Abstract
This paper posits the usefulness of mental shifts of scale and perspective in thinking and communicating about spatial relations, and describes two experimental techniques for researching such cognitive activities. The first example involves mentally expanding a hand-sized piece of entangled string, a knot, so that following a portion of the string into a crossing resembles the act of walking along a path and over a bridge. The second example involves transforming experience and conceptions of the large-scale environment to small-scale representations through the act of mapmaking, and then translating the map to depictions of street-level views. When used in the context of clinical research methodologies, these techniques can help to elicit multimodal expressions of conceived topological relationships and geographical detail, with particular attention to individual differences.
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References
Berg DN, Smith KK (1985) Exploring Clinical Methods for Social Research. Sage, Beverly-Hills
Beth EW, Piaget J (1966) Mays W (trans) Mathematical Epistemology and Psychology. Reidel, Dordrecht (1966)
DiBiase D, MacEachren A, Krygier J, Reeves C (1992) Animation and the role of map designin scientific visualization. Cartography and Geographic Information Systems 19, pp. 201–214.
Ericsson KA, Simon HA (1984) Protocol Analysis: Verbal Reports as Data. MIT Press: Cambridge, MA
Gruber HE, Vonéche JJ (eds, 1977) The Essential Piaget. Basic Books, New York
Harel I, Papert S (Eds.), 1991) Constructionism. Ablex, Norwood NJ
Hart RA, Moore GT (1973) The development of spatial cognition: A review. In Stea B, Downs, R (Eds.) Image and Environment, pp 226–234. University of Chicago Press, Chicago
Henderson RH, Kuhn S, Muller M (1998) Proceedings of the Participatory Design Conference: Broadening Participation. ACM Press, New York
Hutchins E (1983) Understanding Micronesian navigation. In Gentner D, Stevens AL (Eds.) Mental Models, pp 191–226. Lawrence Erlbaum, Hillsdale NJ
Jacob E (1987) Qualitative Research Traditions: A Review. Review of Educational Research 57:1, pp 1–50
Kafai Y, Resnick M (Eds.) (1996) Constructionism in Practice: Designing, Thinking, and Learning in a Digital World. Lawrence Erlbaum, Mahwah NJ
Kosslyn SM, Brunn J, Cave KR, Wallach RW (1984) Individual differences in mental imagery: A computational analysis. In Pinker S (ed) Visual Cognition, pp 195–243. MIT Press, Cambridge MA
Levinson SC (1996) Frames of reference and Molyneaux’s question. In Bloom P, Peterson MA, Nadel L, Garrett MF (Eds.) Language and Space, pp 109–170. MIT Press, Cambridge MA
Lynch K (1960) The Image of the City. MIT Press, Cambridge MA
Lynch K (1984) Reconsidering the image of the city. In Rodwin, L. and Hollister, R. M. (Eds.), Cities of the Mind: Images and Themes of the City in the Social Sciences, pp 151–161. Plenum Press, New York
Machotka P (1996) Cézanne: Landscape into Art. Yale University Press, New Haven
Mark DM, Freksa C, Hirtle SC, Lloyd R, Tversky B (1999) Cognitive models of geographical space. Int. J. Geographical Information Science 13:8, pp 747–774
Montello DR (1993) Scale and multiple psychologies of space. Proceedings of COSIT’93, Spatial Information Theory: A Theoretical Basis for GIS, pp 312–321. Springer-Verlag, Berlin
Papert S (1980) Mindstorms: Children, Computers, and Powerful Ideas. Basic Books, New York
Piaget J (1951) [1929]). Tomlinson J and Tomlinson A (trans) The Child’s Conception of the World. Humanities Press, New York
Piaget J, Inhelder B (1967 [1956, 1948]) Langdon FJ, Lunzer JL (trans) The Child’s Conception of Space. Norton, New York
Schön D (1983) The Reflective Practitioner. Basic Books, New York
Schuler D, Namioka A (eds, 1993) Participatory Design: Principles and Practices. Lawrence Erlbaum, Hillsdale, NJ
Spencer C, Blades M, Morsley K (1989) The Child in the Physical Environment: The Development of Spatial Knowledge and Cognition. John Wiley & Sons, Chichester
Strohecker C (1991) Why knot? Ph.D. diss., Massachusetts Institute of Technology, Media Laboratory, Epistemology and Learning Group
Strohecker C (1996) Understanding topological relationships through comparisons of similar knots. AI&Society: Learning with Artifacts 10, pp 58–69
Strohecker C (1996) Learning about topology and learning about learning. Proceedings of the Second International Conference on the Learning Sciences, Association for the Advancement of Computing in Education
Strohecker C (1999) Toward a developmental image of the city: Design through visual, spatial, and mathematical reasoning. Proceedings of the International Conference on Visual and Spatial Reasoning in Design, pp 33–50. Key Centre of Design Computing and Cognition, University of Sydney
Strohecker C, Barros B (2000 [1997]) Make way for WayMaker. Presence: Teleoperators and Virtual Environments 9:1
Turkle S (1984) The Second Self: Computers and the Human Spirit. Simon and Schuster, New York
Turkle S, Papert S (1990) Epistemological pluralism: Styles and voices within the computer culture. Signs 16(1)
Winograd T (1996) Bringing Design to Software. ACM Press, New York
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Strohecker, C. (2000). Cognitive Zoom: From Object to Path and Back Again. In: Freksa, C., Habel, C., Brauer, W., Wender, K.F. (eds) Spatial Cognition II. Lecture Notes in Computer Science(), vol 1849. Springer, Berlin, Heidelberg. https://doi.org/10.1007/3-540-45460-8_1
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DOI: https://doi.org/10.1007/3-540-45460-8_1
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