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Masters Degrees (E-Health)

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Under the patronage of SIT – the. Italian Society of Telemedicine. Read more

Under the patronage of SIT – the Italian Society of Telemedicine - the Rome Business School’s Master’s Degree Course in e-Health Management has been designed to supply training on organizational processes and technologies aimed at the proper introduction and management of ICT solutions and Telemedicine in Health Systems.

E-Health is the combined use of information technology and electronic communication, especially the internet, in the health sector, for clinical, educational and administrative purposes; both on-site and at distance (in which case it is called Telemedicine). E-Health is not only a technical development, but also represents a way of thinking, a commitment, an organizational approach to improve health care locally or regionally by using the new opportunities presented by Information and Communication Technology.

By means of e-Health and Telemedicine, a Healthcare Institution or Ministry can achieve:

• More efficiency in health care: reducing costs by networking data and knowledge, avoiding duplication in diagnostic or therapeutic interventions, treating patients directly at home.

• A higher quality of care: by networking the Health professionals’ knowledge, enabling comparisons, and involving the patients and care givers.

• The empowerment of patients.

• The education of both physicians and patients about the management of pathologies

• More equity, for example by networking smaller hospitals with larger institutions and making virtual visits to remote areas.

In this scenario, it is crucial for a Manager to understand the potentiality, seize the opportunities, push and, above all, lead the e-Health and Telemedicine revolution in health care.

The Rome Business School’s Master’s Degree Course in e-Health Management has been designed to supply training on organizational processes and technologies aimed at the proper introduction and management of ICT solutions and Telemedicine in Health Systems.

TARGET RECIPIENTS

The Master’s Degree Course is designed for

• Directors and Managers of Healthcare Institutions,

• Directors and Managers of Social and Healthcare Ministries,

• Healthcare Decision-Makers,

• Clinicians,

• Clinical Engineers.

TRAINING OBJECTIVES

On completion of the training course, attendees will:

• Understand e-Health and Telemedicine terminologies and their areas of application.

• Be aware of the most widespread and innovative technology platforms and solutions available.

• Possess the skills to evaluate and choose the best e-Health projects and solutions.

• Be able to manage the organizational aspects stemming from the introduction of e-Health in an Institution, a Region, or a Country.

• Be able to apply the knowledge of the best-in-class European e-Health projects to the domestic contexts.

• Be e-Health evangelists.

PROFESSIONAL OUTLETS

On completion of this Master’s Degree Course, attendees will be able to work or improve their careers as:

• E-Health Managers

• Chief Information Officers for healthcare institutions

• E-Health executive consultants

• Managers of ICT Departments of Health Ministries

• E-Health and Telemedicine evangelists

Course Contents

• Introduction, Terms and General Concepts

• Health Technology Assessment

• Electronic Medical Records

• National Electronic Health Records

• Chronic Disease Management

• EMR for Primary Care

• Clinical Decision Support Systems

• UK WSD “The Largest Randomised Control Trial of Telehealth and Telecare in the World”

• Better Health Through IT

• Standards and Interoperability

• Telemedicine: areas of use and technologies

• Introducing e-Health in Hospital environments

• Economics of e-Health

• Healthcare reform: changing the healthcare models in Europe

• ESA activities in Telemedicine: space technology for downstream eHealth applications

• E-Health experiences in the Italian regions

• E-Health in Hospitals

• Telemedicine for local organizations

• Telemedicine for developing Countries

• Public-Private Partnerships

• Designing of e-health projects

• European Structural Funding for e-Health management

STRUCTURE

The course is structured in:

• 20 two hour seminars (6 months) +

• A final project work (6 months).



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MSc Cardiovascular and Respiratory Healthcare. Our degrees in Cardiovascular and Respiratory Healthcare are designed for people from a wide range of healthcare backgrounds, including: healthcare scientists, nurses, physiotherapists and advanced practitioners. Read more

MSc Cardiovascular and Respiratory Healthcare

Our degrees in Cardiovascular and Respiratory Healthcare are designed for people from a wide range of healthcare backgrounds, including: healthcare scientists, nurses, physiotherapists and advanced practitioners.

It will take you through a programme of learning to deepen your knowledge and skills in cardiovascular and respiratory healthcare, enabling you to enhance your career in your chosen field.

The multidisciplinary lecturers will draw on their clinical and research experience at national and international level to facilitate your learning.

You will have the opportunity to discuss new technologies for the prevention, diagnosis and management of ill-health and their impact on the delivery of person-centred healthcare.

The course is flexible and modular, and available as a full- or part-time MSc, delivered over one or two years respectively. It is delivered through a combination of face-to-face and distance learning.

Study programme

This course is made up of three progressional levels (PG Cert, PG Dip and MSc), and you can apply to any level in the first instance. Read more about how this works under 'Choosing your course' in the admissions section.

The Postgraduate Certificate and Diploma are made up of core and optional taught modules. The MSc is made of the certificate, diploma and an extensive research project.

Streams

There are four study streams available and MSc students will receive a different award based upon the stream chosen and modules studied.

  • General stream - MSc Cardiovascular and Respiratory Healthcare
  • Cardiovascular Care stream - MSc Cardiovascular and Respiratory Healthcare (Cardiovascular Care)
  • Nursing stream - MSc Cardiovascular and Respiratory Healthcare (Nursing)
  • Respiratory Care stream - MSc Cardiovascular and Respiratory Healthcare (Respiratory Care)

Structure - MSc

Modules shown are for the current academic year, and are subject to change depending on your year of entry.

Core modules

You take all of the core modules below.

Cardiovascular and Respiratory Healthcare: Core Science

Provides an overview of cardiovascular and respiratory wellbeing, covering cardiovascular and respiratory anatomy and physiology, the epidemiology of cardiovascular and respiratory disease, the concepts of health and well-being and physiological changes associated with haemorrhage, immobility and bed rest.

Reflections and Evaluation of Clinical Practice

Provides a broad understanding of the practice of cardiovascular and respiratory healthcare, an opportunity to observe clinical practice and reflect on the reality of health service provision.

Study Design

Covers the principles and practice of quantitative and qualitative research, and key issues in critically evaluating methodology. Provides a strong foundation for conducting your own research.

Optional modules

You choose four modules from below.

  • Cardiovascular Health: Prevention and Rehabilitation
  • Clinical Examination and History Taking
  • Heart Failure: Prevention and Management
  • Innovation In Management of Cardiovascular Disease: Acute and Community
  • Managing The Care of Children And Adults With Cystic Fibrosis
  • Pulmonary Rehabilitation And Community Respiratory Care
  • Quality In Cardiovascular and Respiratory Healthcare With E-Health
  • Respiratory Failure And Respiratory Support

Research project

You complete an extensive research project assessed by a written dissertation and oral presentation. The research project can be undertaken in a variety of settings, and will be supervised by a member of the faculty at Imperial.

Your supervisor will provide guidance and support for developing the research question, design of the project and data collection, thesis writing and oral presentation.

We offer four types of project:

  • Primary research using quantitative or qualitative methods
  • Systematic review or qualitative synthesis of the literature
  • An analysis of data from research databases or registries
  • Clinical service improvement

Structure - PG Certificate

Core modules

Cardiovascular and Respiratory Healthcare: Core Science

Provides an overview of cardiovascular and respiratory wellbeing, covering cardiovascular and respiratory anatomy and physiology, the epidemiology of cardiovascular and respiratory disease, the concepts of health and well-being and physiological changes associated with haemorrhage, immobility and bed rest.

Optional modules

You choose two modules from below.

  • Cardiovascular Health: Prevention and Rehabilitation
  • Clinical Examination and History Taking
  • Heart Failure: Prevention and Management
  • Innovation In Management of Cardiovascular Disease: Acute and Community
  • Managing The Care of Children And Adults With Cystic Fibrosis
  • Pulmonary Rehabilitation And Community Respiratory Care
  • Quality In Cardiovascular and Respiratory Healthcare With E-Health
  • Respiratory Failure And Respiratory Support

Structure - PG Diploma

Core modules

Cardiovascular and Respiratory Healthcare: Core Science

Provides an overview of cardiovascular and respiratory wellbeing, covering cardiovascular and respiratory anatomy and physiology, the epidemiology of cardiovascular and respiratory disease, the concepts of health and well-being and physiological changes associated with haemorrhage, immobility and bed rest.

Study Design

Covers the principles and practice of quantitative and qualitative research, and key issues in critically evaluating methodology. Provides a strong foundation for conducting your own research.

Optional modules

You choose four modules from below.

  • Cardiovascular Health: Prevention and Rehabilitation
  • Clinical Examination and History Taking
  • Heart Failure: Prevention and Management
  • Innovation In Management of Cardiovascular Disease: Acute and Community
  • Managing The Care of Children And Adults With Cystic Fibrosis
  • Pulmonary Rehabilitation And Community Respiratory Care
  • Quality In Cardiovascular and Respiratory Healthcare With E-Health
  • Respiratory Failure And Respiratory Support


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Health Care Technology (HCT) is a unique Master’s programme in Europe and Estonia is the first country to start teaching Health Care Technology in such an all-inclusive form. Read more

Health Care Technology (HCT) is a unique Master’s programme in Europe and Estonia is the first country to start teaching Health Care Technology in such an all-inclusive form. HCT focuses on combination of academic and practical skills and the lecturers are mostly from the industry, bringing the latest knowledge and experience to the students.

HCT Master’s program has two specialities: 1) Health care technology (HCT) and 2) Occupational Health Science and Ergonomics (OHSE).

HCT speciality is for people who are interested in healthcare management combined with information technology and innovation. Not just creating new eHealth applications, but making sure it is humanly, financially, economically viable.

Occupational Health and Ergonomics (OHSE) speciality is for people who are interested in health and safety management, ergonomics and designing innovative workplaces, promoting work life quality, productivity and employees’ wellbeing.

Key features

  • Programme teaches to understand how healthcare, IT, medicine, occupational health work together
  • Two specialisations: Health Care Technology major and Occupational Health Science and Ergonomics major
  • Lectures will take place mainly in Tallinn Tech Mektory building, the innovation centre with different labs and classes. Additionally, students have site visits to get the first-hand experience with different healthcare and medical organisations
  • Mandatory internship that can be done abroad 

Future career options

An HCT alumni works in healthcare organisation managements, in IT development companies that develop healthcare applications and systems, laboratory management, rehabilitation management and as academics in the university. A OHSE alumni works in variety of organisations, private and state, in management of health and safety, working life quality, ergonomics, occupational health services and as academics in the university.

Course outline

The idea to create Health Care Technology programme was born because of high demand on the market for Health Care Specialists. After discussions and brainstorming amongst The Institute of Clinical Medicine and industry partners, the Master's programme was created. For the HCT major to be more effective, the students will attend apprenticeship in the following medical or health care companies:

OHSE major students will attend apprenticeship in different manufacturing companies, state organisations and occupational health services.

The aim of Health Care Technology major is to prepare e-Health technology specialists who have acquired the know-how for working in different health care sector organisations and have the knowledge about the client and patient centred approach and manner of behaviour characteristics of the modern health care system.

Tallinn University of Technology is the first university to start teaching Health Care Technology in this all-inclusive form. Theory lectures are combined with practical studies in our medical and health care industry partner organisations, teaching students how to use their freshly learnt skills and how to put them to work.

Health Care Technology programme professors are from Estonia as well as from Europe and North America, covering Estonian and international experience in different levels and angles of health care. Estonia is well known for its technological inventions in e-Health and their successful implementation, making it a lucrative country to study and work in technological fields.

Faculty

School of Information Technologies (former Faculty of Information Technology) was founded in 1965. The faculty trains specialists in the main fields of information and communications technology (ICT) at bachelor, master and doctoral level. High-quality knowledge based teaching and training is based on international research and development activities, and tight cooperation with ICT industry. There are more than 2100 students annually learning in the faculty, which employs 150 faculty members, lecturers, researchers and engineers.

Curriculum

Structure of curriculum



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The European Masters in Computer Vision and Robotics (VIBOT) is a collaboration between the three leading European institutions, the Universitat de Girona (Spain), the Université de Bourgogne (France) and Heriot-Watt University (Scotland). Read more

The European Masters in Computer Vision and Robotics (VIBOT) is a collaboration between the three leading European institutions, the Universitat de Girona (Spain), the Université de Bourgogne (France) and Heriot-Watt University (Scotland). It aims to meet the needs of industry for quality control and automation of industrial processes, and those in the field of health with the increasing importance of medical imagery in all its forms.

In recent years, the amount of digital information to be stored, processed and distributed has grown dramatically. The generalisation of the use of digital images, in video surveillance, biomedical and e-health systems, and remote sensing, create new, pressing challenges, and automated management tools are key to enable the organisation, mining and processing of these important knowledge resources.

The key subject areas are computer vision and robotics. Research in these areas are dynamic and relevant to a wide range of sectors, such as the car industry, the agro-alimentary field or the domain of health, with the active development of e-Health solutions. The course is over two years, students spend the first semester in France, the second in Spain and the third in Scotland. The fourth semester is reserved for Masters thesis.



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Developed by the Institute of Digital Healthcare at WMG, along with Warwick Medical School and National Health Service (NHS) partners from University Hospitals Coventry and Warwickshire, and University Hospitals Birmingham,. Read more

"Ensure the delivery of consistent high quality person-centric care"

Developed by the Institute of Digital Healthcare at WMG, along with Warwick Medical School and National Health Service (NHS) partners from University Hospitals Coventry and Warwickshire, and University Hospitals Birmingham,. This part-time MSc programme will provide a foundation for future health service management, with the essential knowledge to manage the integration of people, processes, systems and technologies to ensure the delivery of consistent high quality person-centric care.

Why Enrol?

As the service landscape around the delivery of care evolves, so will the jobs of those who oversee healthcare operational management. Managers in the sector will face unique challenges on the best ways to manage care while providing a diverse range of services. This will require a broad-based set of skills that can manage services successfully and efficiently while ensuring they are of the highest quality. An education in healthcare operational management will equip you with the skills required for working within key parts of the sector including direct healthcare providers, commissioner organisations, policy agencies, and industry.

This programme is tailored to suit the needs of both clinicians and non-clinicians, as they seek to understand demands on the organisation and identify key tasks and best practice in an evolving and complex service environment.

You may already lead teams and have managerial responsibilities in your current job, or you may be looking to develop a career in healthcare management. This course will enable you to effectively lead complex change within your organisation.

Who is it for?

- UK or overseas based professionals
- Clinicians wishing to develop a career in healthcare operational management
- Healthcare managers looking to build on their existing knowledge and skills
- Biomedical or Clinical Engineers, Medical Physicists, or Healthcare Technologists wishing to integrate health care technologies within complex service systems
- Graduates interested in careers as Managers, Directors and Healthcare Analysts within healthcare organizations
- Those pursuing a PhD or research career in e-Health, health or medical information

Modules

Core Modules

- Leading Change
- Quality and Productivity in Health Service Systems
- Operational Management and Clinical Systems Improvement

Elective Modules
You may select seven out of the following electives:

- e-Health Technologies and Informatics
- Use of Electronic Health Records
- Resource Management in Healthcare Service Delivery
- Patient Co-production in Healthcare Decision Making
- Epidemiology and Statistics
- Health Economics
- Medical Ethics and Governance
- Evidence-based Healthcare
- Global Health Systems

Learning Outcomes

This programme will provide you with the skills required by healthcare providers, commissioner organisations, policy agencies, and industry such as:

- A clear understanding of the strategies required to deliver services within an ever changing and evolving healthcare environment
- Tools to explore, develop, and implement necessary plans to deliver those strategies such as capacity, workforce, and quality
- The ability to understand and implement systems and processes that deliver improved effectiveness and efficiency of care
- Skills to manage complex workforce scenarios, service redesign, and evaluation of services
- The ability to engage with patients, their families, and carers to meet care expectations
- An understanding of ethics and regulatory affairs

“This MSc is a timely development to fill a widening skills gap. The role of operational management in healthcare has never been so complex. Colleagues need to juggle the immediate priorities of improving the quality of care for patients and maintain clinically appropriate waiting times against a backdrop of increasing demand and, in real terms, reduced resources. This MSc seeks to complement the generic skills gained through education or experience with the higher level skills required to succeed in one of the fastest moving industries in the world.”
Tim Jones
Executive Director of Delivery, University Hospitals Birmingham NHS Foundation Trust

“I am delighted to be a Director of the MSc in Healthcare Operational Management at WMG. As a senior clinician and medical manager, I recognise the need for training clinical and non-clinical staff in healthcare operational management. This MSc will provide an understanding of theoretical concepts and enable development of strategies to overcome the challenges we face in the NHS today”.
Professor Meghana Pandit. FRCOG, MBA
Chief Medical Officer & Deputy CEO, University Hospitals Coventry & Warwickshire NHS Trust

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Our programme will produce managers and practitioners able to improve the patient experience through innovation, integrated care, technological improvements and their position at the forefront of advances in healthcare. Read more

Our programme will produce managers and practitioners able to improve the patient experience through innovation, integrated care, technological improvements and their position at the forefront of advances in healthcare.

The curriculum of this programme reinforces the need for professionals to demonstrate improvement in their care delivery through high-level, expert knowledge and an in-depth understanding of the context of healthcare management and delivery.

Staff in the School of Health Sciences are motivated to support students to meet the challenges they face in their practice with a solution-focussed approach, utilising the existing evidence base whilst demonstrating creativity in their own research approaches.

Programme structure

The full-time non-endorsed programme is studied over one academic year. The endorsed part time programmes are studied over five academic years (60 months). 

Pathways

There are a range of pathways available for MSc programmes. These variants are made clear to students in all marketing material and student handbooks.

Example module listing

The following modules are indicative, reflecting the information available at the time of publication. Please note that not all modules described are compulsory and may be subject to teaching availability and/or student demand.

Core modules

Delivering Quality Healthcare (full-time) core modules

Pathway modules

Acutely ill patient

Cancer and Older People

Cancer

  • Cancer in Society
  • Challenges in Pain Management

ehealth

Long Term Conditions

  • Leading and Managing Long Term Conditions
  • Managing Multi-morbidity in Long-Term Conditions

Maternal, Child and Family Health

Or

  • Safeguarding Children, Young People and Vulnerable Adults

And

Or

Older People

Paramedic Practitioner

Patient Safety

  • Fundamentals in Quality Improvement and Patient Safety
  • Innovations in Quality Improvement and Patient Safety

Optional modules

Programme learning outcomes

Knowledge and understanding

  • Evaluate and critically explore complex problems in order to apply relevant knowledge and skills to develop solution focussed approaches
  • Critically analyse and demonstrate an ability to interpret research evidence and data in order to communicate health care information into the practice setting effectively
  • Demonstrate and apply deep knowledge and understanding relevant to their area of practice

Intellectual / cognitive skills

  • Critically evaluate, challenge and apply relevant health policy to their own area of practice
  • Demonstrate consideration of relevant ethical principles
  • Apply contemporary thinking and analytical skills when analysing the existing evidence base
  • Critically evaluate research and methodological approaches taken within the existing evidence available
  • Defend originality in their own research work to complement the existing evidence base

Professional practical skills

  • Demonstrate the utilisation of innovative approaches to health care within their own area of practice to engender a progressive culture
  • Utilise a range of analytical and influencing skills including emotional intelligence, to demonstrate effective leadership
  • Effectively address complex and challenging issues to make sound, informed and appropriate judgements in their practice

Key / transferable skills

  • Synthesise information effectively to inform health care practices
  • Demonstrate and utilise critical awareness to improve health care
  • Initiate change and development in their current practice, engaging in the inter-professional arena to facilitate reflective learning in the wider health care team

Global opportunities

We often give our students the opportunity to acquire international experience during their degrees by taking advantage of our exchange agreements with overseas universities.

In addition to the hugely enjoyable and satisfying experience, time spent abroad adds a distinctive element to your CV.



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Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Health Informatics at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017). Read more

Visit our website for more information on fees, scholarships, postgraduate loans and other funding options to study Health Informatics at Swansea University - 'Welsh University of the Year 2017' (Times and Sunday Times Good University Guide 2017).

The Health Informatics programme is designed for healthcare professionals and those who want to increase their knowledge and skills in health informatics. Accredited by the UK Council for Health Informatics Professions (UKCHIP), the programme uses state-of-the-art technologies and has a strong focus on practical experience is strongly linked with National Health Service (NHS) organisations, other research institutes and industry within the Life Science sector in Wales, UK.

Key Features of the Health Informatics Programme

- A one year full-time taught masters programme in Health Informatics that has been running successfully since 2001 and has an international reputation.

- The Health Informatics course is also available for three years part-time study with minimum attendance requirements.

- Accredited by the UK Council for Health Informatics Professions Education Quality Assurance Scheme.

- Uses state-of-the-art technologies and has a strong focus on practical experience.

- Strongly linked with National Health Services organisations and industry within the Life Science sector in Wales, UK.

- The Health Informatics course is based within the award winning Centres for Excellence for Administrative Data and eHealth Research of Swansea University, awarded by the Economic and Social Research Council (ESRC) and Medical Research Council (MRC), enhancing the quality of the course.

Who should study MSc Health Informatics?

The Health Informatics course is suitable for current informaticians, those working in the health and healthcare sector, and graduates preparing for a career in health informatics. Applicants from non-graduates with domain experience are welcome.

Course Structure

Health Informatics students must complete 6 modules (5 core and 1 further module from a choice of two) to earn a minimum of 120 credits in total in Part One and produce a dissertation of not more than 20,000 words on a relevant health informatics topic in Part Two to graduate. Each module for this course requires five days of intensive study in Swansea. This will be augmented by preparatory and reflective material supplied via the course website before and after your visit.

Attendance Pattern

Health Informatics students are required to attend the University for 1 week (5 consecutive days) for each module in Part One. Attendance during Part Two is negotiated with the supervisor.

Modules

Modules on the Health Informatics programme typically include:

• Health Informatics in Context

• Communications and Coding

• Using Secondary Health Data

• Systems and Technologies

• Knowledge Management

• Understanding Health Informatics Research

The Health Informatics course introduces two pathways for health informaticians who wish to specialise in one of the following areas:

1. Health Informatics Research

2. Leadership in Project Management

Research Opportunities

In partnership with the National Health Service (NHS) Wales Informatics Service and Health Boards in Wales, the Health Informatics course is able to offer NHS research opportunities within local NHS facilities and the NHS Wales Informatics Research Laboratories based at Swansea University.

Industry Links

In collaboration with the e-Health Industries Innovation Centre UK, this course offers you a unique opportunity to work with the industries to develop your work-based project that will give you the competitive edge and enhance your future employability.

Career Prospects

Health Informatics remains one of the fastest growing areas within healthcare in the UK and US.

In the UK working as a professional health informatician, you could be introducing electronic health records for every person in the country or exploring patient data to identify trends in disease and treatment. If you love working with computers or have an analytical and inquisitive mind, then there is a job for you in health informatics as the NHS Careers in Health Informatics has demonstrated.



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In recent years there has been - and continues to be - a massive expansion in the number of information-and-communications-technology-for-development (ICT4D) projects (telecentres, ICT-enabled microenterprise, public service kiosks, e-government initiatives, e-health projects, etc) in developing and transitional economies. Read more
In recent years there has been - and continues to be - a massive expansion in the number of information-and-communications-technology-for-development (ICT4D) projects (telecentres, ICT-enabled microenterprise, public service kiosks, e-government initiatives, e-health projects, etc) in developing and transitional economies.

Successful oversight of these projects requires ICT4D champions who possess a combination of technical competencies (e.g. information systems skills) and contextual competencies (e.g. development skills). Such a combination is, as yet, rarely found. This has resulted in a high project failure rate, and a recognition of training need.

This programme, therefore, aims to create the ICT4D champions who combine the necessary skills to see ICT4D projects through to sustainable delivery of development goals.

You will gain:
-Conceptual frameworks to understand the process of socio-economic development and the role of information and of ICTs in the development process
-New knowledge and skills to help in the effective planning, development, implementation and management of ICT4D initiatives

Special features

An overseas field visit is an integral part of the programme. The cost of the visit is included in the programme fee. In addition, participants may undertake research visits to organisations applying information systems in practice in the UK. Fieldcourses may be scheduled at any point during the twelve-month period of the degree programme and this may include during University vacations. Successful applicants are expected to be available to attend.

Countries to be visited may change their immigration and visa regulations at short notice. The Global Development Institute (GDI) cannot guarantee that where visas are required for the field course, they will be granted. GDI will ensure that, in the unlikely event this occurs, affected students are not academically disadvantaged.

Teaching and learning

Part-time students complete the full-time programme over 24 months. There are NO evening or weekend course units available on the part-time programme, therefore if you are considering taking a programme on a part-time basis, you should discuss the requirements with the Programme Director and seek approval from your employer to have the relevant time off. Timetabling information is normally available from late August from the Programme Administrator and you will have the opportunity to discuss course unit choices during induction week with the Programme Director.

Career opportunities

The programme is designed for those applying, or seeking to apply, information and communication technologies in pursuit of socio-economic development goals. It will include those who have, or plan to have:
-Direct design and implementation responsibilities and/or
-Project managerial responsibilities and/or
-Broader strategic or policy-related responsibilities

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The huge growth of processing power, now available in small power-efficient packages, has fuelled the digital revolution, which has touched all sectors of the economy. Read more

The huge growth of processing power, now available in small power-efficient packages, has fuelled the digital revolution, which has touched all sectors of the economy. This practically orientated, advanced course in the area of electronics design and applications provides a strong digital technology core backed with applications-led modules.

You’ll study applications as diverse as medical and electronics, e-health, intelligent building design, automotive electronics, retail and commerce to prepare you for a range of careers in industry, where the skills you gain will be in high demand. A substantial element of practical work will give you confidence with software and digital hardware implementations using microcontrollers, FPGA, DSP devices and general system-on-chip methodology.

You’ll be taught by experts informed by their own world-leading research, and you’ll have access to world-class facilities to prepare for a career in a fast-changing industry.

Our School is an exciting and stimulating environment where you’ll learn from leading researchers in specialist facilities . These include our Keysight Technologies wireless communications lab, as well as labs for embedded systems, power electronics and drives, ultrasound and bioelectronics.

There’s also a Terahertz photonics lab, class 100 semiconductor cleanroom, traffic generators and analysers, FPGA development tools, sensor network test beds. We have facilities for electron-beam lithography and ceramic circuit fabrication – and a III-V semiconductor molecular beam epitaxy facility.

Accreditation

This course is accredited by the Institution of Engineering and Technology (IET) under licence from the UK regulator, the Engineering Council.



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This CILIP-accredited course is aimed at health care professionals who want to improve services in their sector by getting more out of information and communication technologies. Read more

About the course

This CILIP-accredited course is aimed at health care professionals who want to improve services in their sector by getting more out of information and communication technologies. It’s taught online so you can fit it around your work.

Alongside the more specialised knowledge, you’ll acquire valuable transferable skills such as presentation and report writing. We can also help you develop leadership and management capabilities.

First year students take part in an online induction before the course starts. The rest of the course uses specialised software to deliver lectures, seminars and tutorials online, in real time. In the final year, you’ll complete a research dissertation, supervised by an academic.

Your career

Effective use of information improves the world and makes a positive difference to our lives. It is also central to economic development. The rapid pace of technological change and the globalisation of markets means that organisations in all sectors must realise the value of information systems.
The world needs graduates who are information literate.

Our graduates work for all kinds of organisations, in the public and private sectors. Employers include:

Adidas; BBC; British Red Cross; Cambridge University; The Department of Health; Ernst and Young; GCHQ; Goldman Sachs; Hewlett-Packard CDS; House of Commons Library; Imperial College London; IBM; Kings College London; NHS; Pepsico; Pricewaterhouse Coopers; Stanford University

If you’re already an experienced professional, you can develop new skills and advance your career with one of our Professional Enhancement Programmes (page xxx).

Your subject

Our courses are research-led, which means you’ll learn about the latest concepts from academics who work with organisations to drive developments in this field. Alongside the theory and technical skills, you’ll develop some valuable attributes including effective communication, application of research methods and creative problem solving.

How we teach

All our courses (except our distance learning courses) include lectures, seminars, tutorials, practical laboratory classes, group work, online discussion, case studies and lectures by visiting speakers. Our MA Librarianship course also includes visits to library and information service organisations. You’ll be assessed using a wide variety of methods including essays, reports, small projects, in-class tests, presentations, posters, group work and a research-based dissertation.

Learning Environment

Our dedicated departmental teaching suite contains two networked laboratories with 60 computers and a 30-seat lecture room. Our state of the art iLab includes a Usability Lab and Digital Media Lab designed to collect research data into human–computer interaction.

The iSpace is an open plan, social learning area for students. It has display facilities, open-access PCs and bookable partitioned group work areas. There is Wi-Fi coverage throughout the department, and you can connect your own laptop to our network. Mobile devices and tables are available for you to borrow for project work.

We’re right in the middle of the campus and close to the Information Commons and the new Diamond building so you’ll be able to access the University’s many resources.

Core modules

Placing Electronic Records at the Centre of Care; Evidence-based Practice and Health Care Information; The Internet, Web and E-Health; Information and Knowledge Management; Information Systems in Health; Introduction to Health Informatics; Research Methods and Dissertation Preparation; Dissertation.

Examples of optional modules

Introduction to Telehealth and Telecare; Public Health; Informatics Leadership, Strategy and Change; Analysis of Health Information.

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The School conducts high-quality significant national and international research and offers excellent opportunities for graduate studies, successfully combining modern engineering and technology with the exciting field of digital media. Read more
The School conducts high-quality significant national and international research and offers excellent opportunities for graduate studies, successfully combining modern engineering and technology with the exciting field of digital media. The digital media group has interests in many areas of interactive multimedia and digital film and animation.

Visit the website https://www.kent.ac.uk/courses/postgraduate/264/digital-arts

About the School of Engineering and Digital Arts

Established over 40 years ago, the School has developed a top-quality teaching and research base, receiving excellent ratings in both research and teaching assessments.

The School undertakes high-quality research (http://www.eda.kent.ac.uk/research/default.aspx) that has had significant national and international impact, and our spread of expertise allows us to respond rapidly to new developments. Our 30 academic staff and over 130 postgraduate students and research staff provide an ideal focus to effectively support a high level of research activity. There is a thriving student population studying for postgraduate degrees in a friendly and supportive teaching and research environment.

We have research funding from the Research Councils UK, European research programmes, a number of industrial and commercial companies and government agencies including the Ministry of Defence. Our Electronic Systems Design Centre and Digital Media Hub provide training and consultancy for a wide range of companies. Many of our research projects are collaborative, and we have well-developed links with institutions worldwide.

Course structure

The digital media group has interests in many areas of interactive multimedia and digital film and animation.

There is particular strength in web design and development, including e-commerce, e-learning, e-health; and the group has substantial experience in interaction design (eg, Usability and accessibility), social computing (eg, Social networking, computer mediated communication), mobile technology (eg, iPhone), virtual worlds (eg, Second Life) and video games. In the area of time-based media, the group has substantial interest in digital film capture and editing, and manipulation on to fully animated 3D modelling techniques as used in games and feature films.

Research Themes:
- E-Learning Technology (http://www.eda.kent.ac.uk/research/theme_detail.aspx?gid=1&tid=1)

- Medical Multimedia Applications and Telemedicine (http://www.eda.kent.ac.uk/research/theme_detail.aspx?gid=1&tid=2)

- Human Computer Interaction and Social Computing (http://www.eda.kent.ac.uk/research/theme_detail.aspx?gid=1&tid=3)

- Computer Animation and Digital Visual Effects (http://www.eda.kent.ac.uk/research/theme_detail.aspx?gid=1&tid=4)

- Mobile Application Design and Development (http://www.eda.kent.ac.uk/research/theme_detail.aspx?gid=1&tid=25)

- Digital Arts (http://www.eda.kent.ac.uk/research/theme_detail.aspx?gid=1&tid=26)

Research areas

- Intelligent Interactions

The Intelligent Interactions group has interests in all aspects of information engineering and human-machine interactions. It was formed in 2014 by the merger of the Image and Information Research Group and the Digital Media Research Group.

The group has an international reputation for its work in a number of key application areas. These include: image processing and vision, pattern recognition, interaction design, social, ubiquitous and mobile computing with a range of applications in security and biometrics, healthcare, e-learning, computer games, digital film and animation.

- Social and Affective Computing
- Assistive Robotics and Human-Robot Interaction
- Brain-Computer Interfaces
- Mobile, Ubiquitous and Pervasive Computing
- Sensor Networks and Data Analytics
- Biometric and Forensic Technologies
- Behaviour Models for Security
- Distributed Systems Security (Cloud Computing, Internet of Things)
- Advanced Pattern Recognition (medical imaging, document and handwriting recognition, animal biometrics)
- Computer Animation, Game Design and Game Technologies
- Virtual and Augmented Reality
- Digital Arts, Virtual Narratives.

Careers

We have developed our programmes with a number of industrial organisations, which means that successful students are in a strong position to build a long-term career in this important discipline. You develop the skills and capabilities that employers are looking for, including problem solving, independent thought, report-writing, time management, leadership skills, team-working and good communication.

Kent has an excellent record for postgraduate employment: over 94% of our postgraduate students who graduated in 2013 found a job or further study opportunity within six months.

Building on Kent’s success as the region’s leading institution for student employability, we offer many opportunities for you to gain worthwhile experience and develop the specific skills and aptitudes that employers value.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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The hunger for the digital visualisation of architecture and urban environments has grown exponentially in both the Architectural and Film Industries. Read more
The hunger for the digital visualisation of architecture and urban environments has grown exponentially in both the Architectural and Film Industries. As the need for skilled modellers and animators with an awareness of architectural, as well as cinematic, issues increases in both Architecture and Film, the MA in Architectural Visualisation builds on the connections between these two industries. This MA programme develops skills to communicate architecture and urbanity for a variety of applications and audiences.

The MA in Architectural Visualisation is jointly taught by Kent School of Architecture (http://www.kent.ac.uk/architecture/) and the School of Engineering and Digital Arts (http://www.eda.kent.ac.uk/).

The School of Engineering and Digital Arts successfully combines modern engineering and technology with the exciting new field of digital media. The School was established over 40 years ago and has developed a top-quality teaching and research base, receiving excellent ratings in both research and teaching assessments.

Kent School of Architecture is a young school that has built an excellent reputation, based on high quality teaching and excellent resources. For architecture graduate employment prospects, Kent was ranked 6th in the UK in The Times Good University Guide 2014 and 7th in the UK in The Guardian University Guide 2015.

Visit the website https://www.kent.ac.uk/courses/postgraduate/245/architectural-visualisation

Course structure

The MA in Architectural Visualisation is jointly taught by Kent School of Architecture and the School of Engineering and Digital Arts. Building on the successful Master's programmes in Computer Animation and Digital Visual Effects, this MA enables students to develop at an advanced level the skills, knowledge and understanding of digital simulation and 3D modelling which will equip them to become highly skilled professionals in architectural visualisation.

Drawing influence from both architecture and film, this programme offers a progression route into both industries, highlighting the different requirements needed for each profession while exploring the similarities of these markets. In this programme, the professions of architecture, film and animation fuse together, providing students with the ability and understanding to work in each or all of them.

Modules

Stage 1
AR821 - Film and Architecture (15 credits)
AR822 - Virtual Cities (30 credits)
AR823 - Digital Architecture (15 credits)
AR846 - Architectural Photography (15 credits)
EL837 - Professional Group Work (15 credits)
EL868 - High Definition Compositing (15 credits)
EL869 - Film and Video Production (15 credits)
Stage 2
Either
EL870 - Visual Effects Project (60 credits)
OR
AR845 - Independent Research Project (60 credits)

Assessment

Modules are taught over three terms, concluding with a Major Project Visualisation, which accounts for one third of the programme. The content of the visualisation is agreed with programme staff and you build a showreel to a professional standard. Each module is assessed by practical assignments. The project work is assessed on the outcome of the project itself.

Programme aims

This programme aims to:

- enable you to develop advanced level skills, knowledge and understanding of digital simulation and 3D modelling, which will equip you to become a highly skilled professional in architectural visualisation

- train you in the requirements and skills needed for work in high definition

- produce professionally-trained architectural visualisers who are highly skilled in using state-of-the-art 3D modelling and visual effects software

- provide proper academic guidance and welfare support for all students

- create an atmosphere of co-operation and partnership between staff and students, and offer you an environment where you can develop your potential.

Research areas

- Digital Media

The Digital Media group is a multidisciplinary group with interests in many areas including social computing (eg, social networking, computer mediated communication), mobile/ubiquitous computing, human-computer interaction and digital arts (eg, computer games, 3D animation, digital film). Our work is applied across a wide range of domains including e-health, cultural heritage and cyber influence/identity.

Current research themes include:

- interface/interaction design and human-computer interaction
- cyber behaviour/influence
- social computing and sociability design
- natural user interfaces
- virtual worlds
- online communities and computer-mediated communication
- mobile applications
- digital film-making and post-production.

Careers

We have developed our programmes with a number of industrial organisations, which means that successful students are in a strong position to build a long-term career in this important discipline. You develop the skills and capabilities that employers seek, including problem solving, independent thought, report-writing, time management, leadership skills, team-working and good communication.

Building on Kent’s success as the region’s leading institution for student employability, we offer many opportunities for you to gain worthwhile experience and develop the specific skills and aptitudes that employers value.

Find out how to apply here - https://www.kent.ac.uk/courses/postgraduate/apply/

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The MSc in Data Science (See website at http://www.postgraduate.hw.ac.uk/prog/msc-data-science/) teaches the theory and skills for managing and analysing very large and complex data sets, sometimes referred to as Big Data. Read more

Overview

The MSc in Data Science (See website at http://www.postgraduate.hw.ac.uk/prog/msc-data-science/) teaches the theory and skills for managing and analysing very large and complex data sets, sometimes referred to as Big Data. Students will learn how to model, store and process these data sets using the latest algorithms and techniques. They will also learn about modern methods and tools for visually exploring them.

This MSc is research led and taught by staff who are involved in internationally leading research projects in the field. The skills acquired will be applicable to industrial applications as well as to scientific data exploration. The MSc project in some cases can be carried out in collaboration with an outside industrial or academic organisation.

Further details are available here http://www.macs.hw.ac.uk/cs/pgcourses/?msc=ds

Programme duration

This full-time programme course starts in mid September and lasts one year. The programme can also be taken part-time over 2 years or as a 9 month Postgraduate Diploma.

Professional recognition

The MSc is accredited by the British Computer Society.

MSc in Data Science

This programme teaches the theory and skills for managing and analysing very large and complex data sets, sometimes referred to as Big Data. Students will learn how to model, store and process these data sets using the latest algorithms and techniques. They will also learn about modern methods and tools for visually exploring them.

The programme is research led and students will benefit from the interaction with staff who are involved in internationally leading research projects in the field. The skills acquired by students will be applicable to industrial applications as well as scientific data exploration such as business intelligence or e-health.

This full-time programme starts in mid September and lasts one year. Admission requires a good honours degree with a substantial academic component of Computing or IT that includes study of databases and programming.

Programme content

Full-time students take 4 courses each semester and must normally take all core courses.

Core Courses:
- Big Data Management
- Data Mining and Machine Learning
- Data Visualisation and Analytics
- Research Methods and Project Planning

Optional Courses:
- Advanced Interaction Design
- Advanced Software Engineering
- Biologically Inspired Computation
- Computer Network Security
- Distributed and Parallel Technologies
- E-Commerce Technology
- Information Systems Methodologies
- Software Engineering Foundations

After semester 2 students continue full-time on the MSc project.

Further details are available here http://www.macs.hw.ac.uk/cs/pgcourses/ds.htm

Project
In the third semester (May-August) students undertake a specialist MSc project which is written up as a 15000 word dissertation. This project enables further development and consolidation of skills introduced in the taught courses, applying them to a challenging practical problem in this subject area.

English language requirements

If your first language is not English, or your first degree was not taught in English, we’ll need to see evidence of your English language ability. The minimum requirement for English language is IELTS 6.0 or equivalent. We offer a range of English language courses (See http://www.hw.ac.uk/study/english.htm ) to help you meet the English language requirement prior to starting your masters programme:
- 14 weeks English (for IELTS of 5.5 with no more than one skill at 4.5);
- 10 weeks English (for IELTS of 5.5 with minimum of 5.0 in all skills);
- 6 weeks English (for IELTS 5.5 with minimum of 5.5 in reading & writing and minimum of 5.0 in speaking & listening)

See website for information on Fees and Scholarships http://www.postgraduate.hw.ac.uk/prog/msc-data-science/

Find out how to apply by following this link http://www.hw.ac.uk/student-life/how-to-apply/postgraduate.htm?utm_source=pgapply/applyutm_medium=redirect/applyutm_campaign=how-to-apply-for-pg

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Data science is positioned to be the major new arena of scientific discovery in the 21st century. As Eric Schimdt, CEO of Google, has pointed out, we now generate as much information every two days as we did from the dawn of human civilisation up until the year 2003. Read more
Data science is positioned to be the major new arena of scientific discovery in the 21st century. As Eric Schimdt, CEO of Google, has pointed out, we now generate as much information every two days as we did from the dawn of human civilisation up until the year 2003.

To cope with this vast amount of data, there is an urgent requirement to derive meaningful insights from very large and diverse data sources: the so-called 'big data challenge'. Secure identification of individuals, accurate financial prediction and reliable cancer diagnosis are all examples of area in which the technologies underpinning data science are marketing revolutionary contributions, enriching our lives, and making our future healthier, more efficient and more secure.

The MSc by Research (Data Science) provides an opportunity for students who wish undertake an individual real-world big-data research project; you can choose a project area from a wide variety of interdisciplinary domains, including business information systems, e-health, social media, cloud computing, smart homes, intelligent vehicles and ambient assisted living.

We currently have supervisors available in:

Machine learning
Visual analytics
Mathematics and statistics
Smart sensors (for ambient assisted living and smart homes)
Numerical algorithms (especially computational geometry)
Artificial intelligence
Ethics of technology
Psychology
Business information systems and business informatics
Robust software/system development
Networking
Ethics
Marketing
Operations management
Enterprise and economic development
Education
Design
As a student of this course you'll receive a free electronic textbook for every module.

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This course has been designed to fulfil the specific needs and requirements of those interested in a management or leadership role within the complex health service sector. Read more

This course has been designed to fulfil the specific needs and requirements of those interested in a management or leadership role within the complex health service sector. The MSc in Healthcare Operational Management is suitable for students from a range of academic backgrounds within engineering, business, and sciences. Whilst no previous healthcare background is required, the course will appeal to clinically qualified students looking to move into health systems modelling, e-health, health or medical informatics.

We will provide you with

The skills and knowledge to assess organisational performance and drive the development and implementation of innovation in healthcare organisations in order to facilitate improvement. You will learn to evaluate effective programme components and systems, and gain a detailed understanding of quality systems management and the integration of healthcare technologies, systems, and processes within complex service systems. Healthcare organisations share commonalities with production facilities, including the need for efficient process flow, change management, and quality standards. As a student you will explore the principles, approaches, strategies, and techniques for analysing, designing, and managing complex healthcare systems. You will learn to measure efficiency and improve effectiveness and productivity without compromising quality or safety.

Course Structure

The course is modular - each student takes a combination of core and elective modules. 8 modules are studied and assessed in total. Modules consist of directed tuition in the form of lectures, seminars, group work, presentations, case studies and e-learning. Modules are assessed by Post Module Assignment. A major individual research project also forms part of the MSc. It is submitted in the form of a dissertation This should take approximately 600 hours of study time. An oral examination is held upon completion.

Core modules

  • Leading Change in Healthcare
  • Quality and Productivity in Health Service Systems
  • Operational Management and Clinical Systems Improvement
  • Introduction to Health informatics
  • Electronic Healthcare Records
  • Epidemiology and Statistical Methods for Quality Improvement
  • Introduction to Health Economics
  • Resource Management in Healthcare Service Delivery

Please note: Our course and module content and schedule is continually reviewed and updated to reflect the latest research expertise at Warwick, so it is therefore very important that you check the website for the latest information before you apply and when you accept an offer.

Project

The project will relate to issues of quality and productivity in the healthcare context and supports you in developing your research and analytical skills. Through your project you can focus on an aspect of particular interest to you – some examples are listed below:

  • Implementing innovation in hospital care
  • Improving service design through the use of informatics
  • Service design for quality improvement
  • Improving service delivery through use of technology
  • Cost-effective service design

After You Graduate

As a graduate of Healthcare Operational Management, you can expect to work in a managerial or organisational leadership role within health service organisations or institutions. With additional experience, you would expect to progress into a key executive role in the healthcare sector, which would involve leading and overseeing programmes and policy.



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