Table of Contents

Foreword.

Acknowledgements.

Authors’ Biographies.

1. The Power of Geographical Visualizations (Martin Dodge, Mary McDerby and Martin Turner).

1.1 Aims.

1.2 The nature of geographic visualization.

1.3 The visualization process.

1.4 Digital transition and geographic visualization.

1.5 The politics of visualization.

1.6 The utility of geographic visualization.

1.7 Conclusions.

References.

2. What does Google Earth mean for the Social Sciences (Michael F. Goodchild).

2.1 Introduction.

2.2 Major features of Google Earth.

2.3 Fundamental spatial concepts.

2.4 The social perspective.

2.5 Research challenges.

2.6 Conclusions.

References.

3. Coordinated Multiple Views for Exploratory GeoVisualization (Jonathan C. Roberts).

3.1 Introduction.

3.2 Data preparation.

3.3 Informative visualizations.

3.4 Interaction and manipulation.

3.5 Tools and toolkits.

3.6 Conclusions.

References.

4. The Role of Map Animation for Geographic Visualization (Mark Harrower and Sara Fabrikant).

4.1 Introduction.

4.2 Types of time.

4.3 The nature of animated maps.

4.4 Potential pitfalls of map animation.

4.5 Conclusions.

References.

5. Telling an Old Story with New Maps (Anna Barford and Danny Dorling).

5.1 Introduction: re-visualizing our world.

5.2 Method and content.

5.3 The champagne glass of income distribution.

References.

6. Re-visiting the Use of Surrogate Walks for Exploring Local Geographies Using Non-immersive Multimedia (William Cartwright).

6.1 Introduction.

6.2 Queenscliff Video Atlas.

6.3 GeoExploratorium.

6.4 Townsville GeoKnowledge Project.

6.5 Jewell Area prototype.

6.6 Melbourne Historical Buildings Demonstration Product.

6.7 Testing the user’s perception of space and place.

6.8 Further development work.

6.9 Conclusion.

Acknowledgements.

References.

7. Visualization with High-resolution Aerial Photography in Planning-related Property Research (Scott Orford).

7.1 Introduction.

7.2 Applications of aerial photography in planning-related property research.

7.3 Aerial photography, property and surveillance.

7.4 Conclusion.

References.

8. Towards High-resolution Self-organizing Maps of Geographic Features (André Skupin and Aude Esperbé).

8.1 Introduction.

8.2 Self-organizing maps.

8.3 High-resolution SOM.

8.4 High-resolution SOM for Climate Attributes.

8.5 Summary and outlook.

Acknowledgements.

References.

9. The Visual City (Andy Hudson-Smith).

9.1 The development of digital space.

9.2 Creating place and space.

9.3 Visual cities and the visual Earth.

9.4 The development of virtual social space.

9.5 The future: the personal city.

References. 

10. Travails in the Third Dimension: a Critical Evaluation of Three-dimensional Geographical Visualization (Ifan D H Shepherd).

10.1 Introduction.

10.2 What is gained by going from 2D to 3D?.

10.3 Some problems with 3D views.

10.4 Conclusions.

Acknowledgements.

References.

11. Experiences of Using State of the Art Immersive Technologies for Geographic Visualization (Martin Turner and Mary McDerby).

11.1 Introduction.

11.2 The human visual system.

11.3 Constructing large-scale visualization systems.

11.4 Rules and recommendations.

11.5 The future - a better and cheaper place.

References.

12. Landscape Visualization: Science and Art (Gary Priestnall and Derek Hampson).

12.1 Landscape visualization: contexts of use.

12.2 The need for ground truth.

12.3 Outcomes from fieldwork exercises.

12.4 Broadening the context.

12.5 The Chat Moss case study.

12.6 Discussion.

12.7 Conclusion.

Acknowledgements.

References.

13. Visualization, Data Sharing and Metadata (Humphrey Southall).

13.1 Introduction.

13.2 The data documentation initiative and the aggregate data extension.

13.3 Implementing the DDI within the GB Historical GIS.

13.4. Driving visualization in Vision of Britain.

13.5 Conclusion.

Acknowledgements.

References.

14. Making Uncertainty Usable: Approaches for Visualizing Uncertainty Information (Stephanie Deitrick and Robert Edsall).

14.1 Introduction: the need for representations of uncertainty.

14.2 The complexity of uncertainty.

14.3 Uncertainty visualization: a user-centred research agenda.

14.4 Conclusion.

References.

15. Geovisualization and Time - New Opportunities for the Space-Time Cube (Menno-Jan Kraak).

15.1 Introduction.

15.2 Hägerstrand’s time geography and the space-time cube.

15.3 Basics of the space-time cube.

15.4 The space-time cube at work.

15.5. Discussion.

References.

16. Visualizing Data Gathered by Mobile Phones (Michael A. E. Wright, Leif Oppermann and Mauricio Capra).

16.1 Introduction.

16.2 What are we visualizing?

16.3 How can we visualize this data?

16.4 Case studies.

16.5 Discussion.

16.6 Conclusion.

References.

Index.

About the Author

Martin Dodge
Lecturer in Human Geography
School of Environment and Development, University of Manchester, UK
Martin Dodge works at the University of Manchester as a Lecturer in Human Geography. His research focuses primarily on the geography of cyberspace, particularly ways to map and visualize the Internet and the Web. He is the curator of a web-based Atlas of Cyberspace (www.cybergeography.org/atlas) and has co-authored two books,Mapping Cyberspace (Routledge, 2000) and Atlas of Cyberspace (Addison-Wesley 2001), both with Rob Kitchin.

Mary McDerby
Visualization Support Officer
Research Computing Services, University of Manchester, UK
Mary McDerby is visualization support officer in Research Computing Services providing visualization, computer graphics, multimedia and image processing services to the University of Manchester. Her research is in the visualization of complex datasets within a virtual reality environment, as well as medical visualization. She is active in both national and international computer graphics/visualization communities such as Eurographics, and has been a co-editor of the proceedings of the UK chapter for the past three years.

Martin Turner
Visualization Team Leader
Research Computing Services, University of Manchester, UK
Martin Turner is the Visualization Team Leader within Research Computing Services at the University of Manchester. He gained his PhD in the Computer Laboratory, at Cambridge University. His research in visualization and image processing has resulted in a Fellowship with British Telecom, a published book, Fractal Geometry in Digital Imaging (Academic Press, 1998) as well as over 50 other publications, and he has supervised to completion seven successful MPhil/PhD students. Key activities and grants cover both local and nationally funded high-end visualization services as well as commercial contracts.