The study compared electrical brain activity of 6 subjects in 5 different conditions. Absolute theta and alpha power in the frontal, parietal, and occipital areas were analyzed, with significant differences found only in the frontal area. Results suggested that the perception of movement requires higher order cognitive processing outside the occipital area. Implications for education and cognitive research are discussed.
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References
1.
AnstisS. M. (1978) Apparent movement. In LeibowitzR. H.TeuberH-L. (Eds.), Handbook of sensory physiology. Vol. 8. New York: Springer Verlag.656–673.
2.
CoffinL. (1992) Topographic mapping of the brain activity of gifted children. Unpublished doctoral dissertation, McGill Univer., Montreal, Quebec.
3.
CornelissenP.RichardsonA.MasonA.FowlerS.SteinJ. (1995) Contrast sensitivity and coherent motion detection measured at photopic luminance levels in dyslexies and controls. Vision Research, 35, 1483–1494.
4.
De SilvaH. R. (1929) An analysis of the visual perception of movement. British Journal of Psychology, 36, 265–305.
5.
DimmickF. L.ScahillH. G. (1925) Visual perception of movement. American Journal of Psychology, 36, 412–417.
6.
EdenG. F.VanMeterJ. W.RumseyJ. M.MaisogJ. M.WoodsR. P.ZeffiroT. A. (1996) Abnormal processing of visual motion in dyslexia revealed by functional brain imagining. Nature, 382, 66–69.
FisherK. W. (1987) Relations between brain and cognitive development. Child Development, 58, 623–632.
9.
FredmanA.HardyC. A. (1989) Seeing versus imaging movement in depth. Canadian Journal of Psychology, 44, 371–383.
10.
FrisbyJ. P. (1972) The effect of stimulus orientation on phi phenomenon. Vision Research, 12, 1145–1166.
11.
FrisbyJ. P.ClatworthyJ. C. (1973) Real and apparent movement: Evidence for a unitary mechanism. Perception, 2, 161–164.
12.
GibsonJ. J. (1954) The visual perception of objective motion and subjective movement. Psychology Review, 61, 304–314.
13.
GilmoreG. C.WenkH. E.NaylorL. A.StuveT. A. (1992) Motion perception and aging. Psychology and Aging, 7, 654–660.
14.
HuttenlocherP. R. (1979) Synaptic density in the human frontal cortex: Developmental changes and effects of aging. Brain Research, 163, 195–205.
15.
HuttenlocherP. R. (1990) Morphometric study of human cerebral cortex development. Neuropsychologia, 28, 517–527.
16.
KarniskiW.BlairR. C.SniderA. D. (1994) An exact statistical method for comparing topographical maps with any number of subjects and electrodes. Brain Topography, 6, 203–210.
17.
KennedyJ. (1936) The nature and physiological basis of visual movement discrimination in animals. Psychological Review, 43, 494–521.
KolersP. A. (1963) Some differences between real and apparent movement. Vision Research, 3, 191–206.
20.
KolersP. A. (1964) Some illusions of movement. Scientific American, 211, 98–106.
21.
KolersP. A. (1972) Aspects of motion perception. Oxford, UK: Pergamon.
22.
LeibowitzR. H.TeuberH-L. (1978) Handbook of sensory physiology. Vol. 8. New York: Springer Verlag.
23.
MizukiY.TanakaM.IsozakiH.NishijimaH.InanagaK. (1980) Periodic appearance of theta rhythm in the frontal midline area during performance of a mental task. Electroencephalography and Clinical Neurophysiology, 49, 345–351.
24.
Mundy-CastleA. C. (1951) Theta and beta rhythm in the electroencephalograms of normal adults. EEG Clinical Neurophysiology, 3, 447–486.
25.
Mundy-CastleA. C. (1957) The electroencephalogram and mental activity. EEG Clinical Neurophysiology, 9. 645–655.
26.
NorthdurftH. C. (1999) Focal attention in visual search. Vision Research, 39, 2305–2310.
27.
OsakaM. (1984) Peak alpha frequency of EEG during a mental task: Task difficulty and hemispheric differences. Psychophysiology, 21, 101–105.
28.
PeterhansE.Ván Der HeydtR. (1991) Subjective contours budging the gap between psy-chophysics and physiology. Trends in Neuroscience, 14, 112–119.
29.
RebertC. V.LowD. W.LarsenF. (1984) Differential hemispheric activation during complex visual motor performance: Alpha trends and theta. Biological Psychology, 19, 159–168.
30.
RisserM. G.BowersT. G. (1993) Cognitive and neuropsychological characteristics of attention deficit hyperactivity disorder children receiving stimulant medication. Perceptual and Motor Skills, 77, 1023–1031.
31.
StauderJ. E. A.MolenaarP. C. M.Van Der MolenM. W. (1993) Scalp topography of event-related brain potentials and cognitive transition during childhood. Child Development, 64, 769–788.
32.
SteinJ.WalshV. (1997) To see but not to read; the magnocellular theory of dyslexia. Trends in Neuroscience, 20, 147–151.
33.
TsudeR.UenoS. (1993) Spatio-temporal properties of evoked potentials associated with visual apparent movement. Proceedings of the third international congress on BET. Brain Topography, 5, 448.
34.
UttalW. R. (1981) A taxonomy of visual processes. Hillsdale, NJ: Erlbaum.
35.
Walt Disney Co. (1991) The animation studio. [computer software] Washington, DC: Software Publishers Assoc.
36.
YantisS.NakamaT. (1998) Visual interactions in the path of apparent motion. Nature Neuroscience, 1, 508–512.
