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Full Time Masters Degrees in Engineering, Dublin, Ireland

We have 47 Full Time Masters Degrees in Engineering, Dublin, Ireland

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Trinity College Dublin School of Engineering
Distance from Dublin: 0 miles
This is a one year full-time or two year part-time postgraduate course designed to provide graduate engineers with specialist understanding in one of. Read more
This is a one year full-time or two year part-time postgraduate course designed to provide graduate engineers with specialist understanding in one of: Environmental Engineering; Structural Engineering; or Transport Engineering. In addition, the course offers students the opportunity to obtain knowledge in complimentary subject areas within Civil Engineering.

Course Organisation:

The MSc course can be undertaken as either a one year full-time or a two-year part-time postgraduate course.

The degree programme is divided into three parts: two semesters of taught courses (September - April inclusive) with an average of 12 lectures per week. A major dissertation is undertaken during the second half of the course (April - September inclusive).

It is possible to work full-time and do the course as a part-time option, providing you have the agreement of your employer.

Course Content:

Candidates must take eleven modules, namely the three mandatory modules (M1, M2 and M3) together with at least four of the modules in their chosen specialisation and four other modules, which in total amounts to 90 ECTS.

In the first semester, candidates pursuing the course full time must take modules M1 and M2 along with four other modules selected from options (including at least two from their selected specialisation), listed below. In the second semester, candidates pursuing the course full time must take module M3 along with four other modules selected from options (including at least 2 from their selected specialisation), also listed below:

Mandatory

M1. Civil Engineering Management (10 ECTS)

M2. Research Methodology (10 ECTS)

M3. (Environmental / Structural / Transport) Engineering Dissertation (30 ECTS)

Environmental Engineering

E1. Engineering Hydrology (5 ECTS)

E2. Environmental Monitoring and Assessment (5 ECTS)

E3. Environmental Processes and Technology (5 ECTS)

E4. Waste and Environmental Management (5 ECTS)

E5. Water Quality and Hydrological Modelling (5 ECTS)

E6. Water Resource Planning ( ECTS)

Structural and Geotechnical Engineering

S1. Geotechnical Engineering (5 ECTS)

S2. Advanced Structural Analysis (5 ECTS)

S3. Structural Dynamics and Earthquake Engineering (5 ECTS)

S4. Bridge Engineering (5 ECTS)

S5. Advanced Concrete Technology (5 ECTS)

S6. Soil-Structure Interaction (5 ECTS)

S7. A Unified Theory of Structures (5 ECTS)

S8. Concrete Durability and Sustainability (5 ECTS)

S9. Advanced Theory of Structures (5 ECTS)

Transport Engineering

T1. Transportation Engineering ( ECTS)

T2. Transport Modelling (5 ECTS)

T3. Highway Engineering (5 ECTS)

T4. Applied Transportation Analysis (5 ECTS)

Common

C1. Renewable Energy 1 (5 ECTS)

C2. Renewable Energy 2 ( ECTS)

C3. Modelling of Civil Engineering Systems (5 ECTS)

C4. Facade Engineering (5 ECTS)

C6. Construction Innovation and Research (5 ECTS)


Some of the module options in either semester may be withdrawn from time to time and some new modules may be included, subject to demand. In addition to passing the prescribed examinations, each student must submit a dissertation on an approved topic relating to their chosen specialisation.

Part Time Option:

For candidates taking the course part-time over two years, during the first year, candidates take seven modules, namely: the mandatory modules M1 and M2 along with five of the module options (including at least two from their chosen specialisation) which amounts to 45 ECTS. During the second year, candidates must complete the compulsory M3 module together with three other module options (including at least two from their chosen specialisation) which amounts to 45 ECTS. During the second year, candidates must complete the compulsory M3 module together with three other module options (including at least two from their chosen specialisation) which amounts to another 45 ECTS. By the end of the course, part-time candidates must have completed at least four of their specialisation module options and four of the other options, amounting to a total of 90 ECTS credits. The part time option runs in parallel with the full time course. Full and part time students attend the same lectures which are typically scheduled Monday-Friday, 9-5pm. During the teaching periods, students taking the part time option are typically required to attend 9-12 hours per week during year 1 and 3-6 hours during year 2.

Assessment:

Examination of course modules and completion of a Major Dissertation.

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The Electronic Engineering Department offers a structured Research Masters programme in Electronic Engineering. Read more

Overview

The Electronic Engineering Department offers a structured Research Masters programme in Electronic Engineering. The objective of this programme is to produce high quality graduates with the skills and advanced engineering knowledge to operate as independent researchers and take on leadership roles in research and development both in academia and in industry. Our structured approach to postgraduate education provides students with an excellent foundation in a variety of technical areas that are targeted towards the research area of the student combined with training in research, communication and business skills. We will also encourage engagement with the global research community, in academia and industry, through research visits, internships and attending conferences.

The structured Research Masters in Electronic Engineering is also offered by the Callan Institute. The Institute is focused on the use of information, computing and communications technologies to address challenges arising from our increasingly complex world – our communications and technology driven environment and the impact on our personal lives. The Institute’s area of expertise is in electronic and software systems, wireless communications and in data mining, knowledge extraction and cognition. As a group, we wish to blend focused basic research with a systems perspective that drives cross-disciplinary developments, essential in tackling the new challenges arising from the need for a more sustainable, knowledge-driven society. Innovation, and the transfer of the knowledge gained from our research, is a fundamental principle for the Institute.

A key element of achieving this is the construction of demonstrators and experimental platforms for demonstrating our achievements. We welcome engagement with all companies, local and international and we have demonstrated success in transferring knowledge and technology to assist new startup companies and product development. The Callan Institute provides research students with the skills and advanced engineering knowledge to operate as independent researchers and take on leadership roles in research and development.

Closing date:
Research applications are generally accepted at any time

Course Structure

Students must take a minimum of 10 credits in taught modules (at least 5 in generic/transferable modules and at least 5 in subject specific/advanced specialist modules) from the Structured PhD programme.

Career Options

The programme offered by Electronic Engineering provide students with an excellent foundation for a wide variety of careers. The core of the structured programme is the research programme that will be undertaken by the student. This will allow the student to gain deep insight and expertise in their specific focus area. In engineering, there is normally a strong correspondence between our research areas and career opportunities – be it in industry or continuing in the academic arena.

The taught element of the structured programme broadens the skills and perspective of the student with modules on entrepreneurship, communication and presentation skills. The experience our postgraduate research students will be enhanced by the Department’s excellent and in-depth relationships with industry partners nationally and internationally.

How To Apply

Online application only http://www.pac.ie/maynoothuniversity

PAC Code
MHJ04 Full-time
MHJ05 Part-time

All applicants to Research programmes must contact the Academic they wish to work with before applying to PAC. Please see the ‘Research Interests’ section for a list of academic staff and specialisms within the Department.

The following information should be forwarded to PAC, 1 Courthouse Square, Galway or uploaded to your online application form:

A Personal statement is required as part of the application process. Certified copies of all official transcripts of results for all non-Maynooth University qualifications listed MUST accompany the application. Failure to do so will delay your application being processed. Non-Maynooth University students are asked to provide two academic references and a copy of birth certificate or valid passport.

Applicants may be required to attend for interview as part of the admissions process.

Find information on Scholarships here https://www.maynoothuniversity.ie/study-maynooth/postgraduate-studies/fees-funding-scholarships

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This taught postgraduate programme offers an exciting range of modules in topical electronic sciences combined with a state-of-the-art engineering facility. Read more

Overview

This taught postgraduate programme offers an exciting range of modules in topical electronic sciences combined with a state-of-the-art engineering facility. Most programme modules can be taken online, on campus, or a mixture of both providing great flexibility to learners.

Course Structure

Post Graduate Diploma Programme comprising: 60 Credit Taught Modules (7.5 credits each) 8 Taught Modules completed over two semesters. Approximately 3 hours of lectures per week per module. It may be possible to progress to the ME programme, subject to satisfying certain academic requirements and availability of places on the ME programme.

As module availability may change year on year, applicants should check the Department web site for the most up to date list of modules available for 2016-2017, see web address below:

https://www.maynoothuniversity.ie/electronic-engineering/current-students

Career Options

Engineering graduates will enhance their qualifications and update their knowledge of modern cutting-edge techniques and technology. For science graduates it is an excellent transition into the Electronic Engineering disciplines.

How To Apply

Online application only http://www.pac.ie/maynoothuniversity

PAC Code
MHJ52 Full-time

The following information should be forwarded to PAC, 1 Courthouse Square, Galway or uploaded to your online application form:

Certified copies of all official transcripts of results for all non-Maynooth University qualifications listed MUST accompany the application. Failure to do so will delay your application being processed. non-Maynooth University students are asked to provide two academic references and a copy of birth certificate or valid passport.

Applicants may be required to attend for interview as part of the admissions process.

Applicants who do not hold a degree in Electronics, Electrical, Computer or Telecommunication Engineering should include a complete syllabus describing the content of their primary degree.

Find information on Scholarships here https://www.maynoothuniversity.ie/study-maynooth/postgraduate-studies/fees-funding-scholarships

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There is a great need for suitably qualified engineers to fulfill the existing and future needs of the global smart economy. This course addresses that need by providing an exciting range of topical modules and a state-of-the-art engineering facility. Read more

Overview

There is a great need for suitably qualified engineers to fulfill the existing and future needs of the global smart economy. This course addresses that need by providing an exciting range of topical modules and a state-of-the-art engineering facility. The programme also offers the student a chance to develop their research skills in a full-time three month project.

In the world of increasingly connected things and people, electronic engineers develop the technology that is the interface between the digital and the physical worlds. With the increasing pervasiveness of electronics enhanced things, and the need for ever-present wire-free communication, there is an increasing demand for engineers with experience in wireless communications systems and embedded computing systems.

The internet of things will lead to billions of wirelessly connected devices that will fundamentally change our approach to wireless systems and networks. To address this, there is a need for well qualified graduates who can design solutions based on solid understanding of the wireless environment and electronic hardware.
Similarly, as we continue to embed intelligence in everything from home appliances to cars and wearable sensors to robotic systems, there is growing need for engineers who understand the unique problems of real time application deadlines, resource constrained computing environments, and embedded intelligence.
The ME Electronic Engineering has been designed to provide two specialized module sets that introduce advanced techniques and topical content: one focusing on wireless communications and the other on embedded systems. These are supported by core modules which provide techniques that are widely applied and reusable across a range of engineering applications.
The programme has been designed to have a large project element to allow students to demonstrate their expertise in their chosen specialism. In addition students will be invited to present their work in an open day to invited local industry leaders. A small number of placements may be available for students graduating in 2016 (to be confirmed).

Course Structure

Note: As module availability may change year on year, applicants should check the Department web site for the most up to date list of modules available for 2016-2017, see web address below:

https://www.maynoothuniversity.ie/electronic-engineering/current-students

Career Options

Graduates will have enhanced qualifications and up to date knowledge of modern cutting-edge techniques and technology suitable for a range of electronic and ICT positions in the smart economy.

Graduates of this course are well qualified to work in wireless communications and embedded systems space. Both of these areas are seeing business growth and, despite the demand, both areas are experiencing a shortage of suitably skilled engineers. Therefore this programme will significantly enhance your job prospects in these fields.
The region around Maynooth and the Greater Dublin Region is host to one of the greatest concentrations of ICT companies – ranging from large multinational companies such as Intel, IBM and Google to a very active and strong ecosystem of specialist and start-up companies. Maynooth University is at the heart of this industry and this programme will provide opportunities for students to engage with the community.
As a result of the advanced techniques introduced and the substantial project, this programme also provides a suitable foundation for students who may be considering undertaking further research in the area of the internet of Things, embedded systems and wireless communication.
International students from outside the European Economic Area may also avail of the Third Level Graduate Scheme which allows graduates to remain in Ireland for up to 12 months after graduation to seek employment and if successful to apply for a Work Permit or Green Card Permit.

How To Apply

Online application only http://www.pac.ie/maynoothuniversity

PAC Code
MHJ50 Full-time


The following information should be forwarded to PAC, 1 Courthouse Square, Galway or uploaded to your online application form:

Certified copies of all official transcripts of results for all non-Maynooth University qualifications listed MUST accompany the application. Failure to do so will delay your application being processed. non-Maynooth University students are asked to provide two academic references and a copy of birth certificate or valid passport.

Applicants may be required to attend for interview as part of the admissions process.

Applicants who do not hold a degree in Electronic, Electrical, Computer, or Telecommunications Engineering should include a complete syllabus describing the content of their primary degree.

Find information on Scholarships here https://www.maynoothuniversity.ie/study-maynooth/postgraduate-studies/fees-funding-scholarships

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Trinity College Dublin School of Engineering
Distance from Dublin: 0 miles
The MSc in Bioengineering provides education and training to the next generation of biomedical engineers. Bioengineering is defined as the application of the principles of engineering to advancements in healthcare and medicine. Read more
The MSc in Bioengineering provides education and training to the next generation of biomedical engineers. Bioengineering is defined as the application of the principles of engineering to advancements in healthcare and medicine. Some of the most exciting work in biomedical engineering today takes place at the intersection of disciplines where the biological, physical and digital worlds intersect and have an impact on the human condition.

Students of the MSc in Bioengineering in Trinity College Dublin take lectures from experts in a variety of biomedical engineering subjects and carry out research in world class, state of the art research laboratories and facilities.

Students of the MSc in Bioengineering have the opportunity to specialise in one of three key research themes - neural engineering, tissue engineering and medical device design.

The MSc in Bioengineering with specialisation in Neural Engineering aims to provide students with the education needed to undertake neural engineering in research and clinical environments. Students receive a focused education on the key subjects of neural engineering such as Neural Signal Analysis, Implantable Neural Systems and Neuroimaging Technologies. Neural engineering has generated considerable scientific and clinical opportunities, not only for the development of interfaces between the brain and computers but also for its mostly untapped potential to help understand neurological disorders such as Parkinson's Disease or psychiatric disorders such as schizophrenia.

The MSc in Bioengineering with specialisation in Medical Device Design is designed to bring together clinicians, researchers and the medical device industry to produce new solutions for clinical needs. The field of medical device research is a fast moving area which can offer students a rewarding career in the global medical device market. Students will gain a specific education of the key topics in medical device design process and a knowledge of medical device regulation.

The MSc in Bioengineering with specialisation in Tissue Engineering provides students with an understanding of stem cells, animal/human cell culture processes, and strategies to regenerate or repair damaged tissues. This exiting multidisciplinary field of research holds significant potential in the treatment of many diseases and disorders.

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Graduates will extend their engineering skills and technical knowledge to work in partnership with healthcare clinicians and other medical experts, acquiring grounding in the culture and ethics of the healthcare profession. Read more

Overview

Graduates will extend their engineering skills and technical knowledge to work in partnership with healthcare clinicians and other medical experts, acquiring grounding in the culture and ethics of the healthcare profession. This is a new programme with a novel cross-institutional approach, sharing modules in Dublin City University, the Royal College of Surgeons Ireland and Maynooth University.

Course Structure

Module themes include medical sciences, biomedical engineering, advanced control theory, computer vision, healthcare ethics, law, risk management and signal modelling and compression.

Career Options

This programme will empower graduates to be the next generation of innovators and entrepreneurs in the healthcare technologies sector. Within healthcare services, graduates will find work in software and engineering of healthcare systems and in developing new medical and clinical devices.

Find information on Scholarships here https://www.maynoothuniversity.ie/study-maynooth/postgraduate-studies/fees-funding-scholarships

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Trinity College Dublin School of Medicine
Distance from Dublin: 0 miles
Neuroscience is a discipline concerned with the scientific study of the nervous system in health and disease. Research in the neurosciences is of considerable clinical impact considering the debilitating and costly effects of neurological and psychiatric disease. Read more
Neuroscience is a discipline concerned with the scientific study of the nervous system in health and disease. Research in the neurosciences is of considerable clinical impact considering the debilitating and costly effects of neurological and psychiatric disease. In this regard, a major goal of modern neuroscience research is to elucidate the underlying causes (genetic or environmental) of major brain diseases, and to produce more effective treatments for major psychiatric disorders such as schizophrenia and depression, and neurological disorders such as multiple sclerosis, Parkinson's disease, Alzheimer's disease, motor neurone disease and epilepsy. Improved treatment strategies for brain disorders relies entirely on increased understanding gained from research which integrates molecular, cellular and clinical aspects of disease. In this regard it is clear that interdisciplinary approaches are necessary to understand the complex processes which underlie brain function in health and disease. This interdisciplinary philosophy is adopted in the delivery of our M.Sc. programme in Neuroscience, which is underpinned by the diverse research expertise available within Trinity College Institute of Neuroscience (TCIN).

Course Content:

This one-year M.Sc. course aims to provide a multidisciplinary training in the neurosciences, in topics ranging from molecular to behavioural. The course is ideal for students wishing to extend their specialised knowledge, and for those wishing to convert from their original degree discipline. The programme will equip participants with the skills necessary to progress into a career in biomedical, pharmaceutical or neuropsychological research. Instruction for the course consists of approximately 200 contact hours over two academic Terms to include lectures, laboratory practical sessions, journal club workshops and student-based seminars. Modules are assessed by a mixture of in course assessment and written examinations.

Specialist modules covered include:

Form and Function of the Nervous System, Biochemical Basis of Neuropharmacology, Neuropharmacology, Drug Development, Advanced Neuroimmunology, Experimental Neuroscience, Scientific Literature Skills, Neural Engineering, Neuroimaging Technology, Current Topics in Neuroscience, Cellular Neuroscience, and Research Skills.

The third Term consists of a research project on novel aspects of Neuroscience. Trinity College Institute of Neuroscience is a dynamic research environment with research spanning molecular/cellular neuroscience to clinical/translational neuroscience. Projects across these research areas may be undertaken in consultation with an expert supervisor. For students interested in a project in cellular/molecular neuroscience a range of cellular techniques such as tissue culture, immunocytochemistry, western immunobloting and immunoprecipitation, confocal microscopy, Immunoassays, flow cytometry, Real-time PCR, and high performance liquid chromatography are available. In addition, some projects will involve assessing behavioural, electrophysiological and neurochemical endpoints using in vivo models of neurological and psychiatric disease. For those with an interest in experimentation on human subjects, projects will be offered utilizing techniques such as functional magnetic resonance imaging and neurocognitive testing. A selection of national and international projects is also available, which involve collaboration with other academic institutes and pharmaceutical companies, in Ireland, UK and across Europe.

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University College Dublin College of Science
Distance from Dublin: 0 miles
Study petroleum and subsurface geoscience in Ireland and benefit from a modern interdisciplinary training delivered by leading researchers and industry specialists at University College Dublin. Read more

Study petroleum and subsurface geoscience in Ireland and benefit from a modern interdisciplinary training delivered by leading researchers and industry specialists at University College Dublin.

UCD School of Earth Sciences provides a one-year full-time Petroleum Geoscience MSc. The course offers bright and motivated geoscience graduates a vocational training in the range of technical fields associated with hydrocarbon exploration and production, as a prelude to a career in the petroleum industry or to further studies at PhD level.

 

The UCD training experience:

·        Covers all aspects of exploration, appraisal and development geoscience from pore to basin scale.

·        Involves substantial field-based instruction (23 days) in classic outcrop locations including the Clare Basin, Ireland; Bristol Channel, UK; Pyrenees, Spain.

·        Provides first-hand experience of typical industry workflows, experience with key industry software and a dedicated workstation for each student during the course.

·        Involves problem-based learning drawing on a wide range of geophysical, subsurface, outcrop and ‘behind-outcrop’ datasets.

·        Includes a three-month applied research project and possible industry placement.

 Scholarships Available

Students accepted on to the course can apply for the Woodside Energy Masters Scholarship in Petroleum Geoscience (€15,000) and MSc Scholarship Opportunities in Petroleum-Related Courses from the Department of Communications, Climate Action and Environment (up to €12,000). Please see here for further details.

Career opportunities

Graduates from the course will be equipped with all the necessary technical and transferable skills for a career in the petroleum industry or further studies at PhD level. Past students have found employment with exploration and production companies (including Shell, Petronas and Providence). Ireland is an EU country, and has a 24-month stay-back option allowing non-EU MSc graduates to remain in Ireland, working or seeking employment, for two years following graduation.

Course Content

Semester 1 covers modules in Petroleum Systems, Basin Analysis and Modelling, Seismic Techniques, Petrophysics, Depositional Systems and Structural Geology.

Semester 2 then focusses on Exploration Geology and Production Geoscience with team-based exercises mimicking industry asset-team projects. Geological field excursions are a key component of the course with three trips to see classic outcrops of the Clare Basin (western Ireland), Bristol Channel and Wessex Basins (southern England) and the Ebro Basin (Pyrenees, Spain).

During the final semester students undertake a three-month independent research project on an exploration or development related theme with opportunities for summer internships working on company data. 

 

Staff

The course builds on significant in-house research expertise in frontier exploration, rift and hyper-extended basin evolution, reservoir sedimentology, geophysical imaging techniques, fault analysis and reservoir and fluid flow modelling. Teaching is delivered by highly experienced academic staff, many of who have previously worked within industry and are recognised international leaders in a variety of petroleum geoscience disciplines.

 

UCD School of Earth Sciences

The UCD School of Earth Sciences has an internationally recognised reputation for excellence in teaching and research. It is the lead participant and host for the Irish Centre for Research in Applied Geosciences (iCRAG) which conducts research in hydrocarbons, geophysics, 3D modelling and marine geoscience, as well as in geochemistry, geophysics, groundwater and raw materials.

Founded in 1854, University College Dublin is Ireland’s Global University with 235,000 alumni across 165 countries. The university is ranked number 1 in Ireland for Earth & Marine Sciences (QS World University Subject Rankings 2017‌). 

 

How to Apply?

Application can be made via the UCD webpage here. There is a rolling deadline for this course until such time as all places have been filled; therefore early application is advised. Course entry will generally require a minimum 2.1 Honours degree or equivalent in Geology, Geoscience, Earth Science, Geophysics or a cognate discipline but relevant industrial experience will also be taken into account.

Click here to visit the MSc Petroleum Geoscience page on the University College Dublin website to find out more and apply!



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