Illusions have mainly been classified according to their phenomenological appearance. Here, I plead for a new classification approach based on processing areas or mechanisms. Classifying visual illusions according to processing areas or mechanisms may not only be valuable for a better understanding of the visual system but also for diagnostics of impairments, degenerative effects, and lesions (from retina to striate and extra-striate cortex).
AgrilloC.GoriS.BeranM. J. (2015) Do rhesus monkeys (Macaca mulatta) perceive illusory motion?Animal Cognition18: 895–910.
2.
AshidaH.KurikiI.MurakamiI.HisakataR.KitaokaA. (2012) Direction-specific fMRI adaptation reveals the visual cortex network underlying the “Rotating Snakes” illusion. NeuroImage61: 1143–1152.
3.
BachM.PoloschekC. M. (2006) Optical illusions. Advances in Clinical Neuroscience and Rehabilitation6: 20–21.
4.
BillinoJ.HamburgerK.GegenfurtnerK. R. (2009) Age effects on the perception of motion illusions. Perception38: 508–521.
5.
BoringE. G. (1942) Sensation and perception in the history of experimental psychology, New York, NY: Appleton-Century-Crofts.
6.
BudnikU.HindiA. C.HamburgerK.BayerlP.PinnaB.HennigJ.SpeckO. (in revision) Perceptual reality of motion does not matter to hMT+. Perceptual experience of motion activates hMT+ independently from the physical reality of the visual input. fMRI insights from the looming Pinna-Brelstaff figure. Perception.
7.
CarbonC. -C.SchweinbergerS. R.KaufmannJ. M.LederH. (2005) The Thatcher illusion seen by the brain: An event-related brain potentials study. Cognitive Brain Research24: 544–555.
8.
CavanaghP. (1991) Vision at equiluminance. In: KulikowskiJ. J.MurrayI. J.WalshV. (eds) Vision and visual dysfunction. Limits of visionVol. V, Boca Raton, FL: CRC Press, pp. 234–250.
9.
ColderB. (2011) Emulation as an integrating principle for cognition. Frontiers in Human Neuroscience5: 1–12. doi:10.3389/fnhum.2011.00054.
10.
EaglemanD. M. (2001) Visual illusions and neurobiology. Nature Reviews Neuroscience2: 920–926.
11.
FreudE.GanelT.AvidanG. (2013) Representation of possible and impossible objects in the human visual cortex: Evidence from fMRI adaptation. NeuroImage64: 685–692.
12.
FriedmanD.CycowiczY. M. (2006) Repitition priming of possible and impossible objects from ERP and behavioral perspectives. Psychophysiology43: 569–578.
13.
GoriS.HamburgerK. (2006) A new motion illusion: The Rotating-Tilted-Lines illusion. Perception35: 853–857.
14.
GoriS.YazdanbakhshA. (2008) The riddle of the Rotating-Tilted-Lines illusion. Perception37: 631–635.
15.
GoriS.StubbsA. (2014) Motion illusions as a psychophysical tool to investigate the visual system. In: GeremekA.GreenleeM. W.MagnussenS. (eds) Perception beyond Gestalt—Progress in vision research, New York, NY: Psychology Press, pp. 128–143.
16.
GoriS.HamburgerK.SpillmannL. (2006) Reversal of apparent rotation in the Enigma-figure with and without motion adaptation and the effect of T-junctions. Vision Research46: 3267–3273.
17.
GoriS.AgrilloC.DaddaM.BisazzaA. (2014) Do fish perceive illusory motion?Scientific Reports4: 6443. doi:10.1038/srep06443.
18.
GoriS.SeitzA. R.RonconiL.FranceschiniF.FacoettiA. (in press) Multiple causal links between magnocellular-dorsal pathway deficit and developmental dyslexia. Cerebral Cortex. doi:10.1093/cercor/bhv206.
19.
GoriS.MascherettiS.GioraE.RonconiL.RuffinoM.QuadrelliE.MarinoC. (2015) The DCDC2 intron 2 deletion impairs illusory motion perception unveiling the selective role of magnocellular-dorsal stream in reading (dis)ability. Cerebral Cortex25: 1685–1695.
20.
GregoryR. L. (1968) Visual illusions. Scientific American219: 66–76.
21.
GregoryR. L. (1997) Visual illusions classified. Trends in Cognitive Sciences1: 190–194.
22.
GregoryR. L. (2001) Perceptions of knowledge. Nature410: 21.
23.
GregoryR. L. (2004) Eye and brain. The psychology of seeing, 5th ed. Oxford, England: Oxford University Press.
24.
GurnseyR.PagéG. (2006) Effects of local and global factors in the Pinna illusion. Vision Research46: 1823–1837.
25.
HabeckC.HiltonH. J.ZarahnE.BrownT.SternY. (2006) An event-related fMRI study of the neural networks underlying repetition suppression and reaction time priming in implicit visual memory. Brain Research1075: 133–141.
26.
HamburgerK. (2007) Visual illusions—Perception of luminance, color, and motion in humans, Saarbrücken, Germany: VDM Verlag Dr. Müller.
27.
HamburgerK. (2012) Still motion? Motion illusions and luminance contrast. Perception41: 113–116.
28.
HamburgerK.HansenT. (2010) Analysis of individual variations in the classical horizontal-vertical illusion. Attention, Perception, & Psychophysics72: 1045–1052.
29.
HamburgerK.HansenT.GegenfurtnerK. R. (2007) Geometric-optical illusions at isoluminance. Vision Research47: 3276–3285.
30.
HappéF. G. E. (1996) Studying weak central coherence at low levels: Children with autism do not succumb to visual illusions. A research note. Journal of Child Psychology and Psychiatry37: 873–877.
31.
ItoH. (2012) Illusory object motion in the centre of a radial pattern: The Pursuit-Pursuing illusion. i-Perception3: 59–87.
32.
KanizsaG. (1955) Margini quasipercettivi in campi con stimolazione omogenea. Rivista di psicologia49: 730.
KitaokaA.AshidaH. (2007) A variant of the anomalous motion illusion based upon contrast and visual latency. Perception36: 1019–1035.
35.
KornmeierJ.PfäffleM.BachM. (2011) Necker cube: Stimulus-related (low-level) and percept-related (high-level) EEG signatures early in occipital cortex. Journal of Vision11: 1–11.
36.
KülpeO. (1893) Grundriss der Psychologie, Leipzig, Germany: Wilhelm Engelmann.
37.
LeviantI. (1996) Does ‘brain-power’ make Enigma spin?Proceedings of the Royal Society of London Series B263: 997–1001.
38.
LivingstoneM. S.HubelD. H. (1987) Psychophysical evidence for separate channels for the perception of form, color, movement, and depth. Journal of Neuroscience7: 3416–3468.
39.
Luckiesh, M. (1922). Visual illusions: Their causes, characteristics and applications. New York: D. Van Nostrand Company.
40.
MestryN.MeneerT.WengerM. J.BenikosN.McCarthyR.DonnellyN. (2015) The role of configurality in the Thatcher illusion: An ERP study. Psychonomic Bulletin & Review22: 445–452.
41.
MendolaJ. D.DaleA. M.FischlB.LiuA. K.TootellR. B. H. (1999) The representation of illusory and real contours in human cortical visual areas revealed by functional magnetic resonance imaging. The Journal of Neuroscience19: 8560–8572.
42.
PinnaB.BrelstaffG. J. (2000) A new visual illusion of relative motion. Vision Research40: 2091–2096.
TootelR. B. H.ReppasJ. B.DaleA. M.LookR. B.SerenoM. I.MalachR.RosenB. R. (1995) Visual motion aftereffect in human cortical area MT revealed by functional magnetic resonance imaging. Nature375: 139–141.
49.
VandenbrouckeA. R. E.FahrenfortJ. J.SligteI. G.LammeV. A. (2014) Seeing without knowing: Neural signatures of perceptual inference in the absence of report. Journal of Cognitive Neuroscience26: 955–969.
50.
WeidnerR.PlewanT.ChenQ.BuchnerA.WeissP. H.FinkG. R. (2014) The moon illusion and size-distance scaling—evidence for shared neural patterns. Journal of Cognitive Neuroscience26: 1871–1882.
