Abstract
The way in which children who have visual impairments construct cognitive maps of their environment is of considerable theoretical and practical importance. It sheds light on the role of sensory experience in the development of spatial cognition which can in turn suggest how spatial skills might be nurtured in visually impaired children. In most of the studies reviewed here, groups of children who lost their sight early in life perform less well on a variety of spatial tasks than sighted children or children who lost their sight later in life. We will argue that it is not the lack of visual experience in itself which produces this pattern, but rather the effect of lack of vision on the spatial coding strategies adopted by the children. Finally we will discuss a number of methods for encouraging visually impaired children to use coding systems which are appropriate for the construction of flexible and integrated cognitive maps, with particular reference to the use of tactile maps.
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References
Acredolo, L.P. (1982). The familiarity factor in spatial research. In New Directions for Child Development. Volume 15 (R.Cohen, Jossey-Bass: San Francisco, California.
Aitken, S. and Bower, T.G.R. (1982). Intersensory substitution in the blind. Journal of Experimental Child Psychology 33, 309–323.
Aitken, S. and Bower, T.G.R. (1982). The use of the Sonicguide in infancy. Journal of Visual Impairment and Blindness 76, 91–100.
Aldrich, F.K. and Parkin, A.J. (1987). Tangible line graphs: an experimental investigation of three formats using capsule paper. Human Factors 29, 301–309.
Andrews, S.K. (1983). Spatial cognition through tactual maps. Proceedings of the 1st Int. Symposium on Maps and Graphics for the Visually Handicapped, Washington: Association of American Geographers.
Bentzen, B.L. (1972). Production and testing of an orientation and travel map for visually handicapped persons. New Outlook 66, 249–255.
Bentzen, B.L. (1977). Orientation maps for visually impaired persons. Journal of Visual Impairment and Blindness 71, 193–196.
Bentzen, B.L. and Peck, A.F. (1979). Factors affecting traceability of lines for tactile graphics. Journal of Visual Impairment and Blindness 73, 264–269.
Berlá, E.P. (1973). Strategies in scanning a tactual pseudomap. Education of the Visually Impaired 5, 8–19.
Berlá, E.P. (1981). Tactile scanning and memory for a spatial display by blind students. Journal of Special Education 15, 341–350.
Berlá, E.P. and Butterfield, L.H. (1977). Tactual-distinctive features analysis: training blind students in shape recognition and in locating shapes on a map. Journal of Special Education 11, 335–345.
Berlá, E.P., Butterfield, L.H. and Murr, M.J. (1976). Tactual reading of political maps by blind students: a videomatic behavioural analysis. The Journal of Special Education 10, 265–276.
Berlá, E.P. and Murr, M.J. (1975). Psychophysical functions for active tactual discrimination of line width by blind children. Perception and Psychophysics 17, 607–612.
Bigelow, A. (1991). Spatial mapping of familiar locations in blind children. Journal of Visual Impairment and Blindness 85,113–117.
Bremner, J.G. (1978). Egocentric versus allocentric spatial coding in nine-month-old infants: factors influencing the choice of code. Developmental Psychology 14, 346–355.
Brambring, M. and Weber, C. (1981). Taktile, verbale und motorische Informationen zur geographischen Orientierung Blinder. Zeitschrift für experimented und angewandte Psychologie 28, 23–37.
Byrne, R.W. and Salter, E. (1983). Directions and distances in the cognitive maps of the blind. Canadian Journal of Psychology 37, 293–299.
Carpenter, P.A. and Eisenberg, P. (1978). Mental rotation and frame of reference in blind and sighted individuals. Perception and Psychophysics 23,117–124.
Carreiras, M. and Codina, B. (1992). Spatial cognition of the blind and sighted-visual and amodal hypotheses. Cahiers de Psychologie Cognitive-European Bulletin of Cognitive Psychology 12, 51–78.
Casey, S. (1978). Cognitive mapping by the blind. Journal of Visual Impairment and Blindness 72, 297–301.
Cratty, B.J. and Sams, T.A. (1968). The Body-Image of Blind Children, New York: American Foundation for the Blind.
Dacen Nagel, D.L. and Coulson, M.R.C. (1990). Tactual mobility maps: a comparative study. Cartographica 27, 47–63.
Dodds, A. (1988). Tactile maps and the blind user: perceptual, cognitive and behavioural factors. In Proceedings of the 2nd Int. Symposium on Tactile Maps and Graphics for Visually Impaired People (A.F. Tatham and A.G. Dodds eds.). Nottingham University: Nottingham University Press.
Dodds, A.G., Armstrong, J.D. and Shingledecker, C.A. (1981). The Nottingham obstacle detector: development and evaluation. Journal of Visual Impairment and Blindness 75, 203–209.
Dodds, A.G., Howarth, C.I. and Carter, D.C. (1982). The mental maps of the blind: the role of previous experience. Journal of Visual Impairment and Blindness 76, 5–12.
Fletcher, J.F. (1980). Spatial representation in blind children 1: development compared to sighted children. Journal of Visual Impairment and Blindness 74, 318–385.
Foulke, E. (1982). Perception, cognition and the mobility of blind pedestrians. In Spatial Abilities: Developmental and Psychological Foundations (M. Portegal ed.), pp. 55–76. New York: Academic Press.
Foulke, E. and Hatlen, P.H. (1992). A collaboration of two technologies. Part 1: Perceptual and cognitive processes: their implications for visually impaired persons. British Journal of Visual Impairment 10, 43–46.
Fraiberg, S. (1977). Insights from the Blind, London: Souvenir Press.
Gilson, C, Wurzburger, B. and Johnson, D.E. (1965). The use of the raised map in teaching mobility to blind children. New Outlook 59, 59–62.
Gladstone, M. (1991). Spatial Cognition and Mapping Abilities: A Comparison of Sighted and Congenitally Bind Individuals. Unpublished Honours Dissertation, Edinburgh University.
Golledge, R.G. (1991). Tactual strip maps as navigational aids. Journal of Visual Impairment and Blindness 85, 296–301.
Golledge, R.G. (1993). Geography and the disabled-a survey with special reference to vision impaired and blind populations. Transactions of the Institute of British Geographers 18, 63–85.
Hart, R.A. and Moore, G.T. (1973). The development of spatial cognition: a review. In Image and Environment: Cognitive Mapping and Spatial Behaviour (R.M. Downs and D. Stea eds.), pp. 246–288. Chicago: Aldine.
Herman, J.F., Herman, T.G. and Chatman, S.P. (1983). Constructing cognitive maps from partial information: a demonstration study with congenitally blind subjects. Journal of Visual Impairment and Blindness 77, 195–198.
Hermelin, B. and O’Connor, N. (1971). Spatial coding in normal, autistic and blind children. Perception and Motor Skills 33, 127–132.
Hermelin, B. and O’Connor, N. (1975). Location and distance estimates by blind and sighted children. International Journal of Experimental Psychology 27, 295–301.
Hermelin, B. and O’Connor, N. (1982). Spatial coding in children with and without impairments. In Spatial Abilities: developmental and physiological foundations (M. Portegal ed.). New York: Academic Press.
Horsfall, R.B. and Vanston, D.C. (1981). Tactual maps: discriminability of shapes and textures. Journal of Visual Impairment and Blindness 75, 363–367.
Juurmaa, J. (1973). Transposition in mental spatial manipulation: a theoretical analysis. American Foundation for the Blind Research Bulletin 26, 87–134.
Kerr, N.H. (1983). The role of vision in “visual imagery” experiments: evidence from the congenitally blind. Journal of Experimental Psychology: General 112, 265–277.
Kidwell, A.M. and Greer, P.S. (1972). The environmental perceptions of blind persons and their haptic representations. New Outlook 66, 256–276.
Kosslyn, S.M., Ball, T.M. and Rieser, B.J. (1978). Visual images preserve metric spatial information: evidence from studies of image scanning. Journal of Experimental Psychology: Human Perception and Performance 4, 47–60.
Kuipers, B. (1982). The “map in the head” metaphor. Environment and Behaviour 14, 202–220.
Landau, B. (1986). Early map use as an unlearned ability. Cognition 22, 201–223.
Landau, B., Gleitman, H. and Spelke, E. (1981). Spatial knowledge and geometric representation in a child blind from birth. Science 213, 1275–1278.
Landau, B., Spelke, E. and Gleitman, H. (1984). Spatial knowledge in a young blind child. Cognition 16, 225–260.
Leonard, J.A. and Newman, R.C. (1967). Spatial orientation in the blind. Nature 215, 1413–1414.
Liben, L.S. (1981). Spatial representation and behaviour: multiple perspectives. In Spatial Representation and Behaviour Across the Lifespan: Theory and Application (Liben, L.S., Patterson, A.H. and Newcombe, N. eds.). New York: Academic Press.
Liben, L.S. and Downs, R.M. (1989). Understanding maps as symbols: the development of map concepts in children. In Advances in Childhood Development and Behaviour Volume 22 (H. Reese, ed.), pp. 145–201. New York: Academic Press.
Lockman, J.J., Reiser, J.J. and Pick, H.L. (1981). Assessing the blind traveler’s knowledge of spatial layout. Journal of Visual Impairment and Blindness 75, 321–326.
Loomis, J.M., Klatzky, R.L., Golledge, R.G., Cicinelli, J.G., Pellegrino, J.W. and Fry, P.A. (1993). Nonvisual navigation by blind and sighted-assessment of path integration ability. Journal of Experimental Psychology-General 122, 73–91.
Marmor, G.S. and Zaback, L.A. (1976). Mental rotation by the blind: does mental rotation depend on visual imagery? Journal of Experimental Psychology: human perception and performance 2, 515–521.
Millar, S. (1975). Spatial memory by blind and sighted children. British Journal of Psychology 66, 449–459.
Millar, S. (1976). Spatial representation by blind and sighted children. Journal of Experimental Child Psychology 21, 460–479.
Millar, S. (1979). The utilization of external and movement cues in simple spatial tasks by blind and sighted children. Perception 8, 11–20.
Millar, S. (1981). Crossmodal and intersensory perception in the blind. In Intersensory Perception and Sensory Integration (R.D. Walk, and H.L. Pick, eds.). New York: Academic Press.
Millar, S. (1981). Self referent and movement cues in coding location by blind and sighted children. Perception 10, 255–264.
Millar, S. (1982). The problem of imagery and spatial development in the blind. In Knowledge and Representation (B. de Gelder, ed.). London: Routledge and Kegan Paul.
Millar, S. (1988). Models of sensory deprivation: the nature/nurture dichotomy and spatial representation in the blind. International Journal of Behavioural Development 11, 69–87.
Morsley, K., Spencer, C. and Baybutt, K. (1991). Is there any relationship between a child’s body image and spatial skills? British Journal of Visual Impairment 9, 41–43.
Neisser, U. and Kerr, N. (1973). Spatial and mnemonic properties of visual images. Cognitive Psychology 5, 138–150.
O’Connor, N. and Hermelin, B.M. (1972). Seeing and hearing in space and time. Perception and Psychophysics 11, 46–48.
Ochaíta, E. and Huertas, J.A. (1993). Spatial representation by persons who are blind: a study of the effects of learning and development. Journal of Visual Impairment and Blindness 87, 37–41.
Paivio, A. (1986). Mental Representations: A Dual Coding Approach. Oxford: Oxford University Press.
Parkin, A.J. and Aldrich, F.K. (1988). Remembering tangible line graphs: How important is prior visual experience? In Proceedings of the 2nd Int. Symposium on Tactile Maps and Graphics for Visually Impaired People (A.F. Tatham and A.G. Dodds, eds.). Nottingham University: Nottingham University Press.
Piaget, J. and Inhelder, B. (1956). The Child’s Conception of Space. London: Routledge and Kegan Paul.
Piaget, J., Inhelder, B. and Szeminska, A. (1960). The Child’s Conception of Geometry. London: Routledge and Kegan Paul.
Presson, C.C. (1987). The development of spatial cognition: secondary uses of spatial information. In Contemporary Topics in Developmental Psychology (N. Eisenberg, ed.). New York: Wiley.
Presson, C.C. and Ihrig, L.H. (1982). Using mother as a spatial landmark: evidence against egocentric coding in infancy. Developmental Psychology 18, 699–703.
Presson, C.C. and Somerville, S.C. (1985). Beyond egocentrism: a new look at the beginnings of spatial representation. In Children’s Searching: the development of search skills and spatial representation (H. Wellman, ed.). Hilsdale, NJ: Erlbaum.
Rieser, J.J. (1979). Spatial orientation of six-month-old infants. Child Development 50, 1078–1087.
Rieser, J.J. (1990). Development of perceptual-motor control while walking without vision: the calibration of perception and action. In Sensory-Motor Organizations and Development in Infancy and Early Childhood (H. Bloch and B.I. Berenthal, eds.). Kluwer Academic Publishers.
Rieser, J.J., Guth, D.A. and Hill, E.W. (1982). Mental processes mediating independent travel: implications for orientation and mobility. Journal of Visual Impairment and Blindness 76, 213–218.
Rieser, J.J., Guth, D.A. and Hill, E.W. (1986). Sensitivity to perspective structure while walking without vision. Perception 15, 173–188.
Rieser, J.J., Lockman, J.J. and Pick, H.L. (1980). The role of visual experience in knowledge of spatial layout. Perception and Psychophysics 28,185–190.
Senden, S.M. von (1932). Space and Sight: the Perception of Space and Shape in the Congenitally Blind Before and After Operation. Glencoe, IL: Free Press.
Shepard, R.N. and Metzler, J. (1971). Mental rotation of three-dimensional objects. Science 171, 701–703.
Siegel, A.W. and White, S. (1975). The development of spatial representations of large-scale environments. In Advances in Child Development and Behaviour. Volume 10 (H.W. Reese, ed.). New York: Academic Press.
Spencer, C, Blades, M. and Morsley, K. (1989). The Child in the Physical Environment: the Development of Spatial Knowledge and Cognition. Chichester: Wiley.
Spencer, C, Morsley, K., Ungar, S., Pike, E. and Blades, M. (1992). Developing the blind child’s cognition of the environment-the role of direct and map-given experience. Geoforum 23,191–197.
Spencer, C. and Travis, J. (1985). Learning a new area with and without the use of tactile maps: a comparative study. British Journal of Visual Impairment 3, 5–7.
Ungar, S.J. (1994). The Ability of Young Visually Impaired Children to Use Tactile Maps. Unpublished PhD, University of Sheffield.
Ungar, S.J., Blades, M. and Spencer, C. (1993). The role of tactile maps in mobility training. British Journal of Visual Impairment 11, 59–62.
Ungar, S.J., Blades, M., Spencer, C. and Morsley, K. (in press). The use of maps by visually impaired children to estimate directions in the environment. Journal of Visual Impairment and Blindness.
Ungar, S.J., Foy, K., Blades, M. and Spencer, C. (1992). Visually impaired children’s memory for a map-like tactile layout. Paper presented at British Psychological Society-Developmental Section Annual Conference, Edinburgh, 11–14th September 1992.
Warren, D.H. (1984). Blindness and Early Childhood Development. New York: American Foundation for the Blind.
Worchel, P. (1951). Space perception and orientation in the blind. Psychological Monographs 65,1–28.
Yngström, A. (1988). The tactile map: the surrounding world in miniature. In Proceedings of the 2nd Int. Symposium on Tactile Maps and Graphics for Visually Impaired People (A.F. Tatham and A.G. Dodds, eds.). Nottingham University: Nottingham University Press.
Zimler, J. and Keenan, J.M. (1983). Imagery in the congenitally blind: how visual are visual images? Journal of Experimental Psychology: learning, memory and cognition 9, 269–282.
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Ungar, S., Blades, M., Spencer, C. (1996). The Construction of Cognitive Maps by Children with Visual Impairments. In: Portugali, J. (eds) The Construction of Cognitive Maps. GeoJournal Library, vol 32. Springer, Dordrecht. https://doi.org/10.1007/978-0-585-33485-1_11
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DOI: https://doi.org/10.1007/978-0-585-33485-1_11
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