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Masters Degrees (Remote Sensing And Gis)

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This highly interdisciplinary Masters course will expose you to the cutting edge of understanding in Remote Sensing and GIS. Read more

About the course

This highly interdisciplinary Masters course will expose you to the cutting edge of understanding in Remote Sensing and GIS. Administered by the Department of Geography and Earth Sciences, but accessing interdepartmental expertise, this course will provide you with both a strong theoretical and conceptual background and vocational training in Remote Sensing and GIS. You will be taught by lecturers who are active researchers working at the cutting edge of their disciplines, and will benefit from being taught the latest geographical theories and techniques. Graduates of this course progress to a wide range of employment positions in both the industry and academia.

Why study MSc Remote Sensing and GIS at Aberystwyth University?

• Study in a high quality outdoor physical environment and multi-national community

• The Department of Geography and Earth Science is top in Wales, with 78% of its research classified as either ‘world leading’ or ‘internationally excellent’ - REF 2014

• Aberystwyth DGES is in the top ten of UK Geography departments with regards to research power, which provides a measure of the quality of research, as well as of the number of staff undertaking research within the department

• DGES receives funding from organisations such as United Nations, WHO and the European Research Council

• Students have access to a dedicated computer laboratory for research in GIS and remote sensing which is fully equipped with the latest software platforms.

• Masters students have the opportunity to participate in significant meetings and conferences, such as the Remote Sensing and Photogrammetry Society Annual Conference

• This course has a strong vocational aspect and offers an integration of cutting-edge theory and practical application

• Remote Sensing Masters are offered through the collaboration of three world-class institutes at the university, giving students access to this collective expertise and experience as well as to superb departmental facilities

Course structure and content

In the first two semesters you will undertake a number of core modules, worth a total of 120 credits. This includes modules on Remote Sensing Issues and the Fundamentals of Remote Sensing and GIS, alongside modules on Advanced Research Skills, Skills in Remote Sensing, and Work Experience in Geographical Information Systems/Remote Sensing.

In the third semester, students will undertake the independent research component of the course, and will complete a 60 credit Research Dissertation in Geographical Information Systems/Remote Sensing.

Core modules:

Advanced Research Skills 1: science communication and data analysis
Advanced Research Skills 2: research design and data acquisition
Fundamentals of Remote Sensing and GIS
Remote Sensing Issues
Research Dissertation in Geographical Information Systems/Remote Sensing
Skills in Remote Sensing
Work Experience in Geographical Information Systems/Remote Sensing

Contact Time

Approximately 8-10 hours a week in the first two semesters. During semester three you will arrange your level of contact time with your assigned supervisor.

Assessment

The taught part of the course (Part 1) is delivered and assessed through lectures, student seminars, practical exercises, case studies, course work and formal examinations. The subsequent successful submission of your research dissertation (Part 2) leads to the award of MSc.

Careers

Our alumni have taken positions with UK and international government bodies, private enterprises and leading research establishments. This MSc in Remote Sensing and GIS will open up a diverse range of careers for its students.

By studying this course, you will be a highly competent contributor to any work relating to:

• climate change
• human impacts on terrestrial ecosystems
• glaciology
• hydrology
• forestry
• coastal change
• carbon cycle science
• biodiversity
• consultancy

Skills through this programme you will enhance your:

• Presentation and communication skills
• Research and study skills
• Field expertise and data collection skills
• Critical analysis and evaluation
• Academic and practical knowledge
• Understanding of scientific processes and advanced technical tools
• Confidence with GIS and remote sensing software systems, technologies and programming languages
• Project management skills

Field Trip

As a highly practical Masters course, it offers also the opportunity for students to gain hands-on experience in the use of field equipment and the collection of ground truth data to support the interpretation and analysis of remote sensing and GIS datasets. This will allow you to covert the academic theory of research and data collection into the proven know-how of experience.

Read less
The Remote Sensing and Geographic Information Systems Master of Science Program at UAE University is the first of its kind in the region. Read more
The Remote Sensing and Geographic Information Systems Master of Science Program at UAE University is the first of its kind in the region. It is designed to provide you with the theoretical background and practical skills to start or advance your career in remote sensing and GIS. Our curriculum has been specifically developed to suit students from diverse academic backgrounds and professional occupations. No prior remote sensing or GIS experience is required to excel in the program. (Total credit hours is 30 for theses and 34 for no-theses). For more details on this program, click here: http://www.chss.uaeu.ac.ae/en/rsgis/index.shtml

Program Objectives

‌•Discuss the theoretical background and practical skills for a career in Remote Sensing or GIS.
‌•Identify the recent advances in Remote Sensing, GIS and GNSS relating that with scientific research and its role in the society.
‌•Apply analytical and spatial thinking skills needed for successful use of remote sensing and GIS in solving spatial problems.

Program Learning Outcomes

‌•Upon successful completion of this program, students will be able to:
‌•Discuss the theoretical principles of remote sensing and GIS and their role in modeling and solving environmental, urban and social issues.
‌•Recognize advanced analysis and interpretation skills needed in remote sensing and GIS.
‌•Apply practical remote sensing and GIS procedures for assessing and solving environmental, urban, geologic and societal problems.
‌•Communicate remote sensing and GIS related ideas and results both orally and in writing.
‌•Develop remote sensing and GIS project management, team work and leadership skills.
‌•Produce scientific research related to the applications of remote sensing and GIS.

Program Structure

‌•Required Courses (18.00 hours)
‌•Principles of Remote Sensing
‌•Fundamentals of GIS
‌•Digital Image Processing in RS
‌•Spatial Analysis Using GIS
‌•Local & Web Based Services GIS
‌•Database Management Systems
‌•Seminar on Management Issues in RS&GIS
‌•Geo-Statistics

Elective Courses - 6CH for Thesis option and 12CH for Non-Thesis option (12.00 hours)

‌•Coastal Management
‌•Spatial Data Collection
‌•Advanced Remote Sensing
‌•Satellite Positioning
‌•Software Engineering for GIS
‌•Selected Topics
‌•Project Management
‌•Transport Applications of GIS
‌•Urban and Environmental Applications of Remote sensing and GIS
‌•Remote Sensing and GIS for Petroleum

Thesis or Capstone

Required Courses (Min CH:4 and Max CH:6) (6.00 hours)

‌•Capstone
‌•Thesis

Read less
Jointly run by the University of Salford and Manchester Metropolitan University, UNIGIS is a three year programme, with the first two years comprising taught units, and a final year to complete a dissertation. Read more
Jointly run by the University of Salford and Manchester Metropolitan University, UNIGIS is a three year programme, with the first two years comprising taught units, and a final year to complete a dissertation.

The Geographical Information Systems (GIS) pathway aims to provide students with a broadly based postgraduate qualification in the field of GIS. Importantly, it offers students choice in the selection of their application area (with a range of units available). The pathway helps students to develop an in-depth knowledge of the issues involved in applying GIS to solving spatial problems with an understanding of the constraints imposed by the application area(s) and the interactions between data, methods, people, and technology.

The first year of study (equivalent to PgC in GIS) involves three core units:

Foundations of GIS -
This unit provides an introduction to Geographical Information Systems (GIS) from conceptual, theoretical, and practical perspectives. Students will learn about the different methods used in geographic encoding and spatial data modelling before employing such datasets in a software environment. The unit concludes with a review of contemporary issues in GIS. Key elements of the curriculum include: Origins of GIS; Representation, Modelling and Geovisualisation; Software Skills; GIS: Today and Tomorrow.

Spatial Data Infrastructures -
Spatial data is key to any GIS project. This unit investigates how spatial data is sourced and also aims to provide students with the requisite knowledge and practical skills to identify and evaluate, against recognised national and international quality standards, spatial data for use in GI-based projects. Key elements of the curriculum include: Spatial Data; Data Standards and Infrastructures; Sourcing Spatial Data; Data Quality; Evaluating Fitness for Purpose.

Databases -
GIS are fundamentally information systems which provide specialist facilities for the creation, storage and manipulation of spatial and attribute data. Much of the functionality offered by GIS software is shared with conventional database software. Indeed, most GIS - at their core - have a conventional database management system (DBMS) around which spatial functionality has been wrapped. It is essential that GIS specialists have a thorough understanding of database theory, design and implementation. Key elements of the curriculum include: Why Databases?; Relational Databases; Critiquing Relational Databases; Implementation and Interrogation.

The second year of study (equivalent to the PgD in GIS) involves one core and two elective units:

Methods in GIS (core) -
The concepts, theories and methods behind the application of GIS are examined in detail. The unit explores research design, data analysis and interpretation and presentation. Special focus is given to methods of spatial analysis and their implementation using GIS software. Key elements of the curriculum include: Research Design; Qualitative and Quantitative Techniques; Fundamentals of Spatial Analysis; Recent Advances in Spatial Analysis.

Two elective units are chosen from:

Distributed GIS -
This unit discusses the most vibrant and rapidly developing area of geospatial technology. Desktop GIS packages are increasingly looking like the specialist packages for serious users that, in truth, they always were. Now, for the very large majority of people who really only want to look at the location of things, we can offer WebGIS systems that deliver what they need directly into their web-browsers. This unit explains the concepts and methods of Internet GIS, development and its applications. Key elements of the curriculum include: From Desktop to Distributed GI Services; Technologies in Distributed GIS; Building the GeoWeb; Tutorials.

Environmental Applications of GIS -
GIS and related technologies such as remote sensing have been widely employed in environmental applications for almost forty years. The advent of satellite remote sensing allowed reliable synoptic data to be available to scientists who have developed numerous models. This together with the decision-making tools and spatially-referenced framework of GIS offers significant support to researchers investigating different environmental phenomena. Data from remote sensing, GPS and other sources provide a valuable input into GIS models for environmental monitoring, modelling and prediction. This unit introduces case study examples of how GIS and related technologies can be used in environmental applications and seeks to critically evaluate their potential value. Key elements of the curriculum include: Applicability and benefits of GIS; Practical Problem Solving and Evaluation using techniques such as Terrain Analysis, Multicriteria Evaluation, Landscape Metrics etc.

Remote Sensing for GIS Applications -
This unit provides students with an introduction to the principles of remote sensing and explores its role in data gathering/information extraction for GIS applications. Key elements of the curriculum include: Principles of Remote Sensing; Satellite Systems; Quantitative Data; GIS Integration.

Social Applications of GIS -
Where an investigation into social, economic, political, and cultural characteristics and phenomena is required, GIS provides a powerful tool. For social applications such as crime mapping and healthcare resource management, GIS can be used effectively to help model, monitor and enable (spatial) decision making based on existing criteria. Social systems are often highly organised and complex - GIS allows this complexity to be effectively distilled into an abstraction representing the most causally related behaviour. This unit introduces case tudy examples of how GIS can be used in social applications and seeks to critically evaluate their potential value. Key elements of the curriculum include: Exemplars of GIS use in Social Applications, e.g. health, crime and urban transportation; Evaluation of the Benefits of GIS; Practical Problem Solving techniques.

Spatial Databases and Programming -
The importance of programming and GIS as part of a larger system, which involves spatial databases, software development and programme coding, has been increasingly realised in GIS practice. This unit aims to develop your geospatial skills in building enterprise oriented databases (e.g. geo-database and server) and creating application-oriented GIS models through programming. This unit also helps you to critically evaluate the issues and trends in enterprise GIS and GIS application development from the perspective of software engineering and geospatial technology. Key elements of the curriculum include: Spatial Databases; Design and Quality; Programming; Tutorials.

The final year of study (the MSc stage) requires the student to design and undertake a substantial and unique independent research project, to be presented as an academic dissertation (max. of 15,000 words).

Read less
Jointly run by the University of Salford and Manchester Metropolitan University, UNIGIS is a three year programme, with the first two years comprising taught units, and a final year to complete a dissertation. Read more
Jointly run by the University of Salford and Manchester Metropolitan University, UNIGIS is a three year programme, with the first two years comprising taught units, and a final year to complete a dissertation.

The Geographical Information Systems (GIS) pathway aims to provide students with a broadly based postgraduate qualification in the field of GIS. Importantly, it offers students choice in the selection of their application area (with a range of units available). The pathway helps students to develop an in-depth knowledge of the issues involved in applying GIS to solving spatial problems with an understanding of the constraints imposed by the application area(s) and the interactions between data, methods, people, and technology.

The first year of study (equivalent to PgC in GIS) involves three core units:

Foundations of GIS -
This unit provides an introduction to Geographical Information Systems (GIS) from conceptual, theoretical, and practical perspectives. Students will learn about the different methods used in geographic encoding and spatial data modelling before employing such datasets in a software environment. The unit concludes with a review of contemporary issues in GIS. Key elements of the curriculum include: Origins of GIS; Representation, Modelling and Geovisualisation; Software Skills; GIS: Today and Tomorrow.

Spatial Data Infrastructures -
Spatial data is key to any GIS project. This unit investigates how spatial data is sourced and also aims to provide students with the requisite knowledge and practical skills to identify and evaluate, against recognised national and international quality standards, spatial data for use in GI-based projects. Key elements of the curriculum include: Spatial Data; Data Standards and Infrastructures; Sourcing Spatial Data; Data Quality; Evaluating Fitness for Purpose.

Databases -
GIS are fundamentally information systems which provide specialist facilities for the creation, storage and manipulation of spatial and attribute data. Much of the functionality offered by GIS software is shared with conventional database software. Indeed, most GIS - at their core - have a conventional database management system (DBMS) around which spatial functionality has been wrapped. It is essential that GIS specialists have a thorough understanding of database theory, design and implementation. Key elements of the curriculum include: Why Databases?; Relational Databases; Critiquing Relational Databases; Implementation and Interrogation.

The second year of study (equivalent to the PgD in GIS) involves one core and two elective units:

Methods in GIS (core) -
The concepts, theories and methods behind the application of GIS are examined in detail. The unit explores research design, data analysis and interpretation and presentation. Special focus is given to methods of spatial analysis and their implementation using GIS software. Key elements of the curriculum include: Research Design; Qualitative and Quantitative Techniques; Fundamentals of Spatial Analysis; Recent Advances in Spatial Analysis.

Two elective units are chosen from:

Distributed GIS -
This unit discusses the most vibrant and rapidly developing area of geospatial technology. Desktop GIS packages are increasingly looking like the specialist packages for serious users that, in truth, they always were. Now, for the very large majority of people who really only want to look at the location of things, we can offer WebGIS systems that deliver what they need directly into their web-browsers. This unit explains the concepts and methods of Internet GIS, development and its applications. Key elements of the curriculum include: From Desktop to Distributed GI Services; Technologies in Distributed GIS; Building the GeoWeb; Tutorials.

Environmental Applications of GIS -
GIS and related technologies such as remote sensing have been widely employed in environmental applications for almost forty years. The advent of satellite remote sensing allowed reliable synoptic data to be available to scientists who have developed numerous models. This together with the decision-making tools and spatially-referenced framework of GIS offers significant support to researchers investigating different environmental phenomena. Data from remote sensing, GPS and other sources provide a valuable input into GIS models for environmental monitoring, modelling and prediction. This unit introduces case study examples of how GIS and related technologies can be used in environmental applications and seeks to critically evaluate their potential value. Key elements of the curriculum include: Applicability and benefits of GIS; Practical Problem Solving and Evaluation using techniques such as Terrain Analysis, Multicriteria Evaluation, Landscape Metrics etc.

Remote Sensing for GIS Applications -
This unit provides students with an introduction to the principles of remote sensing and explores its role in data gathering/information extraction for GIS applications. Key elements of the curriculum include: Principles of Remote Sensing; Satellite Systems; Quantitative Data; GIS Integration.

Social Applications of GIS -
Where an investigation into social, economic, political, and cultural characteristics and phenomena is required, GIS provides a powerful tool. For social applications such as crime mapping and healthcare resource management, GIS can be used effectively to help model, monitor and enable (spatial) decision making based on existing criteria. Social systems are often highly organised and complex - GIS allows this complexity to be effectively distilled into an abstraction representing the most causally related behaviour. This unit introduces case tudy examples of how GIS can be used in social applications and seeks to critically evaluate their potential value. Key elements of the curriculum include: Exemplars of GIS use in Social Applications, e.g. health, crime and urban transportation; Evaluation of the Benefits of GIS; Practical Problem Solving techniques.

Spatial Databases and Programming -
The importance of programming and GIS as part of a larger system, which involves spatial databases, software development and programme coding, has been increasingly realised in GIS practice. This unit aims to develop your geospatial skills in building enterprise oriented databases (e.g. geo-database and server) and creating application-oriented GIS models through programming. This unit also helps you to critically evaluate the issues and trends in enterprise GIS and GIS application development from the perspective of software engineering and geospatial technology. Key elements of the curriculum include: Spatial Databases; Design and Quality; Programming; Tutorials.

The final year of study (the MSc stage) requires the student to design and undertake a substantial and unique independent research project, to be presented as an academic dissertation (max. of 15,000 words).

Read less
Jointly run by the University of Salford and Manchester Metropolitan University, UNIGIS is a three year programme, with the first two years comprising taught units, and a final year to complete a dissertation. Read more
Jointly run by the University of Salford and Manchester Metropolitan University, UNIGIS is a three year programme, with the first two years comprising taught units, and a final year to complete a dissertation.

The Applied Geographical Information Systems (Applied GIS) pathway aims to develop students in-depth knowledge of GIS-based methods for monitoring the social/human and natural environments. It will also help develop the student's understanding of the spatial interaction of social/human and environmental factors. Importantly, it seeks to increase the student's capability to extract social/human and/or environmental information from a variety of sources, such as remotely sensed data, and to undertake analysis and assessment using appropriate methods within a GIS framework.

The first year of study (equivalent to PgC in GIS) involves three core units:

Foundations of GIS -
This unit provides an introduction to Geographical Information Systems (GIS) from conceptual, theoretical, and practical perspectives. Students will learn about the different methods used in geographic encoding and spatial data modelling before employing such datasets in a software environment. The unit concludes with a review of contemporary issues in GIS. Key elements of the curriculum include: Origins of GIS; Representation, Modelling and Geovisualisation; Software Skills; GIS: Today and Tomorrow.

Spatial Data Infrastructures -
Spatial data is key to any GIS project. This unit investigates how spatial data is sourced and also aims to provide students with the requisite knowledge and practical skills to identify and evaluate, against recognised national and international quality standards, spatial data for use in GI-based projects. Key elements of the curriculum include: Spatial Data; Data Standards and Infrastructures; Sourcing Spatial Data; Data Quality; Evaluating Fitness for Purpose.

Databases -
GIS are fundamentally information systems which provide specialist facilities for the creation, storage and manipulation of spatial and attribute data. Much of the functionality offered by GIS software is shared with conventional database software. Indeed, most GIS - at their core - have a conventional database management system (DBMS) around which spatial functionality has been wrapped. It is essential that GIS specialists have a thorough understanding of database theory, design and implementation. Key elements of the curriculum include: Why Databases?; Relational Databases; Critiquing Relational Databases; Implementation and Interrogation.

The second year of study (equivalent to the PgD in GIS) involves one core and two elective units:

Methods in GIS (core) -
The concepts, theories and methods behind the application of GIS are examined in detail. The unit explores research design, data analysis and interpretation and presentation. Special focus is given to methods of spatial analysis and their implementation using GIS software. Key elements of the curriculum include: Research Design; Qualitative and Quantitative Techniques; Fundamentals of Spatial Analysis; Recent Advances in Spatial Analysis.

Two elective units are chosen from:

Environmental Applications of GIS -
GIS and related technologies such as remote sensing have been widely employed in environmental applications for almost forty years. The advent of satellite remote sensing allowed reliable synoptic data to be available to scientists who have developed numerous models. This together with the decision-making tools and spatially-referenced framework of GIS offers significant support to researchers investigating different environmental phenomena. Data from remote sensing, GPS and other sources provide a valuable input into GIS models for environmental monitoring, modelling and prediction. This unit introduces case study examples of how GIS and related technologies can be used in environmental applications and seeks to critically evaluate their potential value. Key elements of the curriculum include: Applicability and benefits of GIS; Practical Problem Solving and Evaluation using techniques such as Terrain Analysis, Multicriteria Evaluation, Landscape Metrics etc.

Remote Sensing for GIS Applications -
This unit provides students with an introduction to the principles of remote sensing and explores its role in data gathering/information extraction for GIS applications. Key elements of the curriculum include: Principles of Remote Sensing; Satellite Systems; Quantitative Data; GIS Integration.

Social Applications of GIS -
Where an investigation into social, economic, political, and cultural characteristics and phenomena is required, GIS provides a powerful tool. For social applications such as crime mapping and healthcare resource management, GIS can be used effectively to help model, monitor and enable (spatial) decision making based on existing criteria. Social systems are often highly organised and complex - GIS allows this complexity to be effectively distilled into an abstraction representing the most causally related behaviour. This unit introduces case tudy examples of how GIS can be used in social applications and seeks to critically evaluate their potential value. Key elements of the curriculum include: Exemplars of GIS use in Social Applications, e.g. health, crime and urban transportation; Evaluation of the Benefits of GIS; Practical Problem Solving techniques.

The final year of study (the MSc stage) requires the student to design and undertake a substantial and unique independent research project, to be presented as an academic dissertation (max. of 15,000 words).

Read less
Given the wider development of Citizen GIS and an increased public awareness and knowledge of the power and value of spatial data, vastly increased amounts of such data from different sources are now available to researchers. Read more

Overview

Given the wider development of Citizen GIS and an increased public awareness and knowledge of the power and value of spatial data, vastly increased amounts of such data from different sources are now available to researchers. However, in order to turn these data into useful information, they must be efficiently managed, processed and analysed before being displayed in a comprehensible format. Geographical Information Systems and the associated field of Remote Sensing greatly aid us in such tasks. The course is equally split between both parts - GIS and Remote Sensing - with four core module introducing the theory and practice of both subject at an introductory and advanced level. Geographical Information Systems or GIS as they are better known, are widely used in a wide variety of subject fields across the physical and social sciences and even in the humanities, with applicability in everything from archaeology and astronomy to geomorphology and globalisation to soil science and social planning. Remote Sensing – the analysis and interpretation of aerial and satellite imagery – has transformed the manner in which we view the Earth. The synoptic view of the Earth that it has given us has greatly improved our understanding of atmospheric and oceanic processes, sustained environmental management and the interaction of humans with the natural world. It is now a standard research tool in many fields such as geology, geography, pollution control, agriculture and climatology. Additional optional modules in Programming, Spatial Databases and Remote Sensing of the Subsurface are also available to students who want to develop the technical side more fully, though the course has a strong applied flavour throughout. In addition, all students complete a work placement in the Summer months which allows them to gain valuable practical experience to test and develop the skills learnt across the course.

Aims of the Course:
- To provide highly qualified, motivated graduates who have been trained in Geographical Information Systems, Remote Sensing and Digital Image Processing and who can apply the information technology skills they obtain.

- To produce marketable graduates who will make significant contributions to GIS and RS application areas including; industry, government, academia, the community and voluntary sector and other public and private bodies.

- To provide an understanding of Geographical Information Systems and Remote Sensing, the technology involved and its applications for specific investigations.

Course Structure

The course consists of 6 modules, 5 of which are compulsory. Two of these cover the theoretical concepts underpinning GIS and Remote Sensing. Two other modules involve gaining the theoretical and technical skills necessary to become proficient in the management and analysis of spatial data. A fifth module involves an assessed work placement during the summer months. Modules include work placement, theoretical remote sensing, digital image processing and advanced remote sensing, introductory GIS systems and science and GIS in practice with optional programming, spatial databases and geophysics modules.

Career Options

The MSc in GIS and Remote Sensing is first and foremost a course to skill students for work in a wide range of employment areas. These include a wide range of government and semi-state agencies, local authorities and the voluntary sector, especially in areas associated with the environment and planning. In addition, graduates have worked in a wide range of private sector organisations and businesses, where the ability to work with and critically managed big spatial data is increasingly valued. Successful students have also proceeded to PhD level research and gained employment in academia.

How To Apply

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

PAC Code
MHN58
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.

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

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Why Study with Us?. Join an established course with excellent reputation and feedback. Get support and advice from experienced lecturers, tutors, librarians, e-learning and IT staff. Read more

Why Study with Us?

  • Join an established course with excellent reputation and feedback.
  • Get support and advice from experienced lecturers, tutors, librarians, e-learning and IT staff.
  • Access a wide range of online resources such as e-books, digital lectures and podcasts, discussion boards and video-conference tools all within a dedicated e-learning platform.
  • Develop and improve your employability, professional and academic skills and gain extensive hands-on practice with key software.
  • Obtain free student copies of GIS, remote sensing and statistical software.
  • Be assessed entirely by coursework – there are no formal examinations.
  • Pay your fees by instalments.
  • With a fully online course, you can study from almost anywhere and there is no need to travel to classes.
  • You can enrol to study part-time or full-time and choose the times you study each week to suit yourself.
  • Substantial relevant work experience may be accepted in place of standard entry requirements.
  • Study for a Master’s degree, a PG Diploma, PG Certificate or enrol for individual modules.

Why Study GIS?

The benefits of GIS are increasingly recognised within government, business, education and the voluntary sector, and the applications of geospatial data technologies are steadily growing. Using GIS, it is possible to combine data from a broad range of sources and in a variety of formats, such as paper and digital maps, routinely collected administrative data, censuses and population surveys, satellite imagery, aerial photography, GPS tracking and surveys, LiDAR and crowd-sourcing. The uses of GIS are very diverse, and include mapping, spatial analysis, planning and decision-making within a wide range of disciplines and sectors – common examples include environmental management and conservation, resource management, emergency service planning and humanitarian assistance, health care provision, land use planning and urban development, the utilities, transport, geo-demographics, mineral extraction and retail analysis. Increasing uptake of GIS and associated techniques and technologies means that there is a growing demand for qualified personnel who have the skills to manage spatial data effectively. Strong industry links help ensure that our course is relevant to the needs of employers.

Course Summary

The course is designed to help people gain understanding and experience of GIS concepts, functionality and applications. Content focuses on the representation, acquisition, management, manipulation and analysis of spatial data. It also includes modules on remote sensing, spatial databases, web-GIS and GIS in the commercial environment. Additional optional modules include GIS work experience, spatial analysis and modelling, GIS for environmental management, and Customising GIS.

In addition to acquiring substantial theoretical knowledge of the subject, you will gain extensive practical experience using a variety of software, focusing primarily on ArcGIS but also including ERDAS Imagine, PostgreSQL, PostGIS, MySQL, OpenLayers, Geoserver, QGIS, Excel, SPSS and a number of GIS extensions and plug-ins. One of the core modules provides experience of web-based programming languages such as HTML, CSS and JavaScript, whilst an optional module in customising GIS applications introduces Esri’s ModelBuilder and the Python programming language.

After successfully completing the PgDip modules, you may transfer to the Masters part of the programme. This requires the completion of a substantial independent research project, written in the form of a research journal article (which may, with agreement of your supervisor, be submitted for publication).

As part of the course resources, you will be provided with a free copy of ArcGIS, the remote sensing package ERDAS Imagine, and the data analysis package SPSS.

Work placement / study abroad

Gaining experience in the workplace and being able to apply academic learning within that context is very beneficial for students preparing to enter the workplace, so we offer the option of undertaking a GIS Work Experience module to full-time students. This entails working within an organisation for 2.5 days per week over a six-week period. Placements (which are unpaid) may be in the public sector, private companies, charities or education. Students who take this module find it extremely helpful for both their professional and personal development and refer particularly to benefits such as broadening their technical skills, gaining experience of team-working and of independent problem-solving, improved confidence and of learning about the geospatial industry and employment through exposure to real-world applications of GIS.

Part-time students who are in GI-related employment may opt to undertake the GIS Workplace Project.

Career options

GIS and geospatial technologies underpin a rapidly growing, multi-billion dollar industry, and are becoming increasingly mainstream within both the public and private sectors, resulting in a need for graduates who have a combination of theoretical knowledge and practical skills.

Graduates of this course have secured employment in a variety of GIS-related roles worldwide, in GIS positions including technicians, analysts, scientists, surveyors, data specialists, mapping officers, consultants, project managers, development, sales and marketing, customer support, GIS training, lecturing and research (including funded PhD projects). The breadth of potential uses of GIS ensures a great diversity of job opportunities; for example, our graduates have found employment with mapping agencies, GIS and SatNav companies, environmental consultancies, ecological and marine resource management and environmental agencies, renewable energy companies, forestry, fisheries, town planning departments, heritage agencies, health and emergency services, housing authorities, local government, aid agencies, countryside recreation, rural development, retail analysis, utilities and infrastructure, Further and Higher Education, mining and mineral exploitation and the oil industry, among others. Knowledge and understanding of geo-spatial data is also increasingly required in a variety of jobs outside of the GI profession, making a GIS qualification a valuable asset enhancing employability in a range of fields.



Read less
Summary. This innovative, interdisciplinary programme combines the areas of remote sensing and spatial analysis (GIS), giving scope for a broad overview or specialisation. Read more

Summary

This innovative, interdisciplinary programme combines the areas of remote sensing and spatial analysis (GIS), giving scope for a broad overview or specialisation. It focuses on realworld problems by applying technology to areas such as public health and environmental management. It combines the study of these two key spatial technologies into a single programme that will enhance your employability in these communities.

Modules

Typical modules: Skills and Project Work; Core Skills in GIS; Practical Skills in Remote Sensing; Topographic Data Analysis; Technique and Application Optional modules: GIS for Environmental Management; Sensing; Programming for GIS and Spatial Analysis, GIS for Healthcare Management; GIS for Analysis of Health; Programming Skills in Remote Sensing for Earth Observation Plus dissertation, with possibility of projects with industrial partners.

Visit our website for further information.



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Geographical Information Systems (GIS) has grown rapidly to become a major component of information technology, creating distinctive methods of data analysis, algorithms and software tools. Read more

Why take this course?

Geographical Information Systems (GIS) has grown rapidly to become a major component of information technology, creating distinctive methods of data analysis, algorithms and software tools.

This course emphasises the acquisition of practical GIS skills. We use a wide range of industry-standard software tools and a structured approach to the analysis of spatial data through project work.

What will I experience?

On this course you can:

Get hands-on experience of using instruments such as GPS, Total Stations and 3D laser scanners
Be taught by experts, who have extensive industrial and consultancy experience and strong research portfolios
Practise your GIS data collection skills in a range of environments

What opportunities might it lead to?

The wide range of career opportunities across public and private sectors and in university-based research, coupled with the rapid rate of technological change, mean that major organisations and industrial firms are finding it essential to update their skills through advanced study. We therefore aim to meet this demand by tailoring our course to the needs of both regional and national markets.

Here are some routes our graduates have pursued:

Environmental consultancies
Geographical information science specialists
Working for the Environmental Agency
Working for the Ordnance Survey

Module Details

The academic year is divided into two parts. The first part comprises the lecture, workshop, practical and field work elements of the course, followed by a dissertation which will take approximately five months to complete.

Here are the units you will study:

Principles of Geographic Information Science: Beginning with an overview of the development of GIS, the first part of this unit examines data sources and data capture, as well as hardware and software tools. The second part deals with vector-based data structures and data management, followed by vector GIS operations, such as overlay and buffering. You will undertake a project to create a GIS of your own, which may be presented as a seminar session. Practical exercises are undertaken using MapInfo. You will then go on to develop an understanding of raster-based approaches to GIS, cartographic modelling and related areas of image processing which are often applied in remote sensing. Topics include raster data models and data compression techniques, raster GIS and cartographic modelling, imaging systems and image processing, geometric correction techniques and GIS/remote sensing integration in the raster domain. Practical work uses MapInfo, ArcGIS - ArcMap and ERDAS Imagine.

GIS and Database Management Systems: Your major focus on this unit will be the use of industry-standard methods and tools to develop competence in the successive stages of database design, development and implementation. You will have an introduction to data analysis techniques, followed by an examination of alternative types of database system and the rules of relational database design. There is extensive treatment of the SQL query language in standard databases and for attribute query within a GIS. You will be introduced to advanced topics including database programming and computer-aided database design. You will also consider the Object-Relational databases and spatial data types, explore the use of spatial queries using the ORACLE relational database management system and examine procedural database programming and web database connectivity. Practical work for this unit uses the ORACLE relational database management system, running in full client-server mode.

Applied Geographic Information Systems: On this unit you will develop a general, inferential, model-based approach to the analysis of quantitative data within a geographical framework. You will examine a range of underlying concepts including model specification, bias, linearity, robustness and spatial autocorrelation. You will subsequently develop these in the context of a unified framework for analysis. Practical work is based on ArcGIS - ArcMap.

Research Methods and Design: This unit will introduce you to the basic principles of research design and methodology, enabling you to develop a critical approach to the selection and evaluation of appropriate methods for different types of research problem.

Modelling and Analysis and the Web: This unit gives you the chance to consider the use of GIS technology for creating terrain models and explore the basics of photogrammetry, as well as analytical and digital techniques for photogrammetric data capture. You will also look at Orthophotography, LiDAR and RADAR systems. ArcGIS is used for spatial analysis, such as buffering and overlay techniques. You will also explore and exemplify data transfer between GIS software systems and technologies for internet-based GIS.

Dissertation: This provides an opportunity for you to pursue a particular topic to a greater depth than is possible within the taught syllabus. It can take a variety of forms, for example GIS-based analysis of original data sources and digital datasets, case studies of GIS adoption in public or private sector organisations, the development of new software tools/applications or the design of GIS algorithms. The final submission takes the form of an extended written report or dissertation of a maximum of 15,000 words.

Programme Assessment

The course provides a balanced structure of lectures, seminars, tutorials and workshops. You will learn through hands-on practical sessions designed to give you the skills in laboratory, computer and field techniques. The course also includes extensive field work designed to provide field mapping and data collection skills.

The majority of assessment takes the form of practical exercises and project-based activity. This enables you to become familiar with industry-standard software systems and develop your skills by applying your newfound expertise in areas that particularly interest you.

Student Destinations

GIS technology is now very widely deployed in many organisations ranging from utility companies, telecommunications networks, civil engineering, retailing, local and national government, international charities and NGOs, the National Health Service, environmental organisations, banking and finance, and insurance. GIS has become an essential part of the world's information infrastructure.

You can expect to go on to find work in organisations such as local authorities, health authorities, conservation organisations, banks and insurance companies, amongst others. Many of our previous graduates are now employed all over the world, working on a whole variety of GIS-related projects in a very wide range of different organisations and industries.

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This Masters in Geoinformation Technology & Cartography focuses on understanding and managing the locational data required to use Geographic Information Systems (GIS) together with visualisation and map production in a GIS environment. Read more
This Masters in Geoinformation Technology & Cartography focuses on understanding and managing the locational data required to use Geographic Information Systems (GIS) together with visualisation and map production in a GIS environment. It is the only programme in the UK to have a significant emphasis on cartography; and our focus on the underpinning geomatics aspects and cartographic output is unique among GIS programmes.

Why this programme

◾The MSc in Geoinformation Technology & Cartography is the only programme in the UK that focuses on cartography. The programme has been running since 1963 and celebrated its 50th birthday in 2013.
◾You will benefit from access to our extensive computer laboratories and the latest software, including ArcGIS and MapInfo for GIS, graphic design packages and remote sensing processing software.
◾The School of Geographical and Earth Sciences is proud to announce that it is ranked 28th in the world (QS World Rankings 2016).
◾The School is consistently ranked amongst the top 10 in the UK and top 5 in Scotland, recently achieving 2nd in Scotland and 9th in the UK (Guardian University Guide 2017).
◾If you are seeking a career in geographic information management or cartography and have little or no academic background in this subject: or if you have a technical/practical background in the subject and are seeking an academic qualification; this programme is designed for you.
◾Textbooks for semester 1 courses are included in fees; and you will attend the three-day GIS Research UK conference as part of the programme (included in fees).

Programme structure

Semester 1 – 60 credits
◾Fundamentals of Geomatics GEOG5008 (20 credits)
◾Principles of Cartographic Design & Production GEOG5018 (10 credits)
◾Principles of GIS GEOG5019 (10 credits)
◾Principles of Land Surveying GEOG5020 (10 credits)
◾Topographic Mapping and Landscape Monitoring GEOG5025 (10 credits)

Semester 2 – 60 credits
◾Applied GIS GEOG5012 (10 credits)
◾Geospatial Data Infrastructures and Land Administration GEOG5013 (10 credits)
◾Geovisualisation & Map Use GEOG5026 (10 credits)
◾Internet & Mobile GIS GEOG5015 (10 credits)
◾Remote Sensing of the Environment GEOG5056 (10 credits)
◾Research & Professional Issues in Geomatics GEOG5021 (10 credits)

Summer – 60 credits
◾MSc Project GEOG5085P (60 credits)

Career prospects

Career opportunities exist in both the private and public sectors and there is currently high demand for GIS skills. Positions include cartographer with map publishing company, government agency, or private service agency; GIS specialist, ranging from support in large corporations (banking, insurance, retail), environmental consultancies, local authorities, utility companies; mapping specialist with software house or geoinformation data provider. GIS Officer, Dundee City Council, Dundee, UK.

Graduates of this programme have gone on to positions such as:
GIS Cartographer at Arcus Renewable Energy Consulting
GIS Operator at Scottish Water
GIS Analyst at Forth GIS
GIS Cartographer at L&M Surveys
Cartographer at Harper-Collins Cartographic
GIS Analyst at Arcus
GIS Analyst at Natural Power
Estates Technical Surveyor at North Ayrshire Council.

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Geographical Information Systems (GIS) is becoming increasingly important, both nationally and internationally, in the wide range of professions where acquisition, management, interpretation and analysis of geographical information is of use. Read more

Geographical Information Systems (GIS) is becoming increasingly important, both nationally and internationally, in the wide range of professions where acquisition, management, interpretation and analysis of geographical information is of use.

You can study a postgraduate certificate, postgraduate diploma or masters depending on the level of GIS knowledge you need. This is one of the first courses to be offered in this area and answers the need for well-trained professionals in this growing area.

GIS crosses many boundaries and offers a wide range of employment opportunities. This course is designed for people wanting employment in GIS as a • researcher • statistician • strategic analyst • GIS technician • planner • environmental modelling within a range of disciplines.

The course develops your capability to use, apply and understand geographical information systems by developing your

  • knowledge of the fundamental principles of GIS
  • ability to critically examine the theory and practices of GIS
  • specialist technical skills as a GIS practitioner
  • ability to undertake a professional career in GIS and multi-disciplinary contexts
  • ability to complete an individual and in-depth research project that involves a critical and evaluative approach to GIS in academic research or professional practice

The course provides a balance of academic and practical content, giving you experience of using GIS in real life applied scenarios. Some students may have more relevant experience than others and the modules take this into account. If your current work involves using GIS regularly you can build on your learning through a work-based learning module. If you have less specialist experience you can work on a consultancy project module which gives you experience of using GIS on a project for a real world client organisation.

The course is structured around four core modules and a selection of optional modules. If you are studying for an MSc, you also complete a research methods module and a dissertation.

We also offer most modules on this course as standalone short courses.

Course structure

Core modules

  • Introduction to GIS
  • Applying GIS
  • GIS and spatial analysis
  • GIS and statistical modelling

Option modules

  • Network analysis and transport modelling
  • GIS and the environment
  • Remote sensing
  • Ecological survey and evaluation
  • Professional project
  • Global perspectives on regeneration
  • Consultancy project
  • Academic and professional portfolio

Assessment

  • reports
  • individual and group presentations
  • electronic conferences
  • work-based portfolios
  • reflective diaries.

There are no formal examinations.

Employability

This course is useful for people who are working in, or wish to work in • environmental and ecology fields • hazard and risk management •strategic analysis • research • transport • logistics • planning departments • housing • emergency services • health authorities.



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Do you want to be involved in the defence, protection and management of the world’s coastlines? Aimed at engineers and physical scientists, our MSc Coastal Engineering combines the theory of waves and tides with coastal modelling, port engineering and management. Read more
Do you want to be involved in the defence, protection and management of the world’s coastlines? Aimed at engineers and physical scientists, our MSc Coastal Engineering combines the theory of waves and tides with coastal modelling, port engineering and management. Supported by a team of experienced staff in one of the largest coastal engineering research groups in the UK, you’ll gain expertise to help progress your future career.

Key features

-Broaden your coastal engineering expertise by selecting from a range of options, including port policy and management, modelling of coastal processes, remote sensing and GIS, mechanics of marine renewable energy structures, and assessment of coastal resource impacts.
-Deepen your knowledge through collaboration with our large, internationally-recognised research group.
-Be inspired by our new £19 million Marine Building, housing the acclaimed COAST laboratory which offers facilities for teaching water and coastal engineering as well as conducting world-class research.
-Benefit from a degree accredited as meeting the requirements for Further Learning for a Chartered Engineer (CEng) for candidates who have already acquired an Accredited CEng (Partial) BEng (Hons) or an Accredited IEng (Full) BEng/BSc (Hons) undergraduate first degree. See http://www.jbm.org.uk for further information.
-Recent graduates work as scientists, researchers or engineers at graduate destinations such as: Arup, Mott MacDonald, Environment Agency, Symprove, HR Wallingford, Mining Searches UK, Canterbury Council and JBA Consulting.
-Take part in an integral work placement year and conduct the programme over two years.

Course details

You’ll study the theory of waves, tides, surges and modern techniques in coastal data collection and analysis, including GIS and remote sensing. You’ll study core topics in coastal and port engineering, gain research skills, be introduced to numerical modelling techniques and obtain hands-on experience of using state-of-the-art software tools. Towards the end of the programme, you’ll have the opportunity to undertake a substantial research project focused on an aspect of coastal engineering, supervised by academic staff actively researching this field. You may also have the option of undertaking a placement year in industry.

Core modules
-MAR513 Research Skills and Methods
-BPIE500 Masters Stage 1 Placement Preparation
-COUE506 Port and Harbour Engineering
-PRCE505 MSc Dissertation
-COUE507 Coastal Engineering

Optional modules
-MAR706 Port Policy and Management
-MATH523 Modelling Coastal Processes
-MAR528 Mechanics of MRE Structures
-MAR512 Assessment of Coastal Resources and Impacts
-MAR518 Remote Sensing and GIS

Final year
Core modules
-BPIE504 Civils Masters Industrial Placement

Every postgraduate taught course has a detailed programme specification document describing the programme aims, the programme structure, the teaching and learning methods, the learning outcomes and the rules of assessment.

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Top archaeological researchers and heritage professionals use a raft of computational methods including GIS, data mining, web science, ABM, point-process modelling and network analysis. Read more
Top archaeological researchers and heritage professionals use a raft of computational methods including GIS, data mining, web science, ABM, point-process modelling and network analysis. To impress employers you need the flexibility to learn on the job, leverage open data and program open source software. This MSc draws on UCL's unparalleled concentration of expertise to equip you for future research or significantly enhance your employability.

Degree information

Students learn about a wide range of concepts that underpin computational approaches to archaeology and human history. Students become proficient in the archaeological application of both commercial and open source GIS software and learn other practical skills such as programming, data-mining, advanced spatial analysis with R, and agent-based simulation.

Students undertake modules to the value of 180 credits.

The programme consists of four core modules (60 credits), two optional modules (30 credits) and a research dissertation (90 credits).

Core modules
-Archaeological Data Science
-Complexity, Space and Human History

Optional modules
-Agent-based Modelling of Human History
-Exploratory Data Analysis in Archaeology
-GIS Approaches to Past Landscapes
-GIS in Archaeology and History
-Remote Sensing
-Spatial Statistics, Network Analysis and Human History
-The Archaeology of Complex Urban Sites: Analytical and Interpretative Technology
-Web and Mobile GIS (by arrangement with the UCL Department of Civil and Geomatic Engineering
-Other options available within the UCL Institute of Archaeology

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of 15,000 words.

Teaching and learning
The programme is delivered through lectures, tutorials and practical sessions. Careful provision is made to facilitate remote access to software, tutorials, datasets and readings through a combination of dedicated websites and virtual learning environments. Assessment is through essays, practical components, project reports and portfolio, and the research dissertation.

Careers

Approximately one third of graduates of the programme have gone on to do PhDs at universities such as Cambridge, Leiden, McGill, Thessaloniki and Washington State. Of these, some continue to pursue GIS and/or spatial analysis techniques as a core research interest, while others use the skills and inferential rigour they acquired during their Master's as a platform for more wide-ranging doctoral research. Other graduates have gone to work in a range of archaeological and non-archaeological organisations worldwide. These include specialist careers in national governmental or heritage organisations, commercial archaeological units, planning departments, utility companies and consultancies.

Top career destinations for this degree:
-Database Administrator, Deloitte
-Data Science Analyst, M2M
-Graphical Information Systems (GIS) Technician, BSG Ecology

Employability
This degree offers a considerable range of transferable practical skills as well as instilling a more general inferential rigour which is attractive to almost any potential employer. Graduates will be comfortable with a wide range of web-based, database-led, statistical and cartographic tasks. They will be able to operate both commercial and oper source software, will be able to think clearly about both scientific and humanities-led issues, and will have a demonstrable track record of both individual research and group-based collaboration.

Why study this degree at UCL?

The teaching staff bring together a range and depth of expertise that enables students to develop specialisms including industry-standard and open-source GIS, advanced spatial and temporal statistics, computer simulation, geophysical prospection techniques and digital topographic survey.

Most practical classes are held in the institute's Archaeological Computing and GIS laboratory. This laboratory contains two Linux servers, ten powerful workstations running Microsoft Windows 7, a digitising table and map scanner.

Students benefit from the collaborations we have established with other institutions and GIS specialists in Canada, Germany, Italy and Greece together with several commercial archaeological units in the UK.

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The MSc in Geoinformatics addresses the growing need for science-trained postgraduates who are technically aware and competent to work in the field of geoinformatics, particularly as applied to environmental and resource management. Read more
The MSc in Geoinformatics addresses the growing need for science-trained postgraduates who are technically aware and competent to work in the field of geoinformatics, particularly as applied to environmental and resource management. This twelve month full-time course of study covers both the theoretical and practical aspects of geoinformatics, including Geographical Information Systems (GIS), Remote Sensing (RS), satellite navigation systems, cartography, visualisation, programming and web services.

The course consists of 60 credits of taught modules, followed by independent research towards a dissertation worth 30 credits. In addition to the taught modules, you will have the opportunity to meet practitioners through regular seminars led by experts in the discipline from Ireland and abroad, visits to local geoinformatics enterprises and attendance at relevant Irish conferences. With an MSc in GIS and RS, you will be highly sought after by employers on graduation.

Visit the website: http://www.ucc.ie/en/ckr09/

Course Detail

The course introduces you to the foundational concepts of GIS, RS and cartography in the first teaching period, with lectures and practical classes which explore the underlying principles of the subjects. These skills are developed in the second teaching period with more advanced digital image processing, spatial analysis and computer programming, again taught through lectures and practical classes.

Running throughout both teaching periods are modules which develop your research skills and explore the applications, technologies and systems of geoinformatics. These modules are taught through a variety of methods which include workshops, seminars, fieldtrips, conferences, site visits, group projects and independent study.

Leading national and international geoinformatics practitioners are invited to lead seminars highlighting industrial, commercial and governmental applications and, where applicable, to demonstrate different equipment used in the discipline. You are encouraged to explore your own interests in geoinformatics through self-directed studies, oral presentations, networking with professional researchers and attending the annual national GIS and RS conferences held each autumn.

One of the highlights of the teaching period is the weekend field trip which allows students to gain hands-on experience with a variety of different instruments and to experience the complete data acquisition, processing, evaluation and presentation chain.

When you complete the taught modules you are eligible to undertake the research project in an area of your own choice within the geoinformatics discipline over a four month period from May to September. This research may be undertaken in the university or with the support of a commercial placement organised by you and culminates in a 15,000 word thesis. All students have a dedicated computer in the masters’ lab in the Department of Geography and are provided with student copies of relevant software as well as access to departmental equipment as necessary for research projects.

Further details on the content and modules are available on the Postgraduate College Calendar - http://www.ucc.ie/calendar/postgraduate/Masters/science/page05.html#geographical

Format

During the two teaching periods, there are daily classes that typically consist of one to two hours of morning lectures followed by two to three hours of afternoon practical sessions in the computer lab. For every hour of taught classes, students are expected to spend two to three hours on self-directed study. An overnight stay may be required for attendance at the national conferences, depending on their location, but the weekend field trip is within easy travelling distance of Cork. Students are made aware of the dates of these events at the earliest opportunity and they are a compulsory part of the course.

Placement and Study Abroad Information

While there are no compulsory placement requirements as part of the course, you are actively encouraged to seek opportunities to develop your skills in a commercial environment as part of the independent research project. Several successful partnerships have been developed in this way, resulting in students having access to data and knowledge not available in-house and enabling them to undertake novel and innovative research that directly supports the work of a commercial or government enterprise.

Assessment

Because of the very practical nature of the subject, there is a large element of coursework with some of the taught modules assessed entirely through computer-based exercises, written reports, projects and practical activities. Some modules are also assessed through a combination of coursework and examination at the end of each of the two teaching periods. Students are assessed on valuable transferable skills that include written, mathematical, problem-solving and oral assignments, many of which are completed individually or in small groups.

Careers

You will gain a wide variety of technical skills on this programme, including computer-based activities and use of field instruments. You are also made aware of the importance of theoretical concepts, policy initiatives and commercial constraints and limitations which impact on the use of geoinformatics in the workplace. Many transferable skills are also fostered through different learning approaches, including critical thinking, problem-solving, report writing, oral presentations, statistical analysis, independent research and time management.

How to apply: http://www.ucc.ie/en/study/postgrad/how/

Funding and Scholarships

Information regarding funding and available scholarships can be found here: https://www.ucc.ie/en/cblgradschool/current/fundingandfinance/fundingscholarships/

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This course is designed to provide a broad-based education in the principles and practice of GIS. Read more
This course is designed to provide a broad-based education in the principles and practice of GIS. Core modules cover issues such as the representation, acquisition, management and manipulation of spatial data; spatial analysis and modelling; remote sensing; GIS in the commercial environment; spatial databases and web-based programming. Concepts and techniques are illustrated using a variety of applications.

Key benefits

- Study to PgCert, PgDip or MSc level
- Modules may be taken in 'standalone' mode.
- Available both on-campus and by fully online distance learning
- Can be taken part-time or full-time
- Flexibility to transfer between full-time and part-time, on-campus and distance learning
- Strong focus on employable and professional skills
- Extensive hands-on practice with key software
- Entirely assessed by coursework - no formal examinations
- Established course (15 years +) with excellent reputation and feedback

Visit the website: https://www.ulster.ac.uk/course/msc-environmental-management-with-geographic-information-systems-pt-el

Course detail

- Description -

Graduates of the course are expected to have a broad overview of the field of GIS, to have extensive practical experience of GIS and related software and hardware, and be able to operate at a professional level in GIS employment.

PgDip modules cover issues such as the representation, acquisition, management and manipulation of spatial data, spatial analysis and modelling, remote sensing, GIS in the commercial environment, databases and web programming. Concepts and techniques are illustrated using a variety of applications. Students can take one optional module from a choice of GIS work experience / work-based project, GIS for environmental management, and customising GIS. Students may also opt for an environmental strand of the course.

In addition to acquiring substantial theoretical knowledge of the subject, students gain extensive practical experience using a variety of software, focusing primarily on ArcGIS but also including ERDAS Imagine, PostgreSQL, PostGIS, MySQL, OpenLayers, Geoserver, QGIS, Excel, SPSS and a number of GIS extensions and plug-ins. One of the core modules gives students experience of web-based programming languages such as HTML, CSS and JavaScript, while an optional module in customising GIS applications introduces them to Esri ModelBuilder and the Python programming language.

- Teaching and learning assessment -

Assessment is 100% by course work (no sessional examinations); a mixture of methods including practical reports, problem analysis, projects, literature reviews and essays, class tests, group work and a research project.

Students are able to use the University's extensive online resources of electronic journals, books and databases.

Career options

Successful students develop a range of skills in the management, processing, analysis, interpretation and presentation of geo-spatial data, as well as skills in project management, report writing and problem solving.

Graduates of the course have secured employment in a variety of roles in Ireland, the UK, Europe and further afield (including Australia, New Zealand, Canada and the Middle East), in GIS positions including technicians and analysts, development and sales, lecturing and research, within organisations such as mapping agencies and GIS companies, environmental consultancies, resource management and environmental agencies, planning, health services, housing authorities, local government, rural development, utilities and infrastructure, education, mining and retail analysis. Knowledge and understanding of geo-spatial data is also increasingly required in a variety of jobs outside of the GI profession, making a GIS qualification a valuable asset enhancing employability in a range of fields.

How to apply: https://www.ulster.ac.uk/apply/how-to-apply#pg

Why Choose Ulster University ?

1. Over 92% of our graduates are in work or further study six months after graduation.
2. We are a top UK university for providing courses with a period of work placement.
3. Our teaching and the learning experience we deliver are rated at the highest level by the Quality Assurance Agency.
4. We recruit international students from more than 100 different countries.
5. More than 4,000 students from over 50 countries have successfully completed eLearning courses at Ulster University.

Flexible payment

To help spread the cost of your studies, tuition fees can be paid back in monthly instalments while you learn. If you study for a one-year, full-time master’s, you can pay your fees up-front, in one lump sum, or in either five* or ten* equal monthly payments. If you study for a master’s on a part-time basis (e.g. over three years), you can pay each year’s fees up-front or in five or ten equal monthly payments each year. This flexibility allows you to spread the payment of your fees over each academic year. Find out more by visiting https://www.ulster.ac.uk/apply/fees-and-finance/postgraduate

Scholarships

A comprehensive range of financial scholarships, awards and prizes are available to undergraduate, postgraduate and research students. Scholarships recognise the many ways in which our students are outstanding in their subject. Individuals may be able to apply directly or may automatically be nominated for awards. Visit the website: https://www.ulster.ac.uk/apply/fees-and-finance/scholarships

English Language Tuition

CELT offers courses and consultations in English language and study skills to Ulster University students of all subjects, levels and nationalities. Students and researchers for whom English is an additional language can access free CELT support throughout the academic year: https://www.ulster.ac.uk/international/english-language-support

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