Abstract
The field of map projections can be described as mathematical, static, and challenging. However, this description is evolving in concert with the development of the Internet. The Internet has enabled new outlets for software applications, learning, and interaction with and about map projections . This chapter examines specific ways in which the Internet has moved map projections from a relatively obscure paper-based setting to a more engaging and accessible online environment. After a brief overview of map projections, this chapter discusses four perspectives on how map projections have been integrated into the Internet. First, map projections and their role in web maps and mapping services is examined. Second, an overview of online atlases and the map projections chosen for their maps is presented. Third, new programming languages and code libraries that enable map projections to be included in mapping applications are reviewed. Fourth, the Internet has facilitated map projection education and research especially with the map reader’s comprehension and understanding of complex topics like map projection distortion is discussed.
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References
Aitoff D (1899) Projections des Cartes Géographiques. In: Atlas de Géographie Moderne Paris. Hachette, New York
American Cartographic Association, American Geographical Society, Association of American Geographers, Canadian Cartographic Association, National Council for Geographic Education, National Geographic Society, and Special Libraries Association, Geography and Map Division (1989) Resolution regarding the use of rectangular world maps. Am Cartographer 16(3):223
Anderson KC, Leinhardt G (2002) Maps as representations: expert novice comparison of projection understanding. Cogn Instr 20(3):283–321
Battersby SE (2009) The effect of global-scale map-projection knowledge on perceived land area. Cartographica 44(1):33–44
Battersby SE, Finn MP, Usery EL, Yamamoto KH (2014) Implications of web mercator and its use in online mapping. Cartographica 49(2):85–101. doi:10.3138/carto.49.2.2313
Battersby SE, Kessler FC (2012) Cues for interpreting distortion in map projections. J Geogr 111(3):93–101
Bostock M, Ogievetsky V, Heer J (2011) D3: data-driven documents. IEEE Trans Vis Comput Graph (Proc. InfoVis)
Brewer CA, Buttenfield BP (2007) Framing guidelines for multi-scale map design using databases at multiple resolutions. Cartography Geog Informa Sci 34(1):3–15
Bugayevskiy LM, Snyder JP (1995) Map projections: a reference manual. Taylor and Francis, London
Cavell JA (2005) USNG: getting it right the first time. The American Surveyor. June issue. http://www.amerisurv.com/PDF/TheAmericanSurveyor_USNationalGrid-Cavell_June2005.pdf. Accessed 10 Jan 2015
Cecconi A, Galanda M (2002) Adaptive Zooming in Web Cartography. Comput Graph Forum 21:787–799. doi:10.1111/1467-8659.00636
Clarke KC (2002) Criteria and measures for the comparison of global geocoding systems. In: Goodchild MF, Kimerling AJ (eds) Discrete global grids: a web book. http://www.ncgia.ucsb.edu/globalgrids-book/. Accessed 10 Jan 2015
Clarke P (2005) Dynamic web-mapping using scalable vector graphics (SVG). In: Proceedings ESRI user conference 2005. http://proceedings.esri.com/library/userconf/proc05/papers/pap1997.pdf. Accessed 10 Jan 2015
Downs RM, Liben LS (1991) The development of expertise in geography: a cognitive-developmental approach to geographic education. Ann Assoc Am Geogr 81(2):304–327
Eckert M (1906) Neue Entwürfe für Erdkarten. Petermanns Mitteilungen 52(5):97–109
Eisenlohr F (1870) Ueber Flächenabbildung. Journal für rein und angewandte Mathematik 72(2):299–307
Federal Geographic Data Committee [FGDC]. Educational resources for the United States National Grid. https://www.fgdc.gov/usng/educational-resources/index_html. Accessed 10 Jan 2015
Finn MP, Liu Y, Mattli DM, Behzad B, Yamamoto KH, Guan Q, Shook E, Padmanabhan A, Stramel M, Wang S (2014a) High-performance small-scale raster map projection transformation on cyberinfrastructure. Wang S, Goodchild MF (eds) Paper accepted for publication as a chapter in CyberGIS: fostering a new wave of geospatial discovery and innovation, Springer, Berlin
Finn MP, Steinwand DR, Trent JR, Buehler RA, Mattli D, Yamamoto KH (2012) A program for handling map projections of small scale geospatial raster data. Cartographic Perspect 71:53–67
Finn MP, Usery EL, Woodard L, Yamamoto KH (2014b) The logic of selecting an appropriate map projection in a decision support system (DSS). In: Lapaine M, Usery EL (eds) Chapter this volume: map projection choice. International Cartographic Association, Springer, Berlin
Flanagan D, Ferguson P (2006) JavaScript: the definitive guide, 5th edn. O’Reilly & Associates
Gaffuri J (2012) Toward web mapping with vector data. LNCS 7478: geographic information science. In: Proceedings of GIScience 2012. Springer, Berlin, pp 87–101
Hassler F (1825) On the mechanical organization of a large survey, and the particular application to the survey of the coast. Am Philos Soc Trans New Ser 2:358–408
Jenny B (2012) Adaptive composite map projections. IEEE Trans Visual Comput Graphics 18(12):2757–2782
Jenny B, Patterson T, Hurni L (2008) Flex projector—interactive software for designing world map projections. Cartographic Perspect 59:12–27 and 68
Lienert C, Jenny B, Schnabel O, Hurni L (2012) Current trends in vector-based internet mapping—a technical review. In: Peterson MP (ed) Online maps with APIs and mapservices., Lecture notes in geoinformation and cartographySpringer, Berlin, pp 23–36
Maling DH (1992) Coordinate systems and map projections, 2nd edn. Pergamon Press, Elmsford NY
Mikkonen T, Taivalsaari A (2007) Using JavaScript as a real programming language. Technical Report TR-2007-168, Sun Microsystems Laboratories
Miller O (1942) Notes on cylindrical world map projections. Geogr Rev 32(3):424–430
Monmonier M (1995) Drawing the line: tales of maps and cartocontroversy. Holt, New York
Monmonier M (2004) Rhumb lines and map wars: a social history of the mercator projection. University of Chicago Press, Chicago IL
NGA (2014) NGA Advisory Notice on “Web Mercator”. http://Earth-info.nima.mil/GandG/wgs84/web_mercator/. Accessed 10 Jan 2015
NGA Office of Geomatics (2014) Implementation practice Web Mercator projection. National Geospatial-Intelligence Agency (NGA) Standardization Document, version 1.0.0, 18 Feb 2014. http://Earth-info.nima.mil/GandG/wgs84/web_mercator/%28U%29%20NGA_SIG_0011_1.0.0_WEBMERC.pdf. Accessed 10 Jan 2015
Olson JM (2006) Map projections and the visual detective: how to tell if a map is equal-area, conformal, or neither. J Geogr 105:13–32
Ordinance Survey (2015) The National Grid. http://www.ordnancesurvey.co.uk/resources/maps-and-geographic-resources/the-national-grid.html. Accessed 10 Jan 2015
Robinson A (1974) A new map projection: its development and characteristics. Int Yearb Cartography 145–155
Robinson A (1990) Rectangular world maps—no! Profes Geogr 42(1):101–104
Samsonov T (2011) Multiscale hypsometric mapping. In: Advances in cartography and GIScience. Lecture notes in geoinformation and cartography (LNGC), vol 1. Springer, Berlin, Heidelberg, pp 497–520
Samsonov T, Podolsky A, Yurova N (2013) Multimapper—prototype system for designing multi-scale maps. In: Proceedings international cartographic conference 2013. http://icaci.org/files/documents/ICC_proceedings/ICC2013/_extendedAbstract/219_proceeding.pdf. Accessed 10 Jan 2015
Slocum T, McMaster R, Kessler F, Howard H (2009) Thematic cartography and geovisualization. Pearson Prentice Hall, Upper Saddle River, NJ
Snyder JP (1987) Map projections: a working manual (U.S. Geological Survey Professional Paper). U.S. Government Printing Office, 1395, Washington DC
Snyder JP (1993) Flattening the earth: 2000 years of map projections. University of Chicago Press, Chicago, IL
Snyder JP, Voxland P (1989) An album of map projections. US Geological Survey, Washington DC
Stem JE (1989) State plane coordinate system of 1983. NOAA Manual NOS-NG-5. U.S. Department of Commerce, Washington DC
University of Hawaii (2014) What is GMT? School of ocean and earth science and technology. http://gmt.soest.hawaii.edu/projects/gmt/wiki. Accessed 10 Jan 2015
Vujakovic P (2002) Whatever happened to the ‘new cartography?’ The world map and development mis-education. J Geogr High Educ 26(3):369–380
Warmerdam F (2008) The geospatial data abstraction library. In: Hall GB, Leahy MG (eds) Chapter 5 of open source approaches in spatial data handling. Springer, New York, pp 87–104
Wessel P, Smith WHF, Scharroo R, Luis JF, Wobbe F (2013) Generic mapping tools: improved version released. EOS Trans Am Geophys Union 94:409–410
W3C (World Wide Web Consortium) (2003) Extensible Markup Language (XML). http://www.w3.org/XML/. Accessed 10 Jan 2015
W3C (World Wide Web Consortium) (2010) Scalable Vector Graphics (SVG). http://www.w3.org/Graphics/SVG/. Accessed 10 Jan 2015
Yang Q, Snyder JP, Tobler WR (2000) Map projection transformation: principles and applications. Taylor and Francis, New York
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Kessler, F.C., Battersby, S.E., Finn, M.P., Clarke, K.C. (2017). Map Projections and the Internet. In: Lapaine, M., Usery, E. (eds) Choosing a Map Projection. Lecture Notes in Geoinformation and Cartography(). Springer, Cham. https://doi.org/10.1007/978-3-319-51835-0_4
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