CONTOUR FROM MOTION PROCESSING OCCURS IN PRIMARY VISUAL-CORTEX

被引:74
|
作者
LAMME, VAF
VANDIJK, BW
SPEKREIJSE, H
机构
[1] NETHERLANDS OPHTHALM RES INST,POB 12141,1100 AC AMSTERDAM,NETHERLANDS
[2] UNIV AMSTERDAM,MED PHYS LAB,1105 AZ AMSTERDAM,NETHERLANDS
来源
NATURE | 1993年 / 363卷 / 6429期
关键词
D O I
10.1038/363541a0
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
RELATIVE motion is one of the most salient cues for segmentation of a visual scene into separate objects. This is illustrated by the vivid contours that are perceived when random dot patterns move in different directions1,2. Once motion is hatted in such displays the segmentation contours disappear. This makes random dot patterns ideal for the study of contour from motion processing in isolation. Contour from motion processing obviously relies on direction-selective neurons, which are found in many visual cortical areas3-5. It is, however, largely unknown at what level of processing their signals interact to serve the global process of motion-based image segmentation. To answer this quesion, we recorded visually evoked potentials, both in man and in awake monkey, to a stimulus specifically designed to signal the presence of neuronal activity related to contour from motion processing. We report here that response components specific to contour from motion were elicited only when the stimulus yielded a contour percept. In awake monkey, the sources of these components were located within the supra- and infra-granular layers of primary visual cortex. We conclude that V1 is involved in image segmentation processing.
引用
收藏
页码:541 / 543
页数:3
相关论文
共 50 条
  • [31] DIFFERENTIATION AND PLASTICITY OF THE PRIMARY VISUAL-CORTEX IN ONTOGENESIS
    ZILLES, K
    SCHULZ, F
    SCHLEICHER, A
    WREE, A
    ANATOMISCHER ANZEIGER, 1983, 153 (03): : 299 - 299
  • [32] CALLOSAL PROJECTIONS OF PRIMARY VISUAL-CORTEX IN TUPAIA
    KRETZ, R
    PRITZEL, M
    RAGER, G
    EXPERIENTIA, 1984, 40 (06): : 595 - 595
  • [33] PREFERENTIAL REPRESENTATION OF THE FOVEA IN THE PRIMARY VISUAL-CORTEX
    AZZOPARDI, P
    COWEY, A
    NATURE, 1993, 361 (6414) : 719 - 721
  • [34] EXTRAGENICULATE THALAMIC PROJECTIONS TO THE PRIMARY VISUAL-CORTEX
    MILLER, JW
    BUSCHMANN, MBT
    BENEVENTO, LA
    BRAIN RESEARCH, 1980, 189 (01) : 221 - 227
  • [35] TEXTURE SEGREGATION DEFINED BY ORIENTATION OR DIRECTION OF MOTION CONTRAST IS PROCESSED BY PRIMARY VISUAL-CORTEX
    LAMME, VAF
    VANDIJK, BW
    SPEKREIJSE, H
    INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE, 1991, 32 (04) : 909 - 909
  • [36] IMPLICATIONS OF MULTIUNIT RECORDINGS IN THE VISUAL-CORTEX FOR MODELS OF VISUAL PROCESSING
    KULIKOWSKI, JJ
    VIDYASAGAR, TR
    BEHAVIOURAL BRAIN RESEARCH, 1987, 26 (2-3) : 225 - 226
  • [37] TOPOGRAPHY AND VARIABILITY OF PRIMARY VISUAL-CORTEX IN MAN
    STENSAAS, SS
    EDDINGTON, DK
    DOBELLE, WH
    JOURNAL OF NEUROSURGERY, 1974, 40 (06) : 747 - 755
  • [38] INFLUENCE OF ASSOCIATION CORTEX ON PENICILLIN DISCHARGES IN PRIMARY VISUAL-CORTEX
    ROSEN, AD
    ELECTROENCEPHALOGRAPHY AND CLINICAL NEUROPHYSIOLOGY, 1976, 41 (06): : 571 - 579
  • [39] ENVELOPE MOTION DETECTION IN CAT VISUAL-CORTEX NEURONS
    ZHOU, YX
    BAKER, CL
    INVESTIGATIVE OPHTHALMOLOGY & VISUAL SCIENCE, 1991, 32 (04) : 908 - 908
  • [40] VISUAL-CORTEX
    BRO, S
    HAYCOCK, JW
    BEHAVIORAL BIOLOGY, 1977, 21 (04): : 508 - 528
12345