Abstract
This chapter reviews a model of measuring the salience of a specific class of spatial features—fagades of buildings—for adaptation to abilities and preferences of user groups of wayfinding services. The model was intentionally designed to be open for such adaptations, and we will report on ways, experiences, and limitations of doing so. We will prove the hypothesis that focalization, i.e., adaptation to different decision situations, can be sufficiently modelled by weights of predetermined salience measures to increase wayfinding success. The long term goal is to identify sets of weights for typical foci of user groups.
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References
Allen, G. L. (1999): “Spatial Abilities, Cognitive Maps, and Wayfinding”. In Wayfinding Behavior, Golledge, R. G., Ed. Baltimore: Johns Hopkins University Press, 1999, pp. 46–80.
Burnett, G. E., Smith, D., and May, A. J. (2001): “Supporting the navigation task: Characteristics of ‘good’ landmarks”. In Contemporary Ergonomics 2001, Hanson, M. A., Ed. London: Taylor & Francis, 2001, pp. 441–446.
Cornell, E. H., Heth, C. D., and Broda, L. S. (1989): “Children’s Wayfinding: Response to instructions to use environmental landmarks”. Developmental Psychology, vol. 25(5), pp. 755–764, 1989.
Deakin, A. (1996): “Landmarks as Navigational Aids on Street Maps”. Cartography and Geographic Information Systems, vol. 23(1), pp. 21–36, 1996.
Denis, M., Pazzaglia, F., Cornoldi, C., and Bertolo, L. (1999): “Spatial Discourse and Navigation: An Analysis of Route Directions in the City of Venice”. Applied Cognitive Psychology, vol. 13), pp. 145–174, 1999.
Elias, B. (2003): “Extracting Landmarks with Data Mining Methods”. In Spatial Information Theory, vol. 2825, Lecture Notes in Computer Science, Kuhn, W., Worboys, M. F., and Timpf, S., Eds. Berlin: Springer, 2003, pp. 398–412.
Freundschuh, S. M., Mark, D. M., Gopal, S., Gould, M. D., and Couclelis, H. (1990): “Verbal Directions for Wayfinding: Implications for Navigation and Geographic Information and Analysis Systems”. 4th International Symposium on Spatial Data Handling, Brassel, K. and Kishimoto, H., Eds. Zurich: Department of Geography, University of Zurich, 1990, pp. 478–487.
Gärling, T., Lindberg, E., and Mäntylä, T. (1983): “Orientation in buildings: Effects of familiarity, visual access, and orientation aids”. Journal of Applied Psychology, vol. 68), pp. 177–186, 1983.
Gibson, J. J. (1979): The Ecological Approach to Visual Perception. Boston: Houghton Mifflin Company, 1979.
Lovelace, K. L., Hegarty, M., and Montello, D. R. (1999): “Elements of Good Route Directions in Familiar and Unfamiliar Environments”. In Spatial Information Theory, vol. 1661, Lecture Notes in Computer Science, Freksa, C. and Mark, D. M., Eds. Berlin: Springer, 1999, pp. 65–82.
Lynch, K. (1960): The Image of the City. Cambridge: MIT Press, 1960.
Michon, P.-E., and Denis, M. (2001): “When and Why are Visual Landmarks Used in Giving Directions?”. In Spatial Information Theory, vol. 2205, Lecture Notes in Computer Science, Montello, D. R., Ed. Berlin: Springer, 2001, pp. 292–305.
Nothegger, C. (2003): “Automatic Selection of Landmarks for Pedestrian Guidance”. Institute for Geoinformation, Vienna University of Technology. 2003.
Nothegger, C., Winter, S., and Raubal, M. (2004): “Selection of Salient Features for Route Directions”. Spatial Cognition and Computation, vol. 4(2), pp. (in print), 2004.
Raubal, M., and Winter, S. (2002): “Enriching Wayfinding Instructions with Local Landmarks”. In Geographic Information Science, vol. 2478, Lecture Notes in Computer Science, Egenhofer, M. J. and Mark, D. M., Eds. Berlin: Springer, 2002, pp. 243–259.
Raubal, M. and Worboys, M. (1999): “A Formal Model of the Process of Wayfinding in Built Environments”. In Spatial Information Theory, vol. 1661, Lecture Notes in Computer Science, Freksa, C. and Mark, D. M., Eds. Berlin: Springer, 1999, pp. 381–399.
Sorrows, M. E. and Hirtle, S. C. (1999): “The Nature of Landmarks for Real and Electronic Spaces”. In Spatial Information Theory, vol. 1661, Lecture Notes in Computer Science, Freksa, C. and Mark, D. M., Eds. Berlin: Springer, 1999, pp. 37–50.
Timpf, S. (2002): “Ontologies of wayfinding: a traveler’s perspective”. Networks and Spatial Economics, vol. 2(1), pp. 9–33, 2002.
Timpf, S., Volta, G. S., Pollock, D. W., Frank, A. U., and Egenhofer, M. J. (1992): “A Conceptual Model of Wayfinding Using Multiple Levels of Abstraction”. In Theories and Methods of Spatio-Temporal Reasoning in Geographic Space, vol. 639, Lecture Notes in Computer Science, Frank, A. U., Campari, I., and Formentini, U., Eds. Berlin: Springer, 1992, pp. 348–367.
Tom, A., and Denis, M. (2003): “Referring to Landmark or Street Information in Route Directions: What Difference Does it Make?”. In Spatial Information Theory, vol. 2825, Lecture Notes in Computer Science, Kuhn, W., Worboys, M., and Timpf, S., Eds. Berlin: Springer, 2003, pp. 384–397.
Wertheimer, M. (1925): “Über Gestalttheorie”. Philosophische Zeitschrift für Forschung und Aussprache, vol. 1), pp. 39–60, 1925.
Winter, S. (2003): “Route Adaptive Selection of Salient Features”. In Spatial Information Theory, vol. 2825, Lecture Notes in Computer Science, Kuhn, W., Worboys, M. F., and Timpf, S., Eds. Berlin: Springer, 2003, pp. 320–334.
Zipf, A. (2003): “Die Relevanz von Geoobjekten in Fokuskarten”. In Angewandte Geographische Informationsverarbeitung XIV, Strobl, J., Blaschke, T., and Griesebner, G., Eds. Heidelberg: Wichmann, 2003, pp. 567–576.
Zipf, A., and Richter, K.-F. (2002): “Using Focus Maps to Ease Map Reading”. Künstliche Intelligenz (4), pp. 35–37, 2002.
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Winter, S., Raubal, M., Nothegger, C. (2005). Focalizing Measures of Salience for Wayfinding. In: Meng, L., Reichenbacher, T., Zipf, A. (eds) Map-based Mobile Services. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-26982-7_9
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DOI: https://doi.org/10.1007/3-540-26982-7_9
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