Category:Figure-ground perception

From neurov.is/on

The main article for this category is Figure-ground perception.

• Baylis, G.C.; Driver, J. (1995). "One-Sided Edge Assignment in Vision: 1. Figure-Ground Segmentation and Attention to Objects". Current Directions in Psychological Science 4: 140-146. 
• Bertamini, M.; Martinovic, J.; Wuerger, S. M. (2008). "Integration of ordinal and metric cues in depth processing.". Journal of Vision 8: 1-12. 
• Burge, J.; Peterson, M.A.; Palmer, S.E. (2005). "Ordinal configural cues combine with metric disparity in depth perception". Journal of Vision 5: 534-542. 
• Craft, Edward; Schütze, Hartmut; Niebur, Ernst; von der Heydt, Rüdiger (2007). "A Neural Model of Figure-Ground Organization". The Journal of Neurophysiology 97: 4310-4326. 
• Fowlkes CC; Martin DR; Malik J (2007). "Local figure-ground cues are valid for natural images.". Journal of Vision 7(8):2: 1-9. 
• Grossberg, S. (1994). "3-D vision and figure-ground perception by visual cortex". Perception & Psychophysics 55: 48-120. 
• Hulleman, J.; Humphreys, G.W. (2004). "A new cue to figure-ground coding: top-bottom polarity". Vision Research 44: 2779-2791. 
• Kanizsa, G.; Gerbino, W. (1976). "Convexity and symmetry in figure-ground organization". In M. Henle ed. 1976, Vision and artifact. New York: Springer.. 
• Kelly, F.J.; Grossberg, S. (2000). "Neural dynamics of 3-D surface perception: Figure-ground separation and lightness perception". Perception & Psychophysics 62: 1596-1619. 
• Kienker, P. K.; Sejnowski, T. J.; Hinton, G. E. (1986). "Separating figure from ground with a parallel network". Perception 15: 197-216. 
• Kim, Sung-Ho; Feldman, Jacob (2009). "Globally inconsistent figure/ground relations induced by a negative part". Journal of Vision 9 (10): 8, 1-13. 
• Klymenko, V.; Weisstein, N. (1986). "Spatial frequency difference can determine figure-ground organization". Journal of Experimental Psychology: Human Perception & Performance 12: 324-330. 
• Lamme, VA (1995). "The neurophysiology of figure-ground segregation in primary visual cortex.". J Neurosci: 1605-15. PMID 7869121. 
• Niebur, Ernst (2009). "Temporal tagging of attended objects". PNAS 106: 2479-2480. 
• Philip O'Herron; Rüdiger von der Heydt (2009). "Short-Term Memory for Figure-Ground Organization in the Visual Cortex". Neuron 61: 801-809. 
• O'Reilly, R. C.; Vecera, S. P. (1998). "Figure-Ground Organization and Object Recognition Processes: An Interactive Account". Journal of Experimental Psychology: Human Perception and Performance 24: 441-462. 
• {{cite:O�Reilly Vecera 1998}}
• Palmer SE; Ghose T. (2008). "Extremal edges: a powerful cue to depth perception and figure-ground organization". Psychological Science 19 (1): 77-84. 
• Peterson, M. A. (1994). "Object recognition processes can and do operate before figure-ground organization". Current Directions in Psychological Science 3: 105-111. 
• Peterson, M. A.; Gibson, B. S. (1993). "Shape recognition contributions to figure-ground organization in three-dimensional displays". Cognitive Psychology 25: 383-429. 
• Peterson MA; Gibson BS (1994). "Object recognition contributions to figure-ground organization: operations on outlines and subjective contours". Percept Psychophys. 56: 551-564. 
• Peterson, M. A.; Harvey, E. H.; Weidenbacher, H. L. (1991). "Shape recognition inputs to figure-ground organization: Which route counts?". Journal of Experimental Psychology: Human Perception and Performance 17: 1075-1089. 
• Peterson, M. A.; Lampignano, D. L. (2003). "Implicit memory for novel figure-ground displays includes a history of border competition". Journal of Experimental Psychology: Human Perception and Performance 29: 808-822. 
• Peterson, M. A.; Salvagio, E. (2008). "Inhibitory competition in figure-ground perception: Context and convexity". Journal of Vision 8(16):4: 1-13. 
• Peterson, Mary A; Salvagio, Elizabeth (2009). "Attention and competition in figure-ground perception.". Prog Brain Res 176: 1-13. PMID 19733746. 
• Peterson, M. A.; Skow, E. (2008). "Inhibitory Competition Between Shape Properties in Figure-Ground Perception". Journal of Experimental Psychology: Human Perception and Performance 34(2): 251-267. 
• Pinna, B.; Werner J.S.; Spillmann, L. (2003). "The watercolor effect: A new principle of grouping and figure-ground organization". Vision Research 43: 43âÈ’52. 
• Qiu, Fangtu T.; Sugihara, Tadashi; von der Heydt, Rüdiger (2007). "Figure-ground mechanisms provide structure for selective attention". Nature Neuroscience 10(11): 1492-1499. 
• Qiu, Fangtu T.; von der Heydt, Rüdiger (2005). "Figure and ground in the visual cortex: V2 combines stereoscopic cues with gestalt rules". Neuron 47: 155-166. 
• Vecera, S.P.; Vogel, E.K.; Woodman, G.F. (2002). "Lower Region: A New Cue for Figure-Ground Assignment". Journal of Experimental Psychology: General 13: 194-205. 
• Zhaoping, L (2005). "Border ownership from intracortical interactions in visual area v2". Neuron: 143-53. PMID 15996554. 
• Zhou, Hong; Friedman, Howard S.; von der Heydt, Rüdiger (2000). "Coding of border ownership in monkey visual cortex". Journal of Neuroscience 20 (17): 6594-6611.