which to rethink approaches to contemporary urban design, to consider extreme environmental events, shifting economic agendas, new forms of public space and the transformations to urban infrastructures. The MSc Advanced Landscape and Urbanism focuses on design studio projects informed by classes in landscape and urbanism theory, design ecologies, future representation and design research methodologies. Details of international events, open lectures and student work can be found on: http://www.thelandscape.org/

Graduates from the MSc Advanced Landscape and Urbanism join or establish leading design practice or continue their design and research ambitions through PhD studies.

The aims of the programme are to:

- Interrogate, and speculate on, the emerging ecologies between people, design, technology and the environment

- Research the conditions of urbanism through the lens of landscape theory and design practice

- Employ advanced design techniques and innovative methodologies through site-based projects.

Visit the website http://www2.gre.ac.uk/study/courses/pg/arc/advlandurb

Architecture and Landscape

We need tools to help us create a built environment that is responsive rather than obstructive to its users and to the world around it. At Greenwich we encourage both students and staff to embrace the interconnectedness of design, construction and building management, of landscape architecture and graphic design, and to constantly look at new ways of exploring these areas.

All architecture programmes focus on the urgent necessity to change our living habits in order to design and build a sustainable urban environment.

The construction management programmes are designed to provide students with a high level of understanding of the design, function, construction and statutory requirements for buildings of all classes, and to prepare them for more advanced employment within the construction industry.

What you'll study

Full time
- Year 1:
Students are required to study the following compulsory courses.

Landscape and Urbanism Theory (40 credits)
Advanced Urban Design (40 credits)
Design Ecologies (20 credits)
Design Research Methodologies (20 credits)
Future Representations (20 credits)
Master Project (40 credits)

Part time
- Year 1:
Students are required to study the following compulsory courses.

Advanced Urban Design (40 credits)
Design Ecologies (20 credits)
Future Representations (20 credits)

- Year 2:
Students are required to study the following compulsory courses.

Landscape and Urbanism Theory (40 credits)
Design Research Methodologies (20 credits)
Master Project (40 credits)

Fees and finance

Your time at university should be enjoyable and rewarding, and it is important that it is not spoilt by unnecessary financial worries. We recommend that you spend time planning your finances, both before coming to university and while you are here. We can offer advice on living costs and budgeting, as well as on awards, allowances and loans.

Assessment

Students are assessed through coursework, thesis and design portfolio.

Career options

This programme is suitable for those aiming to develop advanced design skills, for use in landscape, architecture and urban design practice, and for those aiming to enhance their academic skills and/or go on to doctoral study.

Find out how to apply here - http://www2.gre.ac.uk/study/apply

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Human activities, not the least manifested in the built environment, are responsible for a large amount of the stress our societies put on the environment and there is a global challenge in meeting the need for sustainability while adapting to a local reality and situation. Read more
Human activities, not the least manifested in the built environment, are responsible for a large amount of the stress our societies put on the environment and there is a global challenge in meeting the need for sustainability while adapting to a local reality and situation. This programme focuses on methods and design approaches for understanding and analysing different local contexts in order to propose adequate solutions in designing for a sustainable future.

Programme description

Sustainable development is a political vision that entails huge challenges for social and technical innovation all over the world. It has consequences for all professions, not least for urban planning, architectural design and the full complexity of societal development can be addressed and managed through design for sustainable development.
This programme provides you with the skills and methods valid where design approaches are required. As a student, you are trained to find solutions that support sustainable development in a large variety of contexts and in dynamic situations. The perspective is holistic and systemic, comprising system levels and scales from urban structures, buildings and technical support systems to detailed construction elements. The programme is based on studios where real life situations and problems faced by society are handled in close contact with local stakeholders and actors.

The overall point of departure is the everyday life of people and the support of dignified lives and livelihoods in rapidly changing and sometimes extreme environments, through the development and implementation of aesthetic, affordable, socially and culturally appropriate, energy and material efficient, healthy and user friendly design solutions.

The programme offers a selection of courses and design studios from which the students can build upon in order to shape an individual profile during two years. Potential profiles are:

Sustainable building with a focus on building scale, building systems and sustainable solutions
Sustainable Urban planning & Design with a focus on urban (or regional) scale, planning processes, development and design of the built environment
Sustainable Conservation and Transformation with a focus on building or urban scale, relation to redevelopment within the existing built environment
Design for Sustainable Development in Local Contexts Internationally on multiple scales and with a socio-technical approach.

The Chalmers School of Architecture fosters a humanistic view of architecture and emphasises an explorative orientation and research by design approach in order to unfold the professional profile, skill and scope of the design professions. The ambition is to promote convincing joint future visions for the development of the built environment.

We also emphasis the integration of research in education, the respect for existing built structures as cultural, social and economic resources and interdisciplinary co-operation.

Educational methods

The pedagogical approach is to support you in developing your design skills through a series of design studios, dealing with complex design tasks in very different situations and contexts e.g., neighbourhoods and municipalities in Sweden, informal settlements in developing countries, and technical and social challenges of sustainable building and transformation.

This approach challenges and develops your ability to analyse and situate local situations in relation to broader contexts. Such design studios contain experience-based learning, fieldwork, tailored lectures, literature studies, seminars, workshops and exhibitions. A common thread through the studios is the use of a systems approach to design although both problems and potential solutions will vary significantly.

Research facilities

Studio spaces - all students have personal desks and storage areas in studio spaces with 24/7 access. Studio spaces are equipped with workstations, printers and large scale plotters, as well as Wi-Fi.
Architecture Library - has an extensive collection of printed volumes, journals and magazines within the fields of architecture and urban design.
CAD-lab - houses workstations with software for CAD-drawing, 3D-modelling, desktop publishing, video editing, and GIS.
A-Workshop - is a fully equipped architecture workshop with wood, plastics and metal working equipment. It also contains a number of computer controlled (CNC) machines for model building and rapid prototyping, including: Laser cutter, 3D-printers (2), CNC Mill and CNC Foam cutter.
Robot Lab - is a research facility that investigates robotic technology in architectural design. Equipment includes three robotic arms.
Centre for Healthcare Architecture - conducts research and graduate studies and encourage education and training within the field of physical environments for care.
Centre for Housing - is a national platform for transfer of knowledge, debate, development and research in the field of residential housing.
Mistra Urban Futures - is a centre for sustainable urban development with the ambition to become a world leader in the field in the near future.
The Spatial Morphology Group - is engaged in urban research within the fields of urban morphology, space syntax and design theory.

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Inclusive Design advances accessibility, and encompasses the full range of human diversity including ability, language, culture, gender and age. Read more
Inclusive Design advances accessibility, and encompasses the full range of human diversity including ability, language, culture, gender and age. Inclusive Design recognizes that we aren’t all the same. Design must be usable, flexible, and customizable among other qualities to be truly inclusive. From policies, customer service, infrastructure, technology, buildings to everyday products—we can design so that everyone can be accommodated and included.

MASTER OF DESIGN IN INCLUSIVE DESIGN

This program is primarily delivered through an online technology and learning system. It is the only one of its kind in Canada. We offer you the opportunity to become uniquely qualified as a global leader in the growing field of inclusive design.

You will learn to think differently and aim to break through societal barriers to address the growing demand for access and inclusion

The program benefits from accomplished faculty engaged with multi-disciplinary research and design practices, and you will bring valuable and diverse insights from your own educational and professional experiences, to both study and research projects.

You will explore equity and access issues through the lens of design thinking, leveraged by the application of inclusive digital technologies

The program prepares graduates for doctoral programs or advanced careers in:

Digital Media and ICT Systems
Public Sector Policy and Administration
Design for Built Environments
Arts and Culture
Healthcare sector
Graphic and Communication Design.

PROGRAM DELIVERY

The program accommodates the needs of working professionals and international students. The full-time two-year program includes:

Two-week, on-campus, residential intensives in both the first and second year of the program
Seminar courses delivered in a highly interactive online format throughout the year
A major research project in the second year of the program that will position you at the leading edge of inclusive design thinking
Colloquium session in second year, open to the public
A culminating festival and graduate symposium

You will co-create your pathway through the program with opportunities for elective courses in both the first and second year of the program

Seminar courses are delivered through both online and face-to-face sessions that support students learning both remotely and on campus. Coursework includes group projects, online discussion forums, and contribution from guest experts and leading innovators in the field of inclusive design. Research positions and assistantships are available throughout the program as opportunities arise with the Inclusive Design Research Centre, and both private and public sector funded projects.

All courses and class materials are accessible and assistance is available for students with English as a second language, and for those experiencing other challenges for learning and coursework.

Intensive on-campus ‘residencies’, consist of two full courses, and take place in each of the two summer terms. Students are required to attend these classes and activities on campus at OCAD University in Toronto.

Program Objectives

You will learn the systems and methodologies to tackle equity and diversity issues facing contemporary society

You will graduate with advanced skills, insights and resourcefulness to lead the critical transitions and meet rising demand for inclusive design practices globally

You will be equipped to excel in evolving professional fields including digital media, ICT, health, education, government and other public and private sector fields

You will contribute to meeting legal and policy commitments for accessibility, equity, diversity and inclusion at local, national and global levels.

The Accessibility for Ontarians with Disabilities Act (AODA) has legislated an accessible Ontario, Canada by 2025 which means inclusive design is fast becoming an essential skill for every business and organization in Ontario.

You will be joining the practice and research communities devoted to the design systems for diversity and accessibility

You will be prepared for doctoral programs to further leading-edge research advancing knowledge of inclusive design across many sectors and professional fields

You will have access and engagement with the renowned Inclusive Design Research Centre (IDRC) at OCAD U. This research and development centre hosts an international community of developers, designers, researchers, advocates, and volunteers working together to ensure that emerging digital and information technology and practices are designed inclusively, and equitably.

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