DIFFICULTY ANALYSIS IN A SPATIAL VISUALIZATION ITEM BANK
DOI:
https://doi.org/10.22235/cp.v0i1.573Keywords:
Visualization, Item bank, Rasch model, Test ValidityAbstract
This work is the description of the validation process of a Visualization item bank, whose items were generated from a Surfaces Development task. The item bank was developed from Cognitive Design framework. The tests were applied to samples of first-year Engineering students. The item difficulty was estimated using the Rasch model. We observed that the item difficulty is associated to a task conditions involved in the ability of mentally transforming the objects and of maintaining active the spatial information during the transforming process.
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References
Baddeley, A. D. (1986). Working Memory. New York: Oxford University Press.
Bejar, I.I. (1993). A Generative Approach to Psychological and Educational Measurement. En N. Frederiksen, R.J. Mislevy e I.I. Bejar (Eds.), Test Theory for a new generation of tests. (pp. 323-358). Hillsdale, N.J.: LEA.
Bennett, G. K., Seashore, H. G. y Wesman, A. G. (1951). Counseling from profiles: A casebook for the Differential Aptitude Tests. New York: Psychological Corporation.
El Koussy, A. A. H. (1935). An investigation into the factors involving the visual perception of space. British Journal of Psychology, 20, 92.
Embretson, S.E. (1983). Construct validity: Construct representation versus nomothetic span. Psychological Bulletin, 93, 179-197.
Embretson, S. E. (1994). Applications of Cognitive Design Systems to Test Development. En C.R. Reynolds (Ed.). Cognitive Assessment: A Multidisciplinary Perspective. (pp. 107-135).
Embretson, S. E. (2005). Measuring Human Intelligence with Artificial Intelligence. En R. J. Sternberg y J. E. Pretz (Eds.) Cognition & Intelligence: Identifying the Mechanisms of the Mind. (pp. 251-267). New York: Cambridge University Press.
Embretson, S.E. y Reise, S.P. (2000) Item Response Theory for Psychologists. Mahwah, NJ: LEA.
Guilford, J. P. y Lacey, J. I. (1947). Printed Classification Tests, A. A. F. Aviation Psychological Progress Research Report, No. 5. Washington, DC: U. S. Government Printing Office.
Ghiselli, E. E. (1973). The validity of aptitude tests in
personnel selection. Personnel Psychology, 26,
-477.
Hegarty, M., Shah, P. Y Miyake, A. (2000). Constraints on using the dual-task methodology to specify the degree of central executive involvement in cognitive tasks. Memory and Cognition, 28, 411-430.
Hegarty, M. y Waller, D.A. (2005). Individual Differences in Spatial Abilities. En P. Shah y A. Miyake (Eds.). The Cambridge Handbook of Visuospatial Thinking. (pp. 121-169). New York: Cambridge University Press.
Hsi, S., Linn, M.C. e Bell, J.E. (1997). The role of Spatial Reasoning in Engineering and Design of Spatial Instruction. Journal of Engineering Education, 84, 151-158.
Irvine, S.H. y Kyllonen, P. (2002). Item generation for test development. Mahwah, NJ: LEA.
Kelly, T. L. (1928). Crossroads in the mind of man. Stanford: Stanford University Press.
Logie, R.H. (1995). Visuo-Spatial Working Memory. Hove: LEA.
Lohman, D.F. (2000). Complex Information Processing and Intelligence. Em R.J. Sternberg (Org.) Handbook of Intelligence. (pp. 285-340). Cambridge, UK: Cambridge University Press.
Miyake, A. y Shah, P. (Eds.) (1999). Models of working memory. Cambridge: Cambridge University Press.
Miyake, A., Rettinger, D. A., Friedman, N. P., Shah, P. Y Hegarty, M. (2001). Visuospatial working memory, executive functioning ans spatial abilities. How are they related? Journal of Experimental Psychology: General, 130, 621-640.
Muñiz, J. (1997). Introducción a la Teoría de Respuesta a los Ítems. Madrid: Pirámide.
Murdoch, J. R., Bainbridge, L. C., Fisher, S. G. y Webster, M. H. C. (1994). Can a simple test of visual motor skill predict the performance of microsurgeons? Journal of the Royal College of Surgeons, Edinburg, 39, 150-152.
Pellegrino, J.W. & Kail, R. (1982) Process Analyses of Spatial Aptitude. En R.J. Sternberg (Ed.), Advances in the psychology of human intelligence, 1. (pp. 311-365). Hillsdale, NJ: Lawrence Erlbaum Associates.
Peters, M., Chisholm, P. y Laeng, B. (1995). Spatial Ability, Student Gender, and Academic Performance. Journal of Engineering Education, 84, 69-73.
Prieto, G. y Delgado, A.R. (2002). Diseño cognitivo de un banco de ítems de visualización espacial. Metodología de las Ciencias del Comportamiento, volumen especial, 452-455.
Prieto, G. y Velasco, A. D. (2002a). Construção de um teste de visualização a partir da psicología cognitiva. Avaliação Psicologica,1, 39-47.
Prieto, G. e Velasco, A.D. (2002b). Predicting Academic Success of Engineering Students in Technical Drawing from Visualization Test Scores. Journal for Geometry and Graphics, 6, 99-109.
Prieto, G. y Velasco, A.D. (2003). Uso del modelo de Rasch para poner en la misma escala las puntuaciones de distintos tests. Actualidades en Psicología, 19, 7-24.
Prieto, G. y Velasco, A. D. (2004). Training Visualization Ability by Technical Drawing. Journal for Geometry and Graphics,8, 107-115.
Rasch, G. (1960). Probabilistic models for some intelligence and attainment tests.Copenhague: The Danish Institute for Educational Research.
Santisteban, C. y Alvarado, J.M. (2001). Modelos psicométricos. Madrid: UNED.
Tabachnick, B.G. y Fidell, L.S. (2007). Using multivariate statistics. Boston: Pearson.
Thurstone, L. L. (1938). Primary Mental Abilities. Chicago: University of Chicago Press.
Ting, S.R. (2001). Predicting Academic Success of First-Year Engineering Students from Standardized Test Scores and Psychosocial Variables. International Journal of Engineering Education, 17, 75-80.
Wright, B.D. y Linacre, J.M. (1998). WINSTEPS : A Rasch computer program. Chicago: MESA Press.
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