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Masters Degrees in Geographical Information Systems (GIS), United Kingdom

We have 52 Masters Degrees in Geographical Information Systems (GIS), United Kingdom

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UNIGIS is a Distance Learning Postgraduate Network in Geographical Information Systems (GIS) jointly run by Manchester Metropolitan University and the University of Salford. Read more
UNIGIS is a Distance Learning Postgraduate Network in Geographical Information Systems (GIS) jointly run by Manchester Metropolitan University and the University of Salford. The UNIGIS network has over 25 years' experience of success in delivering GIS postgraduate courses. Our highly regarded programme is designed to meet the needs of professionals working in the GI industry - or those wishing to enter the sector. UNIGIS aims to provide a deeper and balanced education in GIS.

Although GIS is a relatively new and emerging branch of geography, the UNIGIS network has over 25 years experience of successfully delivering GIS courses at postgraduate level. You study via web-based distance learning.

The application of GIS is growing rapidly in areas such as urban and regional planning, transportation and land use interaction, and retail marketing, which opens up a range of opportunties for graduates of these courses.

Features and benefits of the course

Three separate pathways are offered up to MSc level:
Geographical Information Systems (GIS)
Providing a broadly based postgraduate qualification in the field of GIS permitting some choice in application selection. Develop in-depth knowledge of the issues involved in applying GIS to solving spatial problems with an understanding of the constraints imposed by application area and the interactions between data, methods, people and technology.

Applied Geographical Information Systems (Applied GIS)
Helps develop an in-depth knowledge of GIS based methods for monitoring social/human and natural environments. Establish an effective understanding of the spatial interaction of social/human and environmental factors and develop the capability to extract information from a variety of sources and to analyse and assess within a GIS framework.

Geographical Information Technologies (GI Technologies)
Aids critical understanding of the software engineering practices and standards that underpin database and web application development and the methodologies for implementing those practices in a GIS context. A critical understanding of the issues involved in designing the storage and use of geographical data in databases and web-based applications is forged. Also key is proficiency in the design, implementation and evaluation of small scale database and web-application projects.

Assessment details

All study routes employ web-based delivery and aim to provide the conceptual and technical framework required for an in-depth understanding of GIS. Each route has either core or elective units available and all incorporate a project and dissertation which involves the design and execution of an original study.

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
This innovative programme combines expertise from the universities of Leeds and Southampton, both renowned for their Geographic Information Systems (GIS) teaching and research. Read more

This innovative programme combines expertise from the universities of Leeds and Southampton, both renowned for their Geographic Information Systems (GIS) teaching and research. It builds on the University of Leeds’ considerable experience in successfully delivering taught Masters programmes in GIS and draws on the University of Southampton’s expertise in teaching GIS in non-traditional settings.

The programme is designed to meet a wide range of requirements, covering areas of specialisation as diverse as business, environment, health and planning and is well-suited to an international audience.

It offers open distance learning for people working in commercial or public sector organisations, who need core training and skills development, as well as those who simply want to study in their own environment and at their own pace.

You’ll benefit from tutor support, including regular newsletter updates, and online discussion with fellow-students, and will have access to online resources at both universities.

More information

The Business, Planning and Developer streams are taught entirely by the University of Leeds, the Health and Remote Sensing streams are taught by the University of Southampton and the Environment stream is taught jointly by both universities. If you choose an environment, health or remote sensing stream you will complete your dissertation and graduate with a qualification from the University of Southampton. If you choose any of the other streams you will graduate with a qualification from the University of Leeds. Read more about the programme on the GIS Online Learning website.

You can also study this subject at Postgraduate Diploma and Postgraduate Certificate levels.

The programme manager is Helen Durham.

Course content

The programme runs over three years on a part-time basis, with study to Postgraduate Certificate level in year one, Postgraduate Diploma level in year two and an MSc achieved after three years.

The first year consists of four core modules, providing an introduction to theories and concepts that underpin GIS, skills in GIS software and database systems, knowledge of spatial analysis, statistical and mathematical modelling and the requirement to undertake a feasibility study of GIS in a workplace.

In year two you tailor your study to specialise in areas as diverse as business, environment, health, planning, remote sensing and GIS development. This is ideal for students already in full-time employment and looking to enhance their existing GIS skills to progress in their chosen career or make a career change.

In year three, you further build on your interests and expertise by undertaking a programme of independent research through the dissertation module. This gives you the opportunity to develop research in any area of GIS, expanding on work undertaken as part of the course, studying a problem of personal interest or researching a topic relevant to a workplace. You’ll be supported by a supervisor from amongst the distance learning teaching staff. We aim to submit the best dissertations for journal publication.

Course structure

Year 1 Compulsory modules

  • Principles of GIS (WUN) 15 credits
  • GIS in the Workplace (WUN) 15 credits
  • Using GIS (WUN) 15 credits
  • Spatial Analysis and GIS (WUN) 15 credits

Year 2 Compulsory modules

  • Applied Environmental GIS (WUN) 15 credits
  • Geodemographics and Database Marketing (WUN) 15 credits
  • GIS and Planning (WUN) 15 credits
  • Applied Population and Demographic Analysis (WUN) 15 credits
  • Introduction to Java Programming (WUN) 15 credits
  • Applied GIS and Retail Modelling (WUN) 15 credits
  • Web-based GIS (WUN) 15 credits
  • GIS for Health Care Management (WUN) 15 credits
  • Topographic Data Analysis Techniques and Applications (WUN) 15 credits
  • Remote Sensing for Earth Observation (WUN) 15 credits
  • GIS for Environmental Management (WUN) 15 credits
  • GIS for Analysis of Health (WUN) 15 credits

Year 3 Compulsory modules

  • Dissertation (WUN) 60 credits

For more information on typical modules, read Geographical Information Systems MSc in the course catalogue

Learning and teaching

The University of Leeds and the University of Southampton are linked seamlessly through the Worldwide Universities Network.

You’ll be provided with a variety of online learning materials throughout the programme. You’ll work as part of a virtual online community, discussing the materials online, collaborating in group tasks, participating in group exercises and generally supporting one another.

You’ll also get plenty of one-on-one support. Our qualified tutors are experts in the theory and practice of GIS and are there to support you and your group. Our tutors will act as mentors and provide you with personal guidance as you progress, advising you on how to make the most of the course and helping you to overcome any obstacles that you encounter. Any work you hand in will be returned to you with detailed comments and advice. Past students have found this comprehensive personal feedback one of the most valuable aspects of their study.

Assessment

Assessment is through coursework with no exams. There is a mix of essays and reports, the latter usually based on analysis of real world datasets. Most modules have two assessments which are due for submission at the end of each three-month study period.

Career opportunities

Typical roles undertaken by our recent graduates are:

  • Assistant Analyst
  • Business Analyst
  • Data Analyst
  • Data Quality and GIS officer
  • GIS Analyst and Surveying Engineer
  • GIS Project Manager
  • Market Analyst
  • PhD study
  • Researcher
  • Technical Consultant.

Careers support

The School of Geography has a very strong commitment to enhancing student employability. Read more about our employability support.

We encourage you to prepare for your career from day one. That’s one of the reasons Leeds graduates are so sought after by employers.

The Careers Centre and staff in your faculty provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website.



Read less
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.

Read less
This programme focuses on scientific, technical and computational aspects of Geographical Information Systems (GIS) and Geographical Information Science (GIScience), with particular reference to the socioeconomic and environmental sciences. Read more

This programme focuses on scientific, technical and computational aspects of Geographical Information Systems (GIS) and Geographical Information Science (GIScience), with particular reference to the socioeconomic and environmental sciences. It provides highly qualified and motivated students sought by employers in the sector.

Core modules introduce GIS, a rapidly evolving area in business, health and planning settings, as well as in environmental applications. You will be introduced to GIS packages and database systems, useful for those wanting to undertake social and environmental science research and those wanting to understand the application of geotechnology as practitioners. You’ll study theories and concepts underpinning GIS and explore topics including spatial data models, data capture, spatial analysis and statistical and mathematical modelling. Optional modules allow you to focus on quantitative human geography, environmental applications and programming GIS.

Other Study Options

This programme is available part time, allowing you to combine study with other commitments. You can work to fund your studies, or gain a new qualification without giving up an existing job. We aim to be flexible in helping you to put together a part-time course structure that meets your academic goals while recognising the constraints on your study time.

The programme manager is Dr Paul Norman.

You can also study this subject at Postgraduate Diploma level.

Course content

The programme comprises two semesters of taught modules followed by a dissertation project. The first semester includes three core modules. In the second semester, all modules are optional to allow you to specialise in your chosen pathway. We group our modules thematically so that you can include topics within streams relating to Planning and Society, to Environment and to Technical Development. Optional modules include a highly recommended module in Programming for Geographical Information Analysis.

The dissertation is carried out over the summer months and is an opportunity for you to investigate a topic and demonstrate your ability to apply the techniques you have learned during the course and bring in additional methods, whilst placing the work within appropriate literature contexts. Our aim is to submit the best dissertations for journal publication.

If you study this programme part time you will study fewer modules in each year.

Course structure

Compulsory modules

  • Principles of GIS 15 credits
  • Dissertation (GIScience) 60 credits
  • Professional Development 15 credits
  • Using GIS 15 credits
  • Quantitative and Spatial Methods 15 credits

For more information on typical modules, read Geographical Information Systems MSc Full Time in the course catalogue

For more information on typical modules, read Geographical Information Systems MSc Part Time in the course catalogue

Learning and teaching

Teaching will be through workshops, seminars, presentations, practicals and lectures, depending on the modules you choose.

Assessment

Assessment is through coursework with no exams. There is a mix of essays and reports, the latter usually based on analysis of real world datasets. Most modules have an assessment part way through the semester and then a further assessment at the end.

Career opportunities

Typical roles undertaken by our recent graduates are:

  • Assistant Analyst
  • Business Analyst
  • Data Analyst
  • Data Quality and GIS officer
  • GIS Analyst and Surveying Engineer
  • GIS Project Manager
  • Market Analyst
  • PhD study
  • Researcher
  • Technical Consultant.

Some of the organisations our graduates work for are:

  • Analysis LLP
  • Asda
  • Atkins
  • Callcredit
  • Experian
  • Integrated Skills
  • Intelligent Space Partnership
  • JBA Consulting
  • Makedoniki ETM, Greece
  • MapInfo Ltd
  • The Environment Agency.

Careers support

The School of Geography has a very strong commitment to enhancing student employability. Read more about our employability support.

We encourage you to prepare for your career from day one. That’s one of the reasons Leeds graduates are so sought after by employers.

The Careers Centre and staff in your faculty provide a range of help and advice to help you plan your career and make well-informed decisions along the way, even after you graduate. Find out more at the Careers website.



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IN BRIEF. UNIGIS UK combines the teaching and research expertise of staff from two UK universities (Salford and Manchester Metropolitan). Read more

IN BRIEF:

  • UNIGIS UK combines the teaching and research expertise of staff from two UK universities (Salford and Manchester Metropolitan)
  • Professionally relevant content to prepare you for a host of career opportunities
  • Flexible course delivery, online part-time distance learning
  • International students can apply

COURSE SUMMARY

The application of GIS is growing rapidly which opens up a range of opportunities for graduates of this course. As a UNIGIS student you will be joining an extensive community with representatives in over 30 countries, providing you with an excellent platform to generate and share ideas. By selecting from the range of taught modules available in the second year, you will effectively determine which of the three MSc degrees you will ultimately be awarded:

  • Geographical Information Systems
  • Applied Geographical Information Systems
  • Geographical Information Technologies

UNIGIS courses all provide a solid grounding in Geographical Information Systems, Science and Technology, but each has a different focus. Geographical Information Systems provides a broad introduction to the major aspects of contemporary GIS. Applied GIS is focused more on the application of GIS and geographical information in the human and natural environments. Geographical Information Technologies looks at the various technologies that underpin GI solutions.

All UNIGIS programmes are all taught via online, part-time, distance learning, over a period of three years. UNIGIS has a dedicated Virtual Learning Environment through which all course materials are delivered. You will be supplied with specialist GIS software for the practical aspects of the programme you study.

This course is delivered in partnership with Manchester Metropolitan University. Please apply for your place via the UNIGIS UK website.

Please note, University of Salford alumni loyalty discounts do not apply to this course.

COURSE STRUCTURE

The courses are taught in part-time distance learning mode ONLY over a period of three years. During the first two years you will take taught modules with the third year being comprised of an MSc dissertation and project.  The courses start in September each year.

TEACHING

The UNIGIS programmes are all taught via online distance learning.  UNIGIS had a dedicated Virtual Learning Environment through which all course materials are delivered.  You will be supplied with specialist GIS software for the practical aspects of the programme you study.

ASSESSMENT

All the UNIGIS programmes are 100% assessed by coursework.

EMPLOYABILITY

UNIGIS programmes are particularly suited to those who wish to continue their professional development in the field, but many students use the courses as a way to initially get into GIS. Employment prospects are broad and include roles such as: analysts, programmers, cartographers, surveyors, consultants, GIS specialists, information technology/information systems specialists, lecturers, planners and project managers.

LINKS WITH INDUSTRY

Links exist with a wide range of public and private sector companies through the organisations that our students work for.  All modules in the UNIGIS programmes are recognised by the Association for Geographic Information for Continuing Professional Development (CPD).

FURTHER STUDY

The UNIGIS courses are mainly aimed at those in employment, but there are possibilities to undertake research in the area of GIS.



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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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This course provides training in geographical information systems (GIS) and in particular their application to a variety of environmental settings. Read more
This course provides training in geographical information systems (GIS) and in particular their application to a variety of environmental settings. If you want to develop your skills in this area, this is the course for you.

The programme is ideally suited to GIS analysts, decision-makers and managers since it will provide hands-on experience of how to use a variety of GIS systems (ArcViewTM, ARCGISTM, MapInfoTM) in real-world settings.

Students are also able to select more specialist training relevant to their interests and expertise.

The course aims to enhance your previous understanding and use of geographical information systems but it is also suitable for those who have no previous training in GIS.

By the end of the course, you will have developed high level abilities to apply GIS within environmental management, have an in-depth understanding of the functionality of GIS and be critically aware of the potential and limitations of GIS.

Scholarships

Scholarships are available for this course. Please click the link below for more information.
https://www.brighton.ac.uk/studying-here/fees-and-finance/postgraduate/index.aspx

Syllabus

All students study five core modules. You will also choose option modules, allowing you to specialise in the areas of the course that interest you the most.

Core modules:

Introduction to GIS
Spatial Data Analysis
Applications in GIS
Research Methods
Dissertation

Option modules:

Applied Remote Sensing
Active Remote Sensing
Environmental Impact Assessment
Issues in Ecology and Conservation
Hydrogeology
Case Studies in Environmental Assessment
Systems for Environmental Management
Environmental Assessment in Practice
Water Resource Management
Water Treatment Technology

Employability

Brighton's graduates are highly sought after by employers.

The course will provide opportunities to join a wide range of companies as a GIS expert. Recent graduates are building careers in organisations including:

• GIS consultancies: South Coast GIS and Ambiental
• Environmental consultancies: Groundsure, Argyll Environmental, Hyder Consulting
• East Sussex District Council
• Southern Water
• TNT Courier

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This master's degree focuses on the multi-disciplinary science concerned with the development and application of geographical information science technologies. Read more
This master's degree focuses on the multi-disciplinary science concerned with the development and application of geographical information science technologies. Geographical information technologies are increasingly used in everyday life, such as Google Earth and geosocial networking. Core geographical information science technologies, including geographical information systems (GIS) and remote sensing, have had a long history of application in government and private sector environmental agencies, planning, agriculture, forestry, utilities and transportation.

This course will enable you to develop fundamental skills and in-depth knowledge of key application areas.. Students can choose to undertake an applied study unit, which gives a range of work experience skills and can lead to dissertation opportunities working with key local and national employers.

We offer research-led teaching and a range of extra-curricular activities designed to deepen and enhance your learning experience. These include access to additional training resources, educational visits, career talks and alumni presentations. You will gain experience using commercial and open source software and acquire skills in the development of spatial software for both desktop and online platforms.

We have recently revised and updated our course offerings and during 2017 will host the 25 th Geographical Information Science Research UK (GISRUK) conference; the largest national GIS research conference.

Aims

This course will provide you with the theoretical foundation and practical skills that are relevant for pursuing a career in a geographical information science field.

You will have the opportunity to develop advanced knowledge of and practical experience in:
-GIS and remote sensing theory and practice
-Advanced techniques for GIS analysis and image processing
-Spatial analysis
-Computer modelling and software development
-Internet and GIS Web technologies
-Databases and database technologies
-Scientific communication of analytical results and their interpretation

Teaching and learning

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

Coursework and assessment

The dissertation, based on an original research project of your own design, accounts for 60 credits. Dissertation topics can focus on aspects of geographical information science and are supported by researchers who specialise in core areas of GIS, remote sensing or modelling. The remaining 120 credits are based on eight 15-credit course units (four in each semester).

Assessment is primarily coursework-based and includes a variety of project work, essays and presentations. This enables you to gain a significant amount of hands-on experience of applying geographical information science skills to real world environmental applications.

The course has five core course units. You select your remaining four course units from a wide range of options offered by Geography, Planning and Environmental Management and the Global Development Institute (GDI), all within the School of Environment, Education and Development. These optional course units enable you to tailor the course to your unique interests.

Career opportunities

You will have the opportunity to learn from staff with advanced and practical understanding of geographical information science. The taught component of the course, together with the experience of carrying out a postgraduate-level dissertation project, provides you with an excellent foundation for PhD research in numerous fields that involve geospatial data analysis, including physical and human geography, planning, development, and the environmental and earth sciences. There is a high demand worldwide for individuals with these skills.

We provide you with the background knowledge and experience needed for employment in many sectors, especially GIS consultancies, environment agencies, marketing, the oil and gas sector, agriculture and forestry, water authorities, health authorities, and retail.

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Your programme of study. Geographic information systems have become really interesting to all of us with the increased innovation in smart phones and IOT, whether we are searching for a venue to eat and drink or looking for something specific in a difficult to reach location. Read more

Your programme of study

Geographic information systems have become really interesting to all of us with the increased innovation in smart phones and IOT, whether we are searching for a venue to eat and drink or looking for something specific in a difficult to reach location. At one time GIS was heavily used in planning and map creation, now we all have access to those maps on our mobiles and tablets and we now expect sensors in our phones to connect automatically to satellite systems to tell us our every move, whether we are walking or in the car. This has made the discipline incredibly interesting and opened up a lot more opportunities in terms of work. On top of the more obvious GIS enabled systems many businesses rely on this technology to inform them about weather, shipping, coastal locations, risks and hazards, agriculture and energy and minerals exploration.

Geospatial technologies are increasingly important across all industries and this programme gives you skills in developing remote sensing, working with wide ranging expertise from coastal, marine, ecology, energy, geology, spatial planning, and archaeology. You learn some very useful skills in programming, simulation and modelling, spatial databases and global positioning systems, plus cartography, remote sensing, digital image processing, geographic information systems, field data capture for a variety of devices. 

It is worth visiting the Scottish Innovation Centres to find out more about innovations using GIS and the technologies it uses:

http://www.innovationcentres.scot/

Courses listed for the programme

Semester 1

The History Origins and Evolution of GIS

GIS Tools and Technologies

People Management and GIS

Optional

Data Systems and Big Data

Aspects of Digital Mapping and Visualisation

Semester 2

Fundamentals of GIS and Spatial Analysis

Planning, Managing and Presenting a GIS Project

UAV Remote Sensing, Monitoring and Mapping

Semester 3

Dissertation

Find out more detail by visiting the programme web page

https://www.abdn.ac.uk/study/postgraduate-taught/degree-programmes/99/geographical-information-systems/

Why study at Aberdeen?

  • Aberdeen is in a great location to test out your skills in a range of sea and energy, remote, rural and wild locations
  • You are encouraged to go on field trips and out into these varied locations
  • You are taught by experts from marine science, ecology, energy and environmental industry and academic experts
  • Apart from learning your profession inside out career opportunities are rapidly developing in GIS across the world

Where you study

  • University of Aberdeen
  • Full time and Part Time
  • 12 Months Full Time or 24 Months Part Time
  • September or January start

International Student Fees 2017/2018

Find out about fees:

https://www.abdn.ac.uk/study/international/tuition-fees-and-living-costs-287.php

*Please be advised that some programmes have different tuition fees from those listed above and that some programmes also have additional costs.

Scholarships

View all funding options on our funding database via the programme page

https://www.abdn.ac.uk/study/postgraduate-taught/finance-funding-1599.php

https://www.abdn.ac.uk/funding/

Living in Aberdeen

Find out more about:

  • Your Accommodation
  • Campus Facilities
  • Aberdeen City
  • Student Support
  • Clubs and Societies

Find out more about living in Aberdeen:

https://abdn.ac.uk/study/student-life

Living costs

https://www.abdn.ac.uk/study/international/finance.php



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The aims of the programme are. 1. To support students in the development of their intellectual and practical skills through the study and interpretation of cultural heritage artefacts, their historic societal significance and relationship with the landscape and the wider environment in the past and the present. Read more

AIM

The aims of the programme are:

1. To support students in the development of their intellectual and practical skills through the study and interpretation of cultural heritage artefacts, their historic societal significance and relationship with the landscape and the wider environment in the past and the present.

2. To demonstrate how geo-spatial technologies and techniques (including GIS, scanning and digitisation) play a central role in the recording, analysis, interpretation and management of cultural heritage across a range of scales from excavated items, archaeological sites, and paper records to historic buildings, monuments and their landscapes.

WHY QUEEN'S?

In the new programme the internationally recognised expertise within GAP with regard to the development and application of digitisation and scanning technologies will be more fully used and integrated into the student learning experience.

The integration of these skills with wider academic expertise in Archaeology and the Centre for Archaeological Fieldwork (CAF), and Geography and the Centre for Data Digitisation and Analysis (CDDA) will create a unique 'heritage' focused programme in which students will experience heritage in its widest context and will have the opportunity to acquire and practice a wide range of geo-spatial skills and explore the conceptual issues associated with their application.

PROGRAMME CONTENT

MSc: successfully complete the five taught modules (120 CATS) and undertake independent research for the dissertation (60 CATS).

PgDip: successfully complete the same five taught modules but do not take the dissertation module.

PgCert: successfully complete the two Semester 1 modules.

Semester 1
GIS Technologies: Application and Practice (30 credits)
Introduction to Cultural Heritage and GIS (30 credits)

Semester 2
Heritage Structures (20 credits)
Heritage Landscapes (20 credits)
Professional Practice Placement (20 credits)

Semester 3
Dissertation (60 credits)

LEARNING AND TEACHING

One of the modules included in the Cultural Heritage and GIS programme includes a residential field course (between 5-10 days).

CAREER PROSPECTS

The market for those with a qualification in Cultural Heritage and GIS can be defined as:

professionals who are involved in providing scientific understanding in the support of heritage protection
professionals engaged in dealing with the digital documentation and portrayal of heritage structures and landscapes
professionals seeking a targeted training in the use of digital data handling, especially through the application of GIS
those wishing to develop a career in cultural heritage conservation and/or management;
those already employed in cultural heritage management who require the updating of qualifications, or the improvement of existing ones, in order to reflect new developments in technology and thinking.

Queen's postgraduates reap exceptional benefits. Unique initiatives, such as Degree Plus and Researcher Plus bolster our commitment to employability, while innovative leadership and executive programmes alongside sterling integration with business experts helps our students gain key leadership positions both nationally and internationally.

ASSESSMENT & FEEDBACK

Teaching is achieved through various combinations of lectures, seminars, practical classes and fieldwork and is supported by intensive self-guided independent learning. All assessment is coursework based and will be individually undertaken. The dissertation submission is an independent piece of research undertaken by each student under the supervision of an academic member of staff. Both formative and summative feedback will be given through, as appropriate, oral and written means. The pass mark for all assessments is 50 per cent. Students must obtain an overall 50 per cent pass mark for this taught programme (five modules) before progression from the PG Diploma to Masters.

VISIT US

Visit Queen's to sense the atmosphere of our historic campus, tour our world-class facilities, and experience for yourself the exceptional learning environment we provide. Find out when our next Open Days are, or arrange a guided tour to suit you.

HOW TO APPLY

Applications for admission to the vast majority of postgraduate programmes are submitted online via the Postgraduate Direct Applications Portal. The online system also allows application for funding where appropriate.

If you have queries on course content please contact the school representative below.

Dr Paul Ell
School of Geography, Archaeology and Palaeoecology
Tel: 9097 3186
Email:
WWW: http://www.qub.ac.uk/gap

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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.

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Kingston University offered the first GIS undergraduate degree in the world in 1989, followed by several MSc and PhD research degrees. Read more
Kingston University offered the first GIS undergraduate degree in the world in 1989, followed by several MSc and PhD research degrees. Today, Kingston is considered the UK's foremost centre for GIS education and training, with one of the largest GIS programmes in Europe. This course provides a high level of competency in the principles of GI science and the use of geotechnology, as well as the skills to routinely use professional software for data acquisition, handling, exploration and mapping.

Key features

-Kingston University is recognised within the industry as a premier provider of GIS education with our graduates having amongst the highest employment rates.
-Fieldwork is an important part of our teaching.

What will you study?

The course covers the principles of GI science and geotechnology and the foundations of geographical information handling.

You will learn how to handle spatial entities for data transformations, generalisation and aggregation, and will develop competency in analytical operations, methods and spatial analyses. You will have the chance to implement principles of map design and graphical representation techniques, and will gain an understanding of spatial database systems and application design. You will also perform storage and retrieval operations, and work with alternative data models, 3D modelling and advanced visualisation.

The course is taught partly in distance-learning mode and partly in traditional classroom mode or entirely in distance-learning mode.
Please note that Esri ArcGIS is used in several core modules. Students outside the UK and Ireland will need to use their own licensed copy of the software. Student licences are available for most countries at £100.

Assessment

Coursework, projects, presentations, exams, online tests, online group work.

Work placement scheme

Kingston University has set up a scheme that allows postgraduate students in the Faculty of Science, Engineering and Computing to include a work placement element in their course starting from September 2017. The placement scheme is available for both international and home/EU students.

-The work placement, up to 12 months; is optional.
-The work placement takes place after postgraduate students have successfully completed the taught portion of their degree.
-The responsibility for finding the placement is with the student. We cannot guarantee the placement, just the opportunity to undertake it.
-As the work placement is an assessed part of the course for international students, this is covered by a student's tier 4 visa.

Details on how to apply will be confirmed shortly.

Course structure

Please note that this is an indicative list of modules and is not intended as a definitive list.

Core modules
-Data Modelling and Analysis (distance learning)
-Research Methods and Techniques
-Research Project (Dissertation)
-GIS for People and Environments
-Spatial Data and the World-wide Web

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