Skip to main content

We use cookies to distinguish you from other users and to provide you with a better experience on our websites. Close this message to accept cookies or find out how to manage your cookie settings.

Close cookie message
Cancel
×
×
Home
  • Home
Chapter
  • Get access
    Buy the print book
    Check if you have access via personal or institutional login
    Log in Register Recommend to librarian
  • Cited by 3
  • Cited by
    Crossref Citations
    Crossref logo
    This (lowercase (translateProductType product.productType)) has been cited by the following publications. This list is generated based on data provided by CrossRef.
    Griffin, Amy L. White, Travis Fish, Carolyn Tomio, Beate Huang, Haosheng Sluter, Claudia Robbi Bravo, João Vitor Meza Fabrikant, Sara I. Bleisch, Susanne Yamada, Melissa and Picanço, Péricles 2017. Designing across map use contexts: a research agenda. International Journal of Cartography, Vol. 3, Issue. sup1, p. 90.
    Kiefer, Peter Giannopoulos, Ioannis Raubal, Martin and Duchowski, Andrew 2017. Eye tracking for spatial research: Cognition, computation, challenges. Spatial Cognition & Computation, Vol. 17, Issue. 1-2, p. 1.
    Reichenbacher, Tumasch De Sabbata, Stefano Purves, Ross S. and Fabrikant, Sara I. 2016. Assessing geographic relevance for mobile search: A computational model and its validation via crowdsourcing. Journal of the Association for Information Science and Technology, Vol. 67, Issue. 11, p. 2620.
    ×
  • Online publication date: July 2015

35 - Toward Empirically Verified Cartographic Displays

from Part V - Perception and Design
Export citation
Recommend this book

Email your librarian or administrator to recommend adding this book to your organisation's collection.

The Cambridge Handbook of Applied Perception Research
  • Online ISBN: 9780511973017
  • Book DOI: https://doi.org/10.1017/CBO9780511973017
Please enter your name
Please enter a valid email address
Who would you like to send this to *

CAPTCHA *

Skip to the audio challenge
×

References

Baldauf, M., Fröhlich, P. and Hutter, S. (2010). KIBITZER: A wearable system for eye-gaze-based mobile urban exploration. In H. Saito et al., AH’10: Proceedings of the 1st Augmented Human International Conference. (Article No. 9) New York: ACM.
Barber, P. and Harper, T. (2010). Magnificent maps: Power, propaganda and art. London: The British Library.
Bertin, J. (1967/1983) Sémiologie Graphique: les diagrammes – les réseaux – les cartes (Semiology of Graphics). Madison: University of Wisconsin Press.
Biocca, F., Owen, C., Tang, A. and Bohil, C. (2007). Attention issues in spatial information systems: Directing mobile users’ visual attention using augmented reality. Journal of Information Systems, 23(4), 163–184.
Brooke, J. (1996). SUS: A “quick and dirty” usability scale. In: Jordan, P. W., Thomas, B., Weerdmeester, B. A. and A. L. McClelland (Eds.), Usability evaluation in industry (pp. 189–194). London: Taylor and Francis.
Brodersen, L., Andersen, H. K. and Weber, S. (2001). Applying eye-movement tracking for the study of map perception and map design. Copenhagen: Kort and Matrikelstyrelsen (National Survey and Cadastre), Publications Series 4. Available from KMS, Rentemestervej 8, DK – 2400 Copenhagen NV, Denmark. Downloaded from www.kms.dk.
Brunyé, T. T. and Taylor, H. A. (2008) When goals constrain: Eye movements and memory for goal-oriented map study. Applied Cognitive Psychology, 22, 1–16.
Canham, M. and Hegarty, M. (2010). Effects of knowledge and display design on comprehension of complex graphics. Learning and Instruction, 20, 155–166.
Charness, N., Reingold, E. M., Pomplun, M. and Stampe, D. M. (2001). The perceptual aspects of skilled performance in chess: Evidence from eye movements. Memory and Cognition, 29(8), 1146–1152.
Çöltekin, A., Fabrikant, S. I. and Lacayo, M. (2010). Exploring the efficiency of users’ visual analytics strategies based on sequence analysis of eye movement recordings. International Journal of Geographical Information Science, 24(10), 1559–1575.
Çöltekin, A., Heil, B., Garlandini, S. and Fabrikant, S. I. (2009). Evaluating the effectiveness of interactive map interface designs: A case study integrating usability metrics with eye-movement analysis. Cartography and Geographic Information Science, 36(1), 5–17.
Davies, C., Cannon, C. and Gould, J. (2007). The eyes have it: Human change detection. In G. Hart et al., Ordnance Survey Research Annual Review 2006–07. Southampton, UK: Ordnance Survey, pp. 10–11. Available from: Ordnance Survey, Adanac Drive, Southampton SO16 0AS, UK. Downloaded from www.ordnancesurvey.co.uk.
Davies, C. and Peebles, D. (2010). Spaces or scenes: Map-based orientation in urban environments. Spatial Cognition and Computation 10 (2–3), 135–156.
Davies, C., Tompkinson, W., Donnelly, N., Gordon, L. and Cave, K. (2006). Visual saliency as an aid to updating digital maps. Computers in Human Behavior, 22, 672–684.
Dent, B. D. (1999). Cartography: Thematic map design. Dubuque, IA: Wm. C. Brown.
Eckert, M. (1908/1977). On the nature of maps and map logic (trans. W. Joerg). In L. Guelke (Ed.), Cartographica monograph 19 (Supplement 1 to Canadian Cartographer, Vol. 14, 1977), 1–7.
Evans, S. (2009). 3D cities and numerical weather prediction models: An overview of the methods used in the LUCID project. Working Papers Series Paper 148 – May 09. Centre for Advanced Spatial Analysis, University College London, ISSN 1467–1298. Downloaded from http://eprints.ucl.ac.uk/17404/1/17404.pdf, 22 October 2011.
Fabrikant, S. I. and Goldsberry, K. (2005). Thematic relevance and perceptual salience of dynamic geovisualization displays. Paper presented at the 22nd ICA/ACI International Cartographic Conference, A Coruña, Spain.
Fabrikant, S. I., Hespanha, S. R. and Hegarty, M. (2010). Cognitively inspired and perceptually salient graphic displays for efficient spatial inference making. Annals of the Association of American Geographers, 100 (1), 1–17.
Fabrikant, S. I., Rebich-Hespanha, S., Andrienko, N., Andrienko, G. and Montello, D. R. (2008). Novel method to measure inference affordance in static small-multiple map displays representing dynamic processes. The Cartographic Journal, 45(3), 201–215.
Fuhrmann, S., Ahonen-Rainio, P., Edsall, R. M., Fabrikant, S. I., Koua, E. L., Tobón, C., Ware, C. and Wilson, S. (2005). Making useful and useable geovisualization: Design and evaluation issues. In J. Dykes, A. M. MacEachren and M.-J. Kraak, Exploring geovisualization (pp. 553–566). Amsterdam: Elsevier.
García Balboa, J. L. and Ariza López, F. J. (2008). Generalization-oriented road line classification by means of an artificial neural network. Geoinformatica, 12(3), 289–312.
Garlandini, S. and Fabrikant, S. I. (2009). Evaluating the effectiveness and efficiency of visual variables for geographic information visualization. In K. S. Hornsby et al. (Eds.), COSIT 2009. Lecture notes in computer science, Vol. 5756. Berlin and Heidelberg: Springer-Verlag, 195–211.
Green, D. R. (1993). Map output from geographic information and digital image processing systems: A cartographic problem. The Cartographic Journal, 30, 91–96.
Gunzelmann, G., Anderson, J. R. and Douglass, S. (2004). Orientation tasks with multiple views of space: Strategies and performance. Spatial Cognition and Computation, 4(3), 207–253.
Hegarty, M. (2011). The cognitive science of visual-spatial displays: Implications for design. Topics in Cognitive Science, 3, 446–474.
Hegarty, M., Canham, M. S. and Fabrikant, S. I. (2010). Thinking about the weather: How display salience and knowledge affect performance in a graphic inference task. Journal of Experimental Psychology: Learning, Memory and Cognition, 36(1), 37–53.
Hegarty, M., Smallman, H. S., Stull, A. T. and Canham, M. (2009). Naive cartography: How intuitions about display configuration can hurt performance. Cartographica, 44, 171–187.
Henderson, J. M. (2003). Human gaze control during real-world scene perception. Trends in Cognitive Science, 7, 498–504.
Henderson, J. M. and Ferreira, F. (2004) Scene perception for psycholinguists. In J. M. Henderson and F. Ferreira (Eds.), The interface of language, vision and action. New York: Psychology Press.
Hermer, L. and Spelke, E. S. (1994). A geometric process for spatial reorientation in young children. Nature 370, 57–59.
Hoffman, R. R. (1990). Remote perceiving: A step toward a unified science of remote sensing. Geocarto International, 2, 3–13.
Itti, L. and C. Koch. (2001). Computational modeling of visual attention. Nature Reviews Neuroscience, 2, 194–203.
Itti, L., Koch C. and Niebur E. (1998). A model of saliency-based visual attention for rapid scene analysis. IEEE Transactions on Pattern Analysis and Machine Intelligence, 20, 1254–1259.
Jobst, M., Kyprianidis, J. E. and Döllner, J. (2008). Mechanisms on graphical core variables in the design of cartographic 3D city presentations. In A. Moore and I. Drecki (Eds.), Geospatial vision: New dimensions in cartography. Selected Papers from the 4th National Cartographic Conference GeoCart’2008, New Zealand. Lecture Notes in Geoinformation and Cartography. Berlin: Springer, pp. 45–59.
Kosslyn, S. (2006). Graph Design for the Eye and Mind. New York: Oxford University Press.
Kraak, M.-J. and Ormeling, F. (2010). Cartography: Visualization of spatial data (3rd ed.). Harlow, UK: Pearson.
Lansdale, M., Underwood, G. and Davies, C. (2010). Something overlooked? How experts in change detection use visual saliency. Applied Cognitive Psychology, 24(2), 213–225.
Lloyd, R. (1997). Visual search processes used in map reading. Cartographica, 34 (1), 11–32.
Lowe, R. K. (2003). Animation and learning: Selective processing of information in dynamic graphics. Learning and Instruction, 13, 157–176.
MacEachren, A. M. (1995). How Maps Work: Representation, Visualization and Design. New York and London: Guilford Press.
McGuinness, C. (1994). Expert/novice use of visualization tools. In A. M. MacEachren and D. R. F. Taylor (Eds.), Visualization in modern cartography (pp. 85–199). Oxford: Pergamon (Elsevier).
Monmonier, M. (1991). How to lie with maps. Chicago: University of Chicago Press.
Montello, D. R. (2002). Cognitive map-design research in the twentieth century: Theoretical and empirical approaches. Cartography and Geographic Information Science, 29(3), 283–304.
Noudoost, B., Chang, M. H., Steinmetz, N. A. and Moore, T. (2010). Top-down control of visual attention. Current Opinion in Neurobiology, 20(2), 183–190.
Petchenik, B. B. (1983). A mapmaker’s perspective on map design research 1950–1980. In D. R. F. Taylor (Ed.), Graphic communication and design in contemporary cartography (pp. 37–68). Chichester, UK: John Wiley and Sons.
Pick, H. L., Heinrichs, M. R., Montello, D. R., Smith, K., Sullivan, C. N. and Thompson, W. B. (1995). Topographic map reading. In P. A. Hancock, J. M. Flach, J. Caird and K. J. Vicente (Eds.), Local applications of the ecological approach to human-machine systems, Vol. 2 (pp. 255–284). Hillsdale, NJ: Lawrence Erlbaum.
Posner, M. (1980). Orienting of attention. Quarterly Journal of Experimental Psychology 32, 3–25.
Regnauld, N. (2001). Contextual building typification in automated map generalization. Algorithmica, 30(2), 312–333.
Rensink, R. A., O’Regan, J. K. and Clark, J. J. (1997). To see or not to see: The need for attention to perceive changes in scenes. Psychological Science, 8, 368–373.
Riley, C. (2006). Eye tracking as a tool in cartographic research: Assessing map scale for suitability of data overlay. M.Sc. (Ergonomics) thesis, Loughborough University, Loughborough, UK.
Robinson, A. H. (1952). The look of maps. Madison: University of Wisconsin Press.
Rosenholtz, R., Li, Y. and Nakano, L. (2007). Measuring visual clutter. Journal of Vision, 7, 1–22.
Scaife, M. and Rogers, Y. (1996). External cognition: How do graphical representations work? International Journal of Human-Computer Studies, 45, 185–213.
Slocum, T. A., McMaster, R. B., Kessler, F. C. and Howard, H. H. (2010). Thematic cartography and geographic visualization (3rd ed.). Upper Saddle River, NJ: Prentice Hall.
Smallman, H. S., Cook, M. B., Manes, D. I. and Cowen, M. B. (2007). Naïve realism in terrain appreciation. Proceedings of the 51st Annual Meeting of the Human Factors and Ergonomics Society. Santa Monica, CA: Human Factors and Ergonomics Society, pp. 1317–1321.
Swienty, O., Kurz, F. and Reichenbacher, T. (2007). Attention guiding visualization in remote sensing IIM systems. Photogrammetrie, Fernerkundung, Geoinformation, 4, 239–251.
Trafton, J. G., Marshall, S., Mintz, F. and Trickett, S. B. (2002). Extracting explicit and implicit information from complex visualisations. In M. Hegarty, B. Meyer and N. H. Narayanan (Eds.), Diagrams 2002. Lecture Notes in Artificial Intelligence. Vol. 2317 (pp. 206–220). Berlin: Springer-Verlag.
Treisman, A. and Gelade, G. (1980). A feature integration theory of attention. Cognitive Psychology, 12, 97–136.
Tufte, E. T. (2001). The visual display of quantitative information (2nd ed.). Cheshire, CT: Graphics Press.
Ward, P. and Williams, A. M. (2003). Perceptual and cognitive skill development in soccer: The multidimensional nature of expert performance. Journal of Sport and Exercise Psychology, 25, 93–111.
Cancel
Confirm
×