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Masters Degrees (Geographical Information System)

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Today’s societies require more and more geographical information. Think of physical planning, analyzing the spread of epidemic diseases, risk management, navigation systems, location based services, movement analysis, augmented reality, increasing use of maps and volunteered geographical information. Read more

MSc Geographical Information Management and Applications (GIMA)

Today’s societies require more and more geographical information. Think of physical planning, analyzing the spread of epidemic diseases, risk management, navigation systems, location based services, movement analysis, augmented reality, increasing use of maps and volunteered geographical information.

Our GIMA course offers a comprehensive MSc programme, focusing on the management and application of geographical information from a scientific perspective. Two additional aspects contribute to the uniqueness of the GIMA programme: GIMA is a joint venture involving four renowned Dutch universities: Utrecht, Delft, Twente and Wageningen; and GIMA is a blended learning programme, enabling you to do most of your studying from the place at which you study best (home or office). Only the first and the last week of each module are classroom-based.

Programme Summary

The MSc Geographical Information Management and Applications (GIMA) offers a challenging programme in the domain of Geographical Information Sciences (GIS). It will help you to develop your knowledge and skills in the field of geo-information management and geo-information applications. As a future geo-information specialist, you have to address a wide number of fundamental issues in today’s society such as: Why is geographical information needed and how can it be used to solve problems in the broadest variety of application fields (in flood risk management, spatial planning, location-based services, orientation and navigation, location of sales outlets, spatial aspects of crime, dealing with natural hazards and humanitarian disasters)? How can proof-of-concept geo-information and geo-information technology based solutions for societal problems be designed and implemented and how can the quality and usabiliy be evaluated? What are appropriate concepts, methods and techniques for the management of geo-information and geo-information processes, which may involve multidisciplinary teamwork?
The GIMA programme deals with all of these issues and, teaches, among other things, how to apply and manage geo-information in organisations and projects by critically understanding and using state-of-the-art geo-information theories and technology.

Features of the programme

This Master programme is offered by four renowned universities in the Netherlands: Utrecht University, Delft University of Technology, University of Twente and Wageningen University. As a student, you have access to the large pool of experts from all four universities. You can choose between a full-time (two years) or parttime (four years) programme. Exemptions are possible for students who have relevant working experience, making it possible to complete a part-time programme in approximately three years. GIMA is a blended learning programme. It consists of distance learning (85%) with contact weeks at the four universities (15%).

Your future career

Graduates have excellent career prospects. The demand for managers and application specialists in geo-information in the professional market is constantly increasing. Our alumni are employed in both the private and public sector (by companies, consultancies, government organizations and research institutes) as managers, specialists and researchers. APPLICATION AND ADMISSION This programme is registered in CROHO as MSc Geographical Sciences at Utrecht University, code 60732. Application for GIMA proceeds through Utrecht University. The application deadline is 1 June 2015 for the programme that starts in September 2015. All information about application and admission requirements can be found at the GIMA website http://www.msc-gima.nl.

Alumna Gineke Snoeren.
Business consultant at ESRI Nederland. “GIS offers many opportunities and will become more important in future. That is why I decided to enrol in this programme. The course has 2 advantages. First, it does not focus solely on GIS techniques, but also at management. Second, the blended learning system is great because it combines contact teaching with distance learning. You can study in your own time with less contact hours but still contact with teachers and students at set times. Not only Dutch and foreign students take the course, but also people who are already employed in the field of GIS. You learn a lot from each other”.

Related programmes:
MSc Geo-information Science.

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.

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This programme equips graduates with the skills required for professional roles involving collection, management, analysis and presentation of landscape ecology and environmental conservation datasets using Geographical Information Systems. Read more
This programme equips graduates with the skills required for professional roles involving collection, management, analysis and presentation of landscape ecology and environmental conservation datasets using Geographical Information Systems.

In both the UK and overseas the concept of landscape scale land management has gained acceptance over the last decade. The implementation of environmental conservation policies and strategies based on a landscape ecology approach is increasingly dependent on spatial data that are managed and manipulated within a GIS. As a result, the Ecological Skills Gap Project has identified a clear need for ecologists with experience of GIS and for GIS specialists with an understanding of the environmental data they are being asked to manage and manipulate within a GIS.

This programme is designed to address these skills gaps and is structured around three compulsory conservation courses that integrate theoretical and practical aspects of contemporary conservation and environmental management, and three compulsory courses covering the principles and implementation of GIS. Additionally students take a compulsory Professional Practice for GI course, and one optional course. The MSc programme culminates in a third term with the dissertation, an individual piece of research focused on the application of GIS techniques to a specific landscape ecology problem.

The aims of the programme are:

- To provide landscape ecology practitioners and conservation managers with an appreciation of the merits and limitations of the spatial data that are potentially available to them.

- To provide an understanding of how these data can potentially be processed and managed within a GI System; encompassing data collection strategies, errors, uncertainties, GIS modelling, and GIS decision-support systems.

- To provide the knowledge and skills to confidently operate and manage a GI system for landscape ecology and environmental conservation data sets.

Visit the website http://www2.gre.ac.uk/study/courses/pg/geog/landecogis

Geography

The Department of Pharmaceutical, Chemical & Environmental Sciences offers a diverse range of degrees across geography and the environmental sciences. Teaching in the department is underpinned by world class research activities in all areas.

What you'll study

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

Principles and Practice of Environmental Conservation (15 credits)
Landscape Ecology with GIS Dissertation (60 credits)
Advanced Spatial Modelling (15 credits)
Applied GIS and Remote Sensing (15 credits)
Professional Practice for Geographical Information (15 credits)
Introduction to GIS for Natural Resource Management (15 credits)
Techniques in Applied Ecology (30 credits)

Students are required to choose 15 credits from this list of options.

Environmental Impact Assessment (15 credits)
Ecology and Conservation of Estuaries and Coastal Zones (15 credits)

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

Landscape Ecology with GIS Dissertation (60 credits)

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

Applied GIS and Remote Sensing (15 credits)
Professional Practice for Geographical Information (15 credits)
Introduction to GIS for Natural Resource Management (15 credits)

Students are required to choose 15 credits from this list of options.

Environmental Impact Assessment (15 credits)
Ecology and Conservation of Estuaries and Coastal Zones (15 credits)

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

Principles and Practice of Environmental Conservation (15 credits)
Landscape Ecology with GIS Dissertation (60 credits)
Advanced Spatial Modelling (15 credits)
Techniques in Applied Ecology (30 credits)

- Year 3:
Students are required to study the following compulsory courses.

Landscape Ecology with GIS Dissertation (60 credits)

Fees and finance

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

Find out more about our fees and the support available to you at our:
- Postgraduate finance pages (http://www.gre.ac.uk/finance/pg)
- International students' finance pages (http://www.gre.ac.uk/finance/international)

Assessment

Students are assessed through examinations, coursework and assessments that are practically focused using real-world examples and case studies.

Career options

Graduates develop the professional philosophy and skills base to progress to senior posts within industry, or proceed to doctoral research. Graduates from this programme can pursue employment in conservation organisations in the UK and overseas, including central and local government, environmental consultancies, non-governmental organisations, business, the media and environmental education.

Find out about the teaching and learning outcomes here - http://www2.gre.ac.uk/?a=643704

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
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
The programme of Master of Science in Applied Geographic Information Systems (hereafter MSc in Applied GIS), a single-degree coursework Master’s programme hosted in Department of Geography at NUS, is designed to reflect the cutting-edge technologies and latest developments in GIS and its applications with the reputation of NUS Geography as one of the top 10 geography departments around the world. Read more

OVERVIEW

The programme of Master of Science in Applied Geographic Information Systems (hereafter MSc in Applied GIS), a single-degree coursework Master’s programme hosted in Department of Geography at NUS, is designed to reflect the cutting-edge technologies and latest developments in GIS and its applications with the reputation of NUS Geography as one of the top 10 geography departments around the world. This innovative programme provides an exciting opportunity for the prospective students to study at NUS, the top university in Asia, as a pathway to a PhD or further practical career in applied GIS or related disciplines.

We offer two tracks of training (Thesis Track and Project Track). The Thesis Track includes a research thesis component, which covers thesis preparation and the GIS research thesis itself. It aims to attract students with interests in applied GIS research and developing their research skills. The Project Track includes a GIS project component. It is designed for students who require practical GIS skills or an upgrade to their existing GIS expertise to progress their careers.

WHO SHOULD APPLY

Those who currently use or who wish to use GIS and its applications to their full extent will find the programme useful. Applications cover, but certainly not limited to, spatial assessment and management of natural resources, environmental/disaster monitoring and assessment, demographic analysis, public health, forensic sciences, transportation and urban planning, and business marketing.

Working professionals looking to deepen their skills in applied GIS or broaden their horizon outside their current field can leverage on this programme to boost career prospects in the GIS industry. The part-time study scheme allows working professionals the flexibility to balance study with work and personal commitments.

DURATION

Full-time students will study over three semesters, which start in Semester 1 (August–November), continue in Semester 2 (January–April), and end in Semester 3 (May–July). Students will take modules during the first two semesters and produce a thesis (for Thesis Track) or a project report (for Project Track) during the third semester.

Under normal circumstances, the period of candidature is 12 months of full-time study or 24 months of part-time study from the date of commencement of the course. The maximum period of candidature for both tracks of the MSc Programme is 24 months of full-time study or 36 months of part-time study from the date of commencement of the course, inclusive of approved leave of absence and medical leave. Leave of absence of up to one year will not be counted towards a candidate’s maximum candidature. Subsequent leave will be considered as part of the candidature.

GRADUATION REQUIREMENTS

The graduation requirements for both Thesis Track and Project Track are as follows:

(a) Thesis Track: students are required to complete six core modules and any two elective modules.
(b) Project track: students are required to complete five core modules and any four elective modules.

See more detailed requirements at the website: http://www.fas.nus.edu.sg/geog/graduates/MSc_Applied_GIS.html

PROGRAMME STRUCTURE

The Programme is structured to prepare students with applied GIS skills for carrying out research (Research Track) or for addressing industry needs (Project Track). It consists of core compulsory modules that provide trainings in fundamental GIS skills and basic applications, and elective modules that provide insights into specialized GIS applications in fields such as transportation, urban informatics, and environmental management. For the detailed information of the modules in the programme, please refer to "Modules" tab on the website(http://www.fas.nus.edu.sg/geog/graduates/MSc_Applied_GIS.html#ps).

FEES AND PAYMENT

The tuition fee for AY2016-2017 intake is S$30,000 (inclusive of GST) for the entire programme for all students on the MSc irrespective of nationality. A non-refundable deposit of S$2,000, which counts toward the tuition fee, is due upon acceptance of the admission offer to the programme. Other fees payable follow the prevailing rates set by the University( http://www.fas.nus.edu.sg/prospective/grad/coursework/fees.html).

HOW TO APPLY

The application deadline is 15 January every year (to begin in August). For August 2016 admission, the application period is from 1 November 2015 to 15 January 2016. You are encouraged to apply online via the NUS Graduate Admission System here: https://inetapps.nus.edu.sg/GDA2/Home.aspx

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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

Overview

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 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. Students who have chosen an environment, health or remote sensing stream will usually complete their dissertation at the University of Southampton and will graduate with a degree from that institution. Otherwise they will graduate with a qualification awarded by the University of Leeds.

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

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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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BIM is a growing technology used in the building industry worldwide. It uses digital techniques to create and use intelligent 3D models to communicate building project decisions. Read more

About the course

BIM is a growing technology used in the building industry worldwide. It uses digital techniques to create and use intelligent 3D models to communicate building project decisions. GIS is a technical system to implement the collection, storage, management, calculation, analysis, display and description of geospatial information data. The results help to understand what is happening in a geographical space which can increase efficiency in building planning and design. The current ‘lack of BIM innovation’ and ‘lack of BIM talent’ could delay the progress of Chinese “smart” cities, which aim to reduce resource consumption and cost and use digital technologies to benefit their citizens.

This programme will be run entirely at the University of Nottingham Ningbo China (UNNC) with internship opportunities in leading BIM companies in China. It is a collaboration between Department of Architecture and Built Environment and Civil Engineering. In particular, research and teaching support will be provided by three leading research laboratories including Geospatial BIM lab, Digital City Infrastructure and technology Innovation Laboratory (D-CiTi Lab), and Big Data and Visual Analytics Lab. These laboratories are working closely with leading AEC consultants (Arup, WSP BP), international professional institutions (RICS, ICES, CIBSE) and leading BIM software vendors (Autodesk, Bentley, Leica, Tekla, Trimble).

Students are able to learn how to use and operate a very wide variety of state-of-the-art software, as well as surveying equipment including servo driven total stations, laser scanners, GNSS, digital and analogue photogrammetry. With extensive project and consultancy experience on the Geospatial Engineering, BIM in the AEC sector in the UK and China, the team is planning to promote the Smart City with multi-dimension BIM applications across China.

Advantages of studying this programme at the University of Nottingham Ningbo:

- Be familiar with BIM related software and surveying device
- The ability to apply their skills directly within the surveying and AEC industry
- React quickly to new technologies and innovations
- Communicate ideas effectively in written reports, verbally and presentations to groups
- Exercise original thought, as well as gain interpersonal, communication and professional skills
- Participate real project work for experience accumulation
- Plan and undertake individual projects

This programme will help:

- Fain a complete understanding of theory, practice and issues of BIM and Geospatial technologies
- Acquire opportunities to use what you have learnt in real project work
- Explore new research methodology to promote development in this field
- Acquire technical skills of software operation, data analysis and design optimization
- Improve team-work ability and communication skill
- Foster individual ability to conduct academic researches

Course structure

The course is studied over 12 months. 60 credits of modules are studied in the autumn and 60 credits of modules are studied in the Spring Semesters. A research project is undertaken in the summer semester, also worth 60 credits.

Compulsory modules:

Geospatial Engineering and BIM Research Project
Introduction to Building Information Modelling and Management
Research Project Literature Review
Fundamentals of Satellite Positioning
Geodetic Reference Systems
Analytical Methods
Photogrammetry and Remote Measurement Techniques
Global Smart City with Integrated BIM
3D Modelling for BIM
Research Project Organization and Planning
Engineering Surveying
BIM and Knowledge Management
BIM+ and its Future

Career options for this degree

In China, BIM has attracted an increasing amount of concern and lots of AEC companies or institutes desire to recruit talented people with relevant BIM skills and experience. Graduates from this program would be expected to find decent jobs in local and international AEC companies. During the academic period, students have opportunities to visit and communicate with large AEC companies, and even enroll as interns after graduation. For those who wish to pursue their academic careers, this postgraduate programme prepares them well for higher level research and to continue onto PhD level.

Our Careers Development Service will work with you to explore your options. They will invite you to attend recruitment events featuring potential employers, and will suggest further opportunities, such as relevant work experience placements and skills workshops.

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The Department of Geography, Environment and Development Studies offers an advanced and flexible Master's degree in Geographic Information Science (GISc) for professionals and researchers who work with (or those who wish to work with) geographically referenced data. Read more
The Department of Geography, Environment and Development Studies offers an advanced and flexible Master's degree in Geographic Information Science (GISc) for professionals and researchers who work with (or those who wish to work with) geographically referenced data. The course covers the philosophical, scientific, social, policy, environmental and technological issues associated with the use of geographic information in an international context, building on the department’s experience in teaching GISc at postgraduate level for over 20 years.

This course will introduce you to the principles and applications of GISc at an advanced level through the development of scientific knowledge, technical expertise and practical experience. You will develop the relevant theoretical background knowledge and a conceptual understanding of GISc, as well as an appreciation of the social and political context of geographical data and the implications of its use. The emphasis throughout this course is on enabling you to develop new skills that have real-world applications for your work and career.

Why study this course at Birkbeck?

Designed for those without previous Geographic Information Science (GISc) experience, or for those with some experience who want to develop their theoretical and practical knowledge.
Brings our long-term tradition of GISc teaching to students who value face-to-face support.
Teaching team includes external collaborators: researchers, private GISc consultants, and GISc professionals working in private industry and public bodies.
Learning resources include a virtual learning environment, GIS software (ArcGIS, free to UK-based students, and IDRISI, available at student rates), GIS practicals (ESRI Virtual Campus, IDRISI and selfcontained) and e-library facilities.
We offer student support and have a range of research resources.

Our research

Birkbeck is one of the world’s leading research-intensive institutions. Our cutting-edge scholarship informs public policy, achieves scientific advances, supports the economy, promotes culture and the arts, and makes a positive difference to society.

Birkbeck’s research excellence was confirmed in the 2014 Research Excellence Framework, which placed Birkbeck 30th in the UK for research, with 73% of our research rated world-leading or internationally excellent.

In the 2014 Research Excellence Framework (REF), Sociology at Birkbeck was ranked 13th in the UK.

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Fascinated by the science of sound? Southampton Solent University’s applied acoustics masters programme can provide you with the skills and knowledge required to work in a range of acoustics fields. Read more

Overview

Fascinated by the science of sound? Southampton Solent University’s applied acoustics masters programme can provide you with the skills and knowledge required to work in a range of acoustics fields. Suitable graduate destinations include consultancy, engineering, environmental health, built environment work or further study at PhD level.

Taught by experts with experience in both research and industry, you can get hands-on experience and learn to use the latest measurement, simulation and modelling technology. You will also study important acoustics principles including how humans respond to sound, acoustic physics, and how sound interacts with our environment.

- Students learn from industry experts with strong backgrounds in industry, research and consultancy roles.
- Southampton Solent’s on-campus acoustics consultancy provides students with the opportunity to work with real clients.
- The curriculum is informed by industry partners and Solent’s strong track record of acoustics research.
- Solent has a 10-year history of successful graduate employment in the acoustic industries.
- Students are given the opportunity to tailor the programme to their own career ambitions by picking from a range of optional units.
- Students have free access to the latest industry-standard technology including a state-of-the-art 3D digital Cinema with Dolby Atmos; a Hemi-anechoic chamber; CadnaA, EASE and CATT software; and a wide variety of lab and field test equipment.

The industry -

Acoustics offers an intellectual and practical challenge across a wide range of sectors - from manufacturing or construction to architecture, telecommunications and engineering.

Acousticians could be involved in designing and planning exciting new infrastructure projects such as airports, motorways and sports arenas; could be responsible for making aeroplanes and cars quieter; or could work on improving the sound quality of consumer electronics. Acousticians are also involved in the design of new buildings – from flats and houses through to skyscrapers and concert halls.

The programme -

Taught by experts with strong research and industry backgrounds, MSc Applied Acoustics offers students the chance to gain hands-on experience with the latest measurement, simulation and modelling technology. Students also study relevant scientific principles such as how humans respond to sound, acoustic physics, and how sound interacts with our environment.

We have excellent links with the Institute of Acoustics (IoA) and the Association of Noise Consultants, as well as a number of commercial companies across the sector. These include KP Acoustics, with whom we have a formal partnership for work placement and mentoring. The course has also been designed to meet the requirements for professional IoA registration.

To aid study and help perfect techniques, students have full access to the University’s laboratory and studio facilities. Students will be able to undertake acoustic measurement and laboratory projects using a wide range of test equipment such as sound level meters, a 16-channel data acquisition system, head and torso simulators, a laser vibrometer and ambisonic microphones. Students will also have access to cutting-edge simulation and modelling software, including MATLAB, NI Labview, CadnaA, CATT Acoustic, and EASE.

The University also offers access to specialist facilities for the testing and demonstration of acoustic and electro-acoustic principles, including a hemi-anechoic chamber, audio isolation booths for sound recording and audiometric testing, and the University’s own digital 3D cinema.

Thanks to the course team’s strong industry connections, students have access to guest speakers from a range of relevant organisations. Previous speakers have included Mark Murphy and Jim Griffiths (Vanguardia Consulting), Nicholas Jones (Hilson Moran) and Phil McIlwain (Westminster City Council).

Course Content

Programme specification document - http://mycourse.solent.ac.uk/course/view.php?id=6152

Teaching, learning and assessment -
The course is taught through classroom seminars/lectures, laboratory sessions and independent learning, as well as your supervised research project. While some laboratory sessions entail working in a group, all assessment is individual.

Partial credit can be awarded to holders of the Institute of Acoustics diploma in acoustics and noise control against equivalent taught modules of the MSc. Please contact the course team for further information.

Work experience -

There are a number of opportunities for work experience with professional partners and contacts, as well as through the University’s own Solent Acoustics consultancy.

Past students have worked on a range of projects, including for Truck Festival, Isle of Wight Festival, Westminster City Council and KP Acoustics.

Additionally, the Professional Skills and Practice unit involves organising your own work placement with an external company, supported by staff and making use of the course team’s industry contacts.

Assessment -

The course is assessed through a mixture of coursework, projects, presentations and practical and written examinations.

Our facilities -

On the master’s course you will have access to a wide range of specialist equipment and facilities, including:

- Hemi-anechoic chamber with 16-channel National Instruments data acquisition system.
- NTi Flexus electroacoustic analysis system with turntable.
- Wide range of Class 1 and 2 Sound level meters.
- Cirrus Research Dosebadge workplace noise assessment kits.
- Building acoustics systems including conical and dodecahedral loudspeakers and tapping machine.
- B&K Head and Torso Simulators (HATS).
- Environmental noise measurement kits.
- Polytec Laser Vibrometer.
- Larson Davis Hand Arm vibration measurement system.
- Siemens Unity and Amplivox audiometers and Larson Davis Audiometer calibration system.
- Computer suites with EASE, CATT and CadnaA acoustic modelling software.

Web-based learning -

Solent’s virtual learning environment provides quick online access to assignments, lecture notes, suggested reading, discussion forums and other course information.

You will also receive a subscription to the online video tutorial resource Lynda.com, to help learn extra professional skills.

The Professional Skills and Practice optional module is a distance/online module, supported through the virtual learning environment.

Why Solent?

What do we offer?

From a vibrant city centre campus to our first class facilities, this is where you can find out why you should choose Solent.

Facilities - http://www.solent.ac.uk/about/facilities/facilities.aspx

City living - http://www.solent.ac.uk/studying/southampton/living-in-southampton.aspx

Accommodation - http://www.solent.ac.uk/studying/accommodation/accommodation.aspx

Career Potential

Acoustics offers an intellectual and practical challenge across a wide range of sectors, from manufacturing or construction to architecture, telecommunications or various engineering industries.

Acousticians could be involved in designing and planning exciting new infrastructure projects such as airports, motorways and sports arenas, or could be responsible for making airplanes and cars quieter, or improving the sound quality of a television or computer.

Acousticians are also involved in the design of new buildings – from flats and houses through to skyscrapers and concert halls.

Career destinations -

Examples of career destinations include:

- acoustic engineer
- audio system designer
- recording studio and concert hall designer
- environmental health officer
- environmental consultant
- audio engineer
- health and safety officer
- building control officer.

Links with industry -

We have excellent links with the Institute of Acoustics and the Association of Noise Consultants, as well as a number of companies across the sector, including KP Acoustics (with whom we have a formal partnership for work placement and mentoring).

Guest speakers from a range of different organisations regularly present seminars and workshops, which have recently included Mark Murphy and Jim Griffiths (Vangardia Consulting), Nicholas Jones (Hilson Moran) and Phil McIlwain (Westminster City Council).

The University also hosts regular industry events and conferences to which students are invited.

Transferable skills -

The MSc in Applied Acoustics offers students a wide variety of transferable skills, such as using software to analyse and present complex data, use of Geographical Information Systems (GIS) and architectural CAD modelling, problem solving, mathematics, project management and research skills.

Further study -

If you are particularly interested in research, the course offers opportunities to continue on to PhD study.

You will also have the chance to gain additional qualifications while you study, such as the Institute of Acoustics (IoA)’s certificates of competence in building acoustics measurement or environmental noise measurement, at significantly reduced cost.

There is also the opportunity to register to take the assessment for the IoA Diploma in Acoustics and Noise Control while taking the MSc (registration fee applies).

Examples of employment obtained by recent graduates -

Solent graduates have gone on to work in acoustics roles for Apple (acoustic engineer), Accon UK, Samsung (audio engineer), Cole Jarman Associates, Hilson Moran, Mott Macdonald, KP Acoustics, Hann Tucker Associates, Hoare Lea, Vangardia Consulting and Clarke Saunders Associates, among others.

Next steps

Looking to hone your knowledge of acoustics while boosting your employability? With top-of-the-line facilities, an experienced teaching team and a history of delivering world-class acoustics tuition, Southampton Solent University’s MSc Applied Acoustics will help equip you with the skills you need to thrive in a range of exciting careers.

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This MSc is a full-time one-year course, consisting of 9 months taught course and 3 months research project, and examined by continuous assessment. Read more
This MSc is a full-time one-year course, consisting of 9 months taught course and 3 months research project, and examined by continuous assessment. The course provides advanced training in marine biology with a strong emphasis on practical training.

The course provides training addressing the following major themes:

Marine Ecology Skills
Habitat Ecology / Coastal Survey
Marine Fisheries
Marine Vertebrates
Marine Invertebrates
Research Design & Planning
Research Project / Dissertation
The programme is achieved through a series of compulsory modules encompassing theory, practical, private study and practical research.

The School of Ocean Sciences at Bangor University has over 50 years experience of teaching at postgraduate level, and excellent teaching and research facilities for the study of the marine biology. Undergraduate teaching was graded excellent in the last Teaching Quality Assessment, and research was graded 4* in the Research Assessment Exercise. NERC has designated the School as a Centre of Excellence in Coastal Seas, Marine Biology and Biological Oceanography.

The MSc course in Marine Biology is one of a suite of 4 focused MSc courses in marine science run within the School. New students on this course are inducted to the University and School via an introductory course consisting of orientation through site tours, excursions and social events, and 5 weeks of quantifying biological variability, learning Information Technology, and practising presentation skills. Pre-sessional English language training courses are also available for overseas students.

The MSc course is managed by a course team comprising of the Course Director, Deputy Course Director and Postgraduate Course Administrator. The team report to the School Course Board, which in turn reports to the College of Natural Sciences. Each student has a personal tutor drawn from the teaching staff. The School has 30 academics teaching and researching across the marine science disciplines of Marine Biology (15), Biogeochemistry (2), Physical Oceanography (6) and Geological Oceanography (7) with a similar overall number of technical staff. Teaching on the MSc Marine Biology will be provided from 'in house' in the main, but additional teaching will be provided from the University's School of Biological Sciences and the National Museum of Wales.

The MSc course is housed in a fully serviced and dedicated postgraduate suite. The School is located on the shores of the Menai Strait which separates the Isle of Anglesey from the mainland. The Menai Strait is a proposed Statutory Marine Resource and EU Special Area of Conservation and there are unspoilt marine environments relatively close by.

The University's newly refurbished science library is located in nearby in Bangor. Specialist facilities in the School include temperate and tropical aquaria, satellite imaging processing and Geographical Information System computing, diving and field survey operations (including ROVs and sledges) and laboratories for benthic analysis, nutrition, microbiology, genetics, radiochemical analysis, stable isotopes, sediments and organic chemistry, scanning electron microscopy. An additional strength in our field teaching, is work at sea aboard the only ocean-going research vessel in the Higher Education sector (RV Prince Madog), which entered service in 2001.

MSc course students can benefit from the School's links with other institutions, especially for research project opportunities. Such links presently include the Virginia Institute of Marine Science, U.S.A., University of Mauritius, Catholic University Chile etc.

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The GIS (Geographical Information Science) MSc provides an education in the theoretical, scientific and practical aspects of GIS. Read more
The GIS (Geographical Information Science) MSc provides an education in the theoretical, scientific and practical aspects of GIS. It prepares students for technical and analytical GIS roles and is in high demand; we have very close links with industry and the majority of our students find employment prior to contemplating their degree.

Degree information

Students gain a solid grounding in the scientific principles underpinning the computational and analytical foundations of GISc. Our staff are world-leading experts in the areas of programming location-enabled Apps, spatial and 3D databases, big spatio-temporal analytics, citizen science and and human computer interaction, and the MSc therefore is able to offer a wide range of options and specialisations.

Students undertake modules to the value of 180 credits. The programme consists of four core modules (60 credits), four optional modules (60 credits) and a research project (60 credits). A Postgraduate Diploma, four core modules (60 credits), four optional modules (60 credits), full-time nine months is offered.

Core modules - core modules introduce the theory underpinning GIS, along with programming skills (python) and the basics of spatial analysis and statistcs. You'll learn to critically engage with GIS rather than just pushing buttons - how does the way data is captured and modelled influence the results of your analysis? Do you get the same results from two different GIS packages? Knowing what is inside the 'black box' means you understand analytical results and their limitations.
-GIS Principles and Technology
-Principles of Spatial Analysis
-Mapping Science
-Representations, Structures and Algorithms

Optional modules - term two is where you start to specialise, chosing modules that fit your interests, intended career choice and/or prepare you for your dissertation. At this point you can chose a heavilty technical route (e.g. databases, programming, human computer interaction) a more analytical route (spatio-temporal data mining, network and locational analysis, databases) or a mixture of the two routes. You will need to chose four modules in total. At least 30 credits of optional modules selected from :
-Geographical Information System Design
-Spatio-Temporal Analysis and Data Mining
-Web and Mobile GIS – Apps and Programming
-Spatial Databases and Data Management

Plus no more than 30 credits of optional modules (all term two) selected from :
-Airborne Data Acquisition
-Applied Building Information Modelling
-Network and Locational Analysis
-Image Understanding
-Ocean and Coastal Zone Management
-Positioning
-Research Methods
-Terrestrial Data Acquisition

Dissertation/report
All students undertake an independent research project which culminates in a dissertation of 10,000–15,000 words. Where appropriate, this may be undertaken in conjunction with one of our many industrial partners, including Arup, Joint Research Centre, British Red Cross, Transport for London.

Teaching and learning
The programme is delivered through lectures, practical classes, demonstrations and tutorials, and is supported by a series of external speakers from industry and visits to industrial who give weekly seminars describing how GIS is used in their field as well as what they are looking for when recruiting graduate GIS students. Assessment is through unseen examinations, group and individual coursework, formal and oral presentations, and the dissertation.

Careers

There are excellent employment prospects for our graduates, with starting salaries of around £25,000. Recent GIS graduates have found openings with large engineering design firms (such as Arup or WSP), specialist consultancy firms such as Deloitte or Informed Solutions, in leading professional software companies (such as ESRI or Google), with local authorities, for organisations such as Shell, Tesco, the Environment Agency, Transport for London, NHS and the Ordnance Survey.

Employability
Students will develop specific skills including a fundamental understanding of GIS and its application to real-world problems, through theoretical lectures covering the foundations of the science – how data is captured, map creation, generalisation, spatial data management, spatial analysis, data quality and error, and spatial algorithms. Students will develop strong technical (python, R, Java, HTML, Javascript, SQL) and analytical skills (data mining, human computer interaction and usability), and in order to fully understand the principles behind GIS will make use of multiple GIS packages, both proprietary and free/open source (ArcGIS, QGIS).

Why study this degree at UCL?

This highly regarded MSc has been running for nearly 30 years and is taught by internationally recognised academics. Our specialist GIS laboratory offers the latest open source and proprietary software and our unique dual focus on the computer science and analytical aspects of GIS means that you will be able to develop your skills in multiple directions.

Our close links with industry (a strong alumni group and weekly industrial seminars) mean that you will be able to directly link your classroom learning with your future career as a GIS professional; you can also undertake your dissertation with an industrial partner.

As well as weekly industrial seminars, you will have the option to do an industry-linked project, and you will be able to attend our annual GIS careers event, which is co-organized with the UK Assocation of Geographic Infrormation.

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The two year MSc programme Biosystems Engineering is for students with an (agricultural) engineering background on bachelor level that are interested to pursue a MSc degree in a field where the interaction between technology and biology plays an important role. Read more

MSc Biosystems Engineering

The two year MSc programme Biosystems Engineering is for students with an (agricultural) engineering background on bachelor level that are interested to pursue a MSc degree in a field where the interaction between technology and biology plays an important role.

Programme summary

During the master Biosystems Engineering, students are educated in finding innovative solutions. The programme combines knowledge of technology, living systems, natural and social sciences with integrated thinking using a systems approach. Solutions can be applied to either the field of food or nonfood agricultural production. During the programme, you develop independence and creativity while acquiring skills that enable you to analyse problems and work as part of an interdisciplinary team. Biosystems Engineering is a tailor-made, thesis oriented programme based on the specific interests and competencies of the student.

Thesis tracks

Farm Technology
This topic consists of four main themes, namely automation for bioproduction, greenhouse technology, livestock technology and soil technology. All these topics have the shared goal of designing systems in which technology is applied to the demands of plants, animals, humans and the environment. Examples of such applications include precision agriculture, conservation tillage, fully automated greenhouses and environmentally friendly animal husbandry systems that also promote animal welfare.

Systems and Control
Production processes and various kinds of machinery have to be optimised to run as efficiently as possible; and with the least amount of possible environmental impact. To achieve this, computer models and simulations are developed and improved. Examples include designing control systems for a solar-powered greenhouse to include a closed water cycle and designing a tomato-harvesting robot.

Information Technology
Information and communication play a vital role in our society. It is necessary to acquire, use and store data and information to optimise production processes and quality in production chains. This requires the design and management of business information systems, software engineering, designing databases and modelling and simulation.

Environmental Technology
Environmental technology revolves around closing cycles and reusing waste products and by-products. Processes have to be designed in such a way that they either reuse waste or separate it into distinct and reusable components. Examples include the production of compost, the generation of green energy or the design of environmentally friendly animal husbandry systems and greenhouses.

AgroLogistics
The goals of agrologistics are to get the right product in the right quantity and quality at the right time and to the right place as efficiently as possible while fulfilling the requirements of the stakeholders (such as government legislation and regulations). This requires the design of effective, innovative logistics concepts in agrifood chains and networks. Examples are the design of greenhouses developed for optimal logistics or designing a dairy production process with minimal storage costs.

Biobased Technology
The importance of biobased economy is increasing. Energy savings and the use of renewable energy are directions for achieving an environmentally sustainable industrial society. Biomass of plants, organisms and biomass available can be turned into a spectrum of marketable products and energy. In this track, you learn more about process engineering, biological recycling technology, biorefinery and how to abstract a real system into a physical model and analyse the physical model using dedicated software.

Your future career

Most graduates are employed in the agrofood sector, or related sectors of industry and trade, from local to international companies. They are project leaders, product managers, technical experts, sales specialists or managers at many kinds of companies including designers of agricultural buildings (animal husbandry systems, greenhouses) and bioenergy production systems. Others find jobs with IT companies (climate control computers, automated information systems) or firms in the agro-food chain that produce, store, process, distribute and market agricultural products. In the service sector or at governments, graduates enter careers as consultants, information officers or policymakers in the fields of technology and sustainable agricultural production, while others enter research careers at institutes or universities.

Alumnus Patrick Honcoop.
"I am working as a product manager at 365 FarmNet in Germany. 365FarmNet supports farmers to manage their whole agrarian holding with just one software application. I am responsible for the content of the software. I am the link between the farmers, the agrarian holdings and the software developers. I really enjoy these dynamics and variety within my function. Just like during my studies, when we visited farmers, companies and fairs during courses and excursions organised by the study association."

Related programmes:
MSc Animal Sciences
MSc Plant Sciences
MSc Geo-information Science
MSc Geographical Information Management and Applications
MSc Organic Agriculture

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