Abstract
One aspect of a fundamental theory of spatial representations is human-cognitive representation. This research includes a review of cognitive models of spatial knowledge across disciplines, upon which a proposed comprehensive model is based. This model includes geographic facts, route, and configurational knowledge as kinds of (spatial) geographical knowledge. This research also investigates the acquisition of spatial knowledge. An experiment was designed to test the hypothesis that a regular environment (gridded road pattern) promotes the acquisition of metrical configurational knowledge from procedural knowledge and greater navigation experience, whereas an irregular environment (serpentine road pattern) does not. A irregular and regular environment were used in this study. Forty subjects performed orientation, distance, and location estimation tasks in each environment, and performance was compared. The results of the experiment were varied. There was, however, tentative support to suggest that the pattern of the environment does effect the accuracy of spatial knowledge.
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Abler, Ronald F.: Awards, rewards, and excellence: Keeping geography alive and well. The Professional Geographer, 40(2), 135–140 (1988).
Acredolo, L., Pick, H., and Olsen, M.: Environmental differentiation and familiarity as determinants of children's memory for spatial location. Developmental Psychology, 11, 495–501 (1875).
Appleyard, D.: Styles and methods of structuring a city. Environment and Behavior, 2, 100–118 (1970).
Appleyard, D.: Why buildings are known. Environment and Behavior, 1, 131–156 (1969).
Blades, M., 1991. The development of wayfinding abilities. In Mark, D. M. and Frank, A. (eds.), Cognitive and Linguistic Aspects of Geographic Space, Kluwer Academic Press 1991.
Cassirer, E.: An Essay on Man: An Introduction to the Philosophy of Human Culture. Hew Haven: Yale University Press, 1944.
Gardner, H.: The Mind's New Science. Basic Books, Inc., New York: New York 1985, 423 pp.
Gentry, T. A. and Wakefield, J. A.: Methods for Measuring Spatial Cognition. In D. M. Mark and A. U. Frank (eds.), Cognitive and Linguistic Aspects of Geographic Space. Dordrecht: Kluwer 1991.
Gibson, J. J.: The Senses Considered as Perceptual Systems. Boston: Houghton Mifflin 1966.
Golledge, R.: Integrating spatial knowledge. Paper presented at the IGU Conference, Sydney, Australia, August 1988.
Freundschuh, S. M.: Spatial Knowledge Acquisition of Urban Environments from Maps and Navigation Experience. Unpublished Ph.D. Thesis, Department of Geography, State University of New York at Buffalo 1991a.
Freundschuh, S. M.: The Effect of the Pattern of the Environment on Spatial Knowledge Acquisition. In D. M. Mark. and A. U. Frank (eds.), Cognitive and Linguistic Aspects of Geographic Space. Dordrecht: Kluwer 1991b.
Hart, R. A. and Moore, G. T.: The development of spatial cognition: A review. In Downs, R. M. and Stea, D. (eds.), Image and Environment, Chicago: Aldine 1973.
Heft, H. and Wohlwill, J. F.: Environmental cognition in children. In Stokols, D. and Altman, I. (eds.), Handbook of Environmental Psychology. New York: John Wiley and Sons 1987.
Herman, J. F. and Siegel, A. W.: The development of spatial representations of large-scale environments. University of Pittsburgh: Learning Research and Development Center 1977.
Kuipers, B., 1978. Modeling spatial knowledge. Cognitive Science, 2, 129–153 (1978).
Lloyd, R.: Cognitive maps: Encoding and decoding information. Annals of the Association of American Geographers, 79(1), 101–124 (1989).
Lynch, K.: The Image of the City. Cambridge, MA: MIT Press 1960.
Mark. D. M., and Frank, A. U.: Concepts of space and spatial language. Proceedings of the Ninth International Symposium on Computer Assisted Cartography, Baltimore, Maryland, 538–556 (1989).
Mark, D. M., Frank, A. U., Egenhofer, M. J., Freundschuh, S. M., McGranaghan, M. and White, R. M.: Languages of Spatial Relations: Initiative II Specialist Meeting Report. Santa Barbara, CA: National Center for Geographic Information and Analysis, Report 89-2 (1989).
Moar, I., Hamer, N. J., and Woods, B. A.: The role of grid schemata in memory for large-scale environments. Proceedings of the Fifth Annual Conference of the Cognitive Science Society (1983).
National Center for Geographic Information and Analysis (NCGIA). The research plan of the National Center for Geographic Information and Analysis. International Journal of Geographical Information Systems, 3, 117–139 (1989).
Norman, D. A.: The Psychology of Everyday Things. New York: Basic Books, Inc 1988.
Piaget, J. and Inhelder, B.: The Child's Conception of Space. New York: Norton 1967.
Siegel, A. W., and White, S. H.: The development of spatial representations of large-scale environments. In H. W. Reese (ed.), Advances in Child Development and Behavior, (Vol. 10), New York: Academic 1975.
Shemyakin, F. N.: Orientation in space. In B. G. Ananyev et al. (eds.), Psychological Sciences of the USSR (Vol. 1, Report No. 62-11083). Washington, DC, Office of Technical Services 1962.
Stern, E., and Leiser, D.: Levels of spatial knowledge and urban travel modeling. Geographical Analysis, 20(2), 140–155 (1988).
Thorndyke, P. W. and Hayes-Roth, B.: Differences in spatial knowledge acquired from maps and navigation. Cognitive Psychology, 12, 137–175 (1982).
Tolman, E. C.: Cognitive maps in mice and men. Reprinted in Downs, R. M. and Stea, D. (eds.), Image and Environment, Chicago: Aldine 1973. (originally published in Psychological Review, 55, 189–208 (1948))
Trowbridge, C. C.: On fundamental methods of orientation and imaginary maps. Science, 38, 888–897 (1913).
Werner, H.: Comparative Psychology of Mental Development. New York: International Universities Press 1948.
Yeap, W. K.: Towards a computational theory of cognitive maps. Artificial Intelligence, 34, 297–360 (1988).
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Freundschuh, S.M. (1992). Is there a relationship between spatial cognition and environmental patterns?. In: Frank, A.U., Campari, I., Formentini, U. (eds) Theories and Methods of Spatio-Temporal Reasoning in Geographic Space. Lecture Notes in Computer Science, vol 639. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-55966-3_17
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DOI: https://doi.org/10.1007/3-540-55966-3_17
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