面部表情的知觉适应后效
The Perception of Facial Expressions to Adapt to the Aftereffect
DOI: 10.12677/AP.2017.74074, PDF,    国家自然科学基金支持
作者: 郭彩霞, 王恩国:河南省心理与行为重点实验室,河南 开封
关键词: 面孔知觉适应后效Face Perception To Adapt to the Aftereffect
摘要: 当适应了某种特殊环境之后,会对此环境的变化相当敏感,严重时甚至会产生错觉,这种现象就是感知觉的适应后效现象。人们在长时间知觉人的面孔时,会产生面孔知觉适应后效,即对于面孔的性别、情绪、年龄等特征的变化会变得更加敏感,甚至会因过度敏感而产生认知偏差。这种面孔知觉适应是一种高水平的知觉适应现象。近年来,研究者用适应范式对面孔知觉适应现象进行了系列研究,并发现了许多影响面孔知觉适应效应量大小的因素。未来研究需要进一步探讨面孔知觉适应现象的大脑神经机制并提高面孔知觉适应现象研究的生态效度。
Abstract: When having adapted to a particular environment, we will be quite sensitive to the changes in environment, and even have the illusion when serious. This phenomenon is to adapt to the aftereffect perceptual phenomenon. When we have a long perception on faces, we will have the facial aftereffects. It is that people will be more sensitive to some face features such as gender, emotion, age and so on, even resulting in a bias in the appearance because of the loss in sensitivity. The adaption on faces is a phenomenon, which is a high level adaption about perception. For decades, researchers have used the paradigm of face adaption to study the phenomenon, and found many factors that affect the aftereffects of face perception. Future research needs to discuss the brain neural mechanism of the aftereffects of face adaption and improve the ecological validity of adaptation of face perception phenomenon research.
文章引用:郭彩霞, 王恩国 (2017). 面部表情的知觉适应后效. 心理学进展, 7(4), 602-609. https://doi.org/10.12677/AP.2017.74074

参考文献

[1] 陈晓媚(2013). 类别间面孔适应时间进程研究. 硕士论文, 浙江理工大学, 杭州.
[2] 江程铭, 焦长勇, 等(2014). 特征关联的类别间面孔适应. 心理学报, 46(8), 1072-1085.
[3] 严璘璘, 杨蕾静, 张智君(2011). 适应范式在人脸知觉研究中的应用. 应用心理学, 17(2), 153-159.
[4] 张馨, 蒋重清(2015). 面孔知觉中的适应现象. 心理科学进展, 23(8), 1340-1347.
[5] Avniel Singh, G., Mcdaniel, J. R., & Alex, M. (2010). Face Adaptation without a Face. Current Biology, 20, 32-36.[CrossRef] [PubMed]
[6] Burton, A. M., Bruce, V., & Johnston, R. A. (1990). Understanding Face Recognition with an Interactive Activation Model. British Journal of Psychology, 81, 361-380.[CrossRef] [PubMed]
[7] Caharel, S., Collet, K., & Rossion, B. (2015). The Early Visual Encoding of a Face (N170) Is Viewpoint-Dependent: A Parametric ERP-Adaptation Study. Biological Psychology, 106, 18-27.
[8] Cao, X., Ma, X., & Qi, C. (2015). N170 Adaptation Effect for Repeated Faces and Words. Neuroscience, 294, 21-28.[CrossRef] [PubMed]
[9] Carbon, C. C., Strobach, T., Langton, S. R. H. et al. (2007). Adaptation Effects of Highly Familiar Faces: Immediate and Long Lasting. Memory & Cognition, 35, 1966-1976.[CrossRef
[10] Chen, J., Yang, H., Wang, A., & Fang, F. (2010). Perceptual Consequences of Face Viewpoint Adaptation: Face Viewpoint Aftereffect, Changes of Differential Sensitivity to Face View, and Their Relationship. Journal of Vision, 10, 1-11.[CrossRef] [PubMed]
[11] Daar, M., & Wilson, H. R. (2012). The Face Viewpoint Aftereffect: Adapting to Full Faces, Head Outlines, and Features. Vision Research, 53, 54-59.
[12] Ellamil, M., Susskind, J. M., & Anderson, A. K. (2008). Examinations of Identity Invariance in Facial Expression Adaptation. Cognitive, Affective, & Behavioral Neuroscience, 8, 273-281.[CrossRef
[13] Hills, P. J., Holland, A. M., & Lewis, M. B. (2010). Aftereffects for Face Attributes with Different Natural Variability: Children Are More Adaptable than Adolescents. Cognitive Development, 25, 278-289.
[14] Hole, G. (2011). Identity-Specific Face Adaptation Effects: Evidence for Abstractive Face Representations. Cognition, 119, 216-228.
[15] Jeffreys, D. A. (1996). Evoked Potential Studies of Face and Object Processing. Visual Cognition, 3, 1-38.[CrossRef
[16] Kovács, G., Zimmer, M., Banko, E., Harza, I., Antal, A., & Vidnyanszky, Z. (2006). Electrophysiological Correlates of Visual Adaptation to Faces and Body Parts in Humans. Cerebral Cortex, 16, 742-753.[CrossRef] [PubMed]
[17] Laeng, B., Bloem, I. M., D’Ascenzo, S., & Tommasi, L. (2014). Scrutinizing Visual Images: The Role of Gaze in Mental Imagery and Memory. Cognition, 131, 263-283.
[18] Lai, M., Oruç, I., & Barton, J. J. S. (2010). Facial Age After-Effects Show Partial Identity Invariance and Transfer from Hands to Faces. Cortex, 48, 477-486.
[19] Laurence, S., & Hole, G. (2012). Identity Specific Adaptation with Composite Faces. Visual Cognition, 20, 109-120.[CrossRef
[20] Rhodes, G., Jeffery, L., Clifford, C. W. G., & Leopold, D. A. (2007). The Timecourse of Higher-Level Face Aftereffects. Vision Research, 47, 2291-2296.
[21] Rhodes, G., Jeffery, L., Evangelista, E., Ewing, L., Peters, M., & Taylor, L. (2011). Enhanced Attention Amplifies Face Adaptation. Vision Research, 51, 1811-1819.
[22] Sanchez-Vives, M. V., Nowak, L. G., & McCormick, D. A. (2001). Membrane Mechanisms Underlying Contrast Adaptation in Cat Area 17 in Vivo. The Journal of Neuroscience, 20, 4267-4285.
[23] Thompson, P., & Burr, D. (2009). Visual Aftereffects. Current Biology, 19, R11-R14.[CrossRef] [PubMed]
[24] Tian, T., Feng, X., Feng, C., Gu, R., & Luo, Y. J. (2015). When Rapid Adaptation Paradigm Is Not Too Rapid: Evidence of Face-Sensitive N170 Adaptation Effects. Biological Psychology, 109, 53-60.
[25] Walther, C., Schweinberger, S. R., Kaiser, D., & Kovács, G. (2013). Neural Correlates of Priming and Adaptation in Familiar Face Perception. Cortex, 49, 1963-1977.
[26] Wandell, B. A., & Smirnakis, S. M. (2009). Plasticity and Stability of Visual Field Maps in Adult Primary Visual Cortex. Nature Reviews Neuroscience, 10, 873-884.
[27] Webster, M. A. (2010). Adaptation and Visual Coding. Journal of Vision, 11, 74-76.
[28] Webster, M. A., & MacLin, O. H. (1999). Figural Aftereffects in the Perception of Faces. Psychonomic Bulletin & Review, 6, 647-653.[CrossRef
[29] Webster, M. A., Kaping, D., Mizokami, Y., & Duhamel, P. (2004). Adaptation to Natural Facial Categories. Nature, 428, 557-561.[CrossRef] [PubMed]
[30] Wincenciak, J., Dzhelyova, M., Perrett, D. I., & Barraclough, N. E. (2013). Adaptation to Facial Trustworthiness Is Different in Female and Male Observers. Vision Research, 87, 30-34.
[31] Yamashita, J. A., Hardy, J. L., De Valois, K. K., & Webster, M. A. (2005). Stimulus Selectivity of Figural Aftereffects for Faces. Journal of Experimental Psychology: Human Perception and Performance, 31, 420-437.[CrossRef] [PubMed]
[32] Yang, H., Shen, J. H., Chen, J., & Fang, F. (2012). Face Adaptation Improves Gender Discrimination. Vision Research, 1, 105-110.