Contrast masking effects change with practice

被引:51
作者
Dorais, A [1 ]
Sagi, D [1 ]
机构
[1] WEIZMANN INST SCI,DEPT NEUROBIOL,IL-76100 REHOVOT,ISRAEL
关键词
contrast discrimination; detection; gain control; learning; masking;
D O I
10.1016/S0042-6989(96)00329-X
中图分类号
Q189 [神经科学];
学科分类号
071006 ;
摘要
Contrast detection thresholds are known to increase with background contrast, a phenomenon called contrast masking. We found that, under some conditions, observers improved their masked detection performance by repetitive practice of a masking experiment. This learning effect resulted in a cancellation of suprathreshold contrast masking within the contrast range measured. A two-alternative forced-choice discrimination paradigm was used, with stimuli consisting of Gabor signals as maskers and target, presented at the same location and time. Untrained observers showed increased detection thresholds with increasing mask contrast for suprathreshold mask contrasts, but perceptual learning caused an elimination of this classical effect, with masked thresholds reaching the no-mask level and below. Learning did not decrease, but rather somewhat increased, discrimination thresholds when target and mask shared the same Gabor signal parameters. Performance improvement was found to be specific for orientation and mask configurations, though it did transfer between mirror symmetric mask configurations and between eyes. These results argue against a static transducer function-based account for contrast masking and are consistent with a theory assuming multiple feature-based interactive network capable of long-term gain modifications. (C) 1997 Elsevier Science Ltd.
引用
收藏
页码:1725 / 1733
页数:9
相关论文
共 29 条
[21]   SPATIAL INTERACTIONS IN HUMAN VISION - FROM NEAR TO FAR VIA EXPERIENCE-DEPENDENT CASCADES OF CONNECTIONS [J].
POLAT, U ;
SAGI, D .
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA, 1994, 91 (04) :1206-1209
[22]   Neurophysiological evidence for contrast dependent long-range facilitation and suppression in the human visual cortex [J].
Polat, U ;
Norcia, AM .
VISION RESEARCH, 1996, 36 (14) :2099-2109
[23]   CONTRAST ADAPTATION AND CONTRAST MASKING IN HUMAN VISION [J].
ROSS, J ;
SPEED, HD .
PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES, 1991, 246 (1315) :61-69
[24]   PERCEPTUAL-LEARNING - LEARNING TO SEE [J].
SAGI, D ;
TANNE, D .
CURRENT OPINION IN NEUROBIOLOGY, 1994, 4 (02) :195-199
[25]   LATERAL INTERACTIONS IN PRIMARY VISUAL-CORTEX - A MODEL BRIDGING PHYSIOLOGY AND PSYCHOPHYSICS [J].
STEMMLER, M ;
USHER, M ;
NIEBUR, E .
SCIENCE, 1995, 269 (5232) :1877-1880
[26]   SPATIAL-FREQUENCY MASKING AND WEBER LAW [J].
SWIFT, DJ ;
SMITH, RA .
VISION RESEARCH, 1983, 23 (05) :495-505
[27]  
TANNE D, 1995, INVEST OPHTH VIS SCI, V36, P376
[28]   SPATIAL-FREQUENCY ADAPTATION AND CONTRAST GAIN-CONTROL [J].
WILSON, HR ;
HUMANSKI, R .
VISION RESEARCH, 1993, 33 (08) :1133-1149
[29]   Isolating excitatory and inhibitory nonlinear spatial interactions involved in contrast detection [J].
Zenger, B ;
Sagi, D .
VISION RESEARCH, 1996, 36 (16) :2497-2513