1Laboratory of Psychophysics, Brain Mind Institute, Ecole Polytechnique Fédérale de Lausanne (EPFL).
Psychol Sci. 2010 Aug;21(8):1058-63. doi: 10.1177/0956797610376074. Epub 2010 Jun 28.
Perceptual learning is the ability to improve perception through practice. Perceptual learning is usually specific for the task and features learned. For example, improvements in performance for a certain stimulus do not transfer if the stimulus is rotated by 90 degrees or is presented at a different location. These findings are usually taken as evidence that orientation-specific, retinotopic encoding processes are changed during training. In this study, we used a novel masking paradigm in which the offset in an invisible, oblique vernier stimulus was perceived in an aligned vertical or horizontal flanking stimulus presented at a different location. Our results show that learning is specific for the perceived orientation of the vernier offset but not for its actual orientation and location. Specific encoding processes cannot be invoked to explain this improvement. We propose that perceptual learning involves changes in nonretinotopic, attentional readout processes.
感知学习是指通过练习提高感知能力的能力。感知学习通常针对特定任务和所学习的特征。例如,如果刺激物旋转 90 度或出现在不同的位置,那么对于特定刺激物的性能提高就不会转移。这些发现通常被视为证据,表明在训练过程中,特定于方向的、视网膜定位的编码过程发生了变化。在这项研究中,我们使用了一种新颖的掩蔽范式,其中在以不同位置呈现的对齐的垂直或水平侧翼刺激中感知到不可见的斜游标刺激的偏移。我们的结果表明,学习是针对游标偏移的感知方向特定的,而不是针对其实际方向和位置。特定的编码过程不能被用来解释这种改进。我们提出,感知学习涉及非视网膜定位的、注意力读出过程的变化。