Examining Crowding Using a Real Three-Dimensional Experimental Setup

Astle, A. T., McGovern, D. P., McGraw, P. V. (2014). Characterizing the role of disparity information in alleviating visual crowding. J. Vis., 14 (6), 1-14.10.1167/14.6.8Search in Google Scholar

Bernard, J. B., Arunkumar, A., Chung, S. T. (2012). Can reading-specific training stimuli improve the effect of perceptual learning on peripheral reading speed? Vis. Res., 66, 17-25.Search in Google Scholar

Bortz, J., Schuster, C. (2010). Statistik für Human- und Sozialwissenschaftler. Berlin, Heidelberg: Springer-Verlag. 655 pp.10.1007/978-3-642-12770-0Search in Google Scholar

Bouma, H. (1970). Interaction effects in parafoveal letter recognition. Nature, 226, 177-178.10.1038/226177a0Search in Google Scholar

Brainard, D. H. (1997). The psychophysics toolbox. Spatial Vis., 10, 433-436.10.1163/156856897X00357Search in Google Scholar

Campbell, F. W. (1957). The depth of field of the human eye. J. Modern Opt., 4 (4), 157-164.10.1080/713826091Search in Google Scholar

Felisberti, F. M., Solomon, J. A., Morgan, M. J. (2005). The role of target salience in crowding. Perception, 34 (7), 823-833.10.1068/p5206Open DOISearch in Google Scholar

Hoffman, D. M., Girshick, A. R., Akeley, K., Banks, M. S. (2008).Search in Google Scholar

Vergence-accommodation conflicts hinder visual performance and cause visual fatigue. J. Vis., 8 (3), 1-30.Search in Google Scholar

Howard, I. P., Rogers, B. J. (2012). Perceiving in Depth, Volume 2: Stereoscopic Vision. New York: Oxford University Press. 648 pp.Search in Google Scholar

Huckauf, A., Heller, D. (2002a). Spatial selection in peripheral letter recognition: In search of boundary conditions. Acta Psychol., 111 (1), 101-123.10.1016/S0001-6918(02)00045-8Search in Google Scholar

Huckauf, A., Heller, D. (2002b). What various kinds of errors tell us about lateral masking effects. Vis. Cognit., 9 (7), 889-910.10.1080/13506280143000548ASearch in Google Scholar

Huckauf, A. (2007). Task set determines the amount of crowding. Psychol. Res., 71 (6), 646-652.10.1007/s00426-006-0054-616721622Search in Google Scholar

Huckauf, A., Nazir, T. A. (2007). How odgcrnwi becomes crowding: stimulus- specific learning reduces crowding. J. Vis., 7 (2), 1-12.10.1167/7.2.1818217833Search in Google Scholar

Kooi, F. L., Toet, A., Tripathy, S. P., Levi, D. M. (1994). The effect of similarity and duration on spatial interaction in peripheral vision. Spatial Vis., 8 (2), 255-279.Search in Google Scholar

Korte, W. (1923). Über die Gestaltauffassung im indirekten Sehen. Zeitschrift für Psychologie, 93, 17-82.Search in Google Scholar

Lambooij, M., Fortuin, M., Heynderickx, I., IJsselsteijn, W. (2009). Visual discomfort and visual fatigue of stereoscopic displays: a review. J. Imag. Sci. Technol., 53 (3), 1-14.10.2352/J.ImagingSci.Technol.2009.53.3.030201Search in Google Scholar

Levi, D. M. (2008). Crowding-An essential bottleneck for object recognition: A mini-review. Vis. Res., 48 (5), 635-654.10.1016/j.visres.2007.12.009226888818226828Search in Google Scholar

Pelli, D. G., Tillman, K. A. (2008). The uncrowded window of object recognition. Nature Neurosci., 11 (10), 1129-1135.10.1038/nn.2187277207818828191Search in Google Scholar

Rinkenauer, G., Grosjean, M. (2008). Mapping the distribution of focused visual attention in real 3D space: Potential implications for interface design. Z. Arbeitswiss., 62 (3), 145-155.Search in Google Scholar

Strasburger, H. (2005). Unfocussed spatial attention underlies the crowding effect in indirect form vision. J. Vis., 5 (11), 1024-1037.10.1167/5.11.816441200Search in Google Scholar

Strasburger, H., Rentschler, I., Jüttner, M. (2011). Peripheral vision and pattern recognition: A review. J. Vis., 11 (5), 1-82.10.1167/11.5.1322207654Search in Google Scholar

Strasburger, H., Malania, M. (2013). Source confusion is a major cause of crowding. J. Vis., 13 (1), 1-20.10.1167/13.1.2423335321Search in Google Scholar