Working with Map Projections: A Guide to their Selection / Edition 1 available in Paperback, eBook
Working with Map Projections: A Guide to their Selection / Edition 1
- ISBN-10:
- 1138304980
- ISBN-13:
- 9781138304987
- Pub. Date:
- 05/21/2019
- Publisher:
- Taylor & Francis
- ISBN-10:
- 1138304980
- ISBN-13:
- 9781138304987
- Pub. Date:
- 05/21/2019
- Publisher:
- Taylor & Francis
Working with Map Projections: A Guide to their Selection / Edition 1
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Overview
This book also explains how the map projection will impact the map’s ability to fulfill its purpose, uses real-world data sets as the basis for the selection of an appropriate map projection, and provides illustrations of an appropriately and inappropriately selected map projection for a given data set. The authors take a novel approach to discussing map projections by avoiding an extensive inventory of mathematical formulae and using only the mathematics of map projections that matter for many mapping tasks. They also present information that is directly applicable to the process of selecting map projections and not tied to a specific software package.
Written by two leading experts, this book is an invaluable resource for anyone studying or working with geospatial data, from students to experienced professionals, and will help readers successfully weigh the pros and cons of choosing one projection over another to suit a map’s intended purpose.
Product Details
| ISBN-13: | 9781138304987 |
|---|---|
| Publisher: | Taylor & Francis |
| Publication date: | 05/21/2019 |
| Pages: | 317 |
| Product dimensions: | 6.12(w) x 9.19(h) x (d) |
About the Author
Fritz Kessler, PhD, is a senior research associate and an associate professor at Penn State University. His primary responsibilities are teaching in the resident and online world campus environments. Some of the courses he has taught include map projections, datums, and coordinate systems, cartography, surveying, GIS, spatial statistics, and research methods. Dr. Kessler's research interests include map projections, geographic visualization, and cognitive cartography. His recent publications include a co-authored book, Thematic Cartography and GeoVisualization; an article, “Volunteered Geographic Information: A Bicycling Enthusiast Perspective” in Cartography and Geographic Information Science; two co-authored papers, “Analysis of Thematic Maps Published in Two Geographical Journals in the Twentieth Century” in Annals of the Association of American Geographers and “Cues for Interpreting Distortion in Map Projections” in Journal of Geography; a co-authored book chapter “Thematic Mapping” in The History of Cartography Project, Volume 6: Cartography in the Twentieth Century; a chapter contribution “Symbolizing America” to Mapping American: Exploring the Continent; and an authored entry “Projections” in the International Encyclopedia of Human Geography. Dr. Kessler earned a PhD in geography in 1999 at the University of Kansas, an MS at Penn State, and a BS at Ohio University. He is a member of the International Cartographic Association Commission on Map Projections, vice president of the North American Cartographic and Information Society, and a board member of the Cartography and Geographic Information Society. He was a former editor in chief of Cartographic Perspectives.
Sarah E. Battersby, PhD, is a senior research scientist at Tableau Software. Her primary area of focus is cartography with an emphasis on cognition. Her work emphasizes how we can help people visualize and use spatial information more effectively. Her research has covered a variety of areas, including perception in dynamic map displays, geospatial technologies and spatial thinking abilities, and the impact of the map projection on spatial cognition. Sarah earned a PhD in geography in 2006 at the University of California at Santa Barbara. She is a member of the International Cartographic Association Commission on Map Projections and a past president (2015-2016) of the Cartography and Geographic Information Society, a society composed of educators, researchers, and practitioners involved in the design, creation, use, and dissemination of geographic information. Dr. Battersby is also a member of the National Geospatial Advisory Committee, a Federal Advisory Committee sponsored by the Department of the Interior under the Federal Advisory Committee Act.
Table of Contents
Preface xiii
Acknowledgments xv
Authors xvii
Part I Projection Basics, Cartographic Symbolization, Projection Influences on People's Mental Maps, and Selecting Projections
1 Introduction 5
Mathematical Complexity 5
Thread 1 Ellipsoid vs. Sphere Earth Models 6
Thread 2 Projection Parameters 7
Map Projection Terminology 8
Scattered Map Projection Literature 11
Map Projections as a Map Design Variable 12
The Problem of Selecting a Map Projection 15
This Book's Structure 16
2 A Gentle Introduction to Map Projections 19
Earth's Latitude and Longitude 20
Earth's Shape and Size 22
The Map Projection Process 26
Projection Equations 27
Spherical vs. Ellipsoidal Projection Equations 31
The Map Projection Properties 31
Preserving Angles (Conformal Property) 32
Preserving Areas (Equal Area Property) 33
Preserving Distances (Equidistant Property) 35
Preserving Directions (Azimuthal Property) 38
Preserving No Specific Property (Compromise) 38
Projection's Influence on Map Design 40
The Map's Shape: The Projection Class 40
Focusing the Map's Center: The Projection Aspect 42
Map Projection Distortion 43
Distortion Patterns and Projection Class 43
Distortion Patterns and Projection Property 45
Distortion Patterns and Standard Point or Line(s) 48
Distortion Impacts on Shapes of Landmasses 52
Conclusion 55
Notes 56
3 Representing Spatial Data through Cartographic Symbolization 59
Types of Maps 60
The Map Abstraction Process 61
Conceptualizing Earth's Geographic Phenomena 64
Spatial Dimensions 64
Typology of Geographic Phenomena 65
Levels of Data Measurement 67
Visual Variables 69
Shape 69
Hue 69
Orientation 72
Pattern 72
Hue 74
Value 75
Saturation 75
Size 76
Cartographic Symbolization Methods 76
Choropleth 76
Dot Density 77
Proportional Symbol 77
Isarithmic 78
Dasymetric 79
Cartogram 81
Map Reading Tasks 81
Pre-Map Reading 83
Detection and Recognition 84
Estimation 85
Conclusion 87
4 Map Projections' Influence on Data Representation 91
Interpreting Map Projections 92
The Edge of the Map (Periphery) 98
Long-Term Impacts of Map Projection? 100
Does the Projection Look "Right" or "Wrong"? 102
Is the Overall Shape Appealing? 105
Aesthetics and Fit 108
Conclusion 109
5 Assistance Using Projection Selection Guidance Tools 113
Projection Properties of Importance 114
Geographic Location, Size, and Shape 118
Broader Design and Analytic Considerations 123
Projection Shape 123
Arrangement of the Graticule 125
Appearance of the Poles 129
Interpretability 131
Conclusion 133
Part II Projection Selection by Map Type
6 Continuously Occurring and Abruptly Changing 141
Visual Analysis Tasks 142
Impact of Projection on Choropleth Maps 143
Equal Area Projections 143
Conformal Projections 147
Equidistant Projections 147
Compromise Projections 147
Large-Scale Projections 148
Conclusion 149
7 Continuously Occurring and Smoothly Changing 151
Visual Analysis Tasks 153
Spatial Interpolation: An Initial Step in Isarithmic Mapping 154
Impact of Projections on Calculating Values for Isarithmic Maps 156
Distance Measurements 158
Datum and Grid Systems 160
Equidistant Projections 161
Conformal Projections 163
Spatial Interpolation Results 164
Impact of Projection on Design for Isarithmic Maps 165
Equidistant Projections 168
Conformal Projections 169
Equal Area Projections 171
Compromise Projections 175
Conclusion 176
Notes 177
8 Discretely Occurring and Smoothly Changing 179
Visual Analysis Task 181
Impact of Projection on Dot Maps 182
Equal Area Projections 182
Conformal Projections 186
Equidistant Projections 189
Large-Scale Projections 192
General Challenges 192
Conclusion 195
9 Discretely Occurring and Abruptly Changing 197
Proportional Point Symbols 201
Proportional Line Symbols 202
Visual Analysis Tasks 202
Impact of Projections on Proportional Symbol Maps 202
Equal Area Projections 202
Conformal Projections 205
Compromise Projections 206
Equidistant Projections 208
Map Design Considerations on Proportional Symbol Maps 211
Projection Class 212
Projection Aspect 214
Poles Represented as Points or Lines 215
Interruptions 217
Map Design Considerations on Flow Maps 219
Distance Calculation 219
Direction Calculation 221
Show the Flow Paths 221
Enhanced Visual Appearance 221
Conclusion 223
10 Special Maps 225
Spatial Bin Maps 225
Tasks for Maps Using Spatial Bins 226
Projection Considerations for Spatial Bin Maps 228
Heatmaps 234
Tasks for Heatmaps 235
Projection Considerations for Heatmaps 235
Projections for Other Special Mapping Purposes 236
Mapping Rhumb Lines 238
Mapping Great Circle Routes 240
Measuring Distances between Locations 240
Measuring Directions between Locations 241
Conclusion 242
Note 243
11 Web-Based Map Projection Resources 245
Introduction 245
Projection Tools and Applications 245
Visualizing and Selecting Projections 247
Adaptive Composite Map Projections (ACMP) 247
Projection Wizard 248
Geocart 249
ICA's Map Projection Visualization Tool 253
Visualizing Map Distortion 255
Comparing Map Projections 257
Customizing and Reprojecting Datasets 258
G.Projector-Global Map Projector 258
Flex Projector 259
Programming Languages, Libraries, and Tools for Projections 263
Common Programming Languages 263
Code Libraries 264
Tools 266
Learning about Map Projections 266
Geographer's Craft 267
Geokov: Map Projections 267
Axis Maps 267
Geocart 267
USGS Map Projection Poster 268
Radical Cartography 268
ICA's Commission on Map Projections 268
Map Projection Galleries 268
A Gallery of Map Projections 269
Map Projections-Complete Directory of Map Network Designs 269
Wolfram MathWorld: Map Projections 269
MicroCAM 269
Institute of Discrete Mathematics and Geometry: Picture Gallery of Map Projections 269
Compare Map Projections 270
Appendix 273
Bibliography 287
Index 291