上下半部臉部特徵對快樂與悲傷表情區辨之影響

Yi-Cheng Pan; 潘怡誠

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/57216

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	陳建中
dc.contributor.author	Yi-Cheng Pan	en
dc.contributor.author	潘怡誠	zh_TW
dc.date.accessioned	2021-06-16T06:38:11Z	-
dc.date.available	2019-09-03
dc.date.copyright	2014-09-03
dc.date.issued	2013
dc.date.submitted	2014-07-30
dc.identifier.citation	Bassili, J. N. (1979). Emotion recognition: The role of facial movement and the relative importance of upper and lower areas of the face. Journal of Personality and Social Psychology, 37, 2049–2058. Blais C., Roy C., Fiset D., Arguin M., & Gosselin F. (2012). The eyes are not the window to basic emotions. Neuropsychologia, 50, 2830–2838. doi: 10.1016/j.neuropsychologia.2012.08.010. Bonds A. B. (1989). Role of inhibition in the specification of orientation selectivity of cells in the cat striate cortex. Visual Neurosci, 2, 41-55 Brainard, D. H. (1997). The psychophysics toolbox. Spatial Vision, 10, 433–436. Bruce, V., & Young, A. (1986). Understanding face recognition. British Journal of Psychology, 77, 305-327. Calder, A. J., Young, A. W., Keane, J., & Dean, M. (2000). Configural information in facial expression perception. Journal of Experimental Psychology: Human Perception & Performance, 26, 527–551. Carey, S., & Diamond, R. (1977). From piecemeal to configurational representation of faces. Science, 195, 312–314. Chen, C. C. (2009). A masking analysis of Glass pattern perception. Journal of Vision. 9(12): 15, 1-11. doi: 10.1167/9.12.22. Chen, C. C., Cho, S. L., & Tseng, R. Y. (2013) Taiwan corpora of Chinese emotions and relevant psychophysiological responses – Behavioral evaluation norm for facial expressions of professional performer. Chinese Journal of Psychology ,55(4), 439-454. Chen, C. C., Kao, L. C., & Tyler, C. W. (2007). Face configuration processing in the human brain: The role of symmetry. Cerebral Cortex, 17, 1423–1432. Chen, M. Y., & Chen, C. C. (2010). The contribution of the upper and lower face in happy and sad facial expression classification. Vision Research, 50, 1814-1823. doi: 10.1016/j.visres.2010.06.002. Chen, C. C., Foley, J. M., & Brainard, D. H. (2000). Detection of chromo luminance patterns on chromo luminance pedestals II: Model. Vision Research, 40, 789–803. doi: 10.1016/S0042-6989(99)00228-X Chen, C. C., & Tyler, C. W. (2001). Lateral sensitivity modulation explains the flanker effect in contrast discrimination. The Proceedings of the Royal Society of London, Series B, 268, 509–516. Chen, C. C. & Tyler, C. W. (2002). Lateral modulation of contrast discrimination: Flanker orientation effects. Journal of Vision, 2, 530-538. Dakin S. C., Omigie D. (2009). Psychophysical evidence for a non-linear representation of facial identity. Vision Research, 49, 2285–2296. doi: 10.1016/j.visres.2009.06.016 Darwin, C. (1872). The expression of the emotions in man and animals. Chicago : University of Chicago Press. De Valois, K. & Tootel, R. (1983). Spatial-frequency-specific inhibition in cat striate cortex cells. Journal of Physiology, 336, 359-376 Dimberg, U., & Ohman , A. (1996). Behold the wrath : Psychophysiological responses to facial stimuli. Motivation and Emotion, 20, 149-182. Ekman, P. (1992). Facial expression of emotion: New findings, new questions. Psychological Science, 3, 34-38. Ekman, P., & Friesen, W. V. (1975). Unmasking the face. Englewood Cliffs, NJ: Prentice-Hall. Ekman, P., & Friesen, W. V. (1978). Facial action coding system: A technique for the measurement of facial movement. Palo Alto, CA: Consulting Psychologists Press. Etcoff, N. L., & Magee, J. J. (1992). Categorical perception of facial expressions. Cognition, 44, 227-240. doi: 10.1016/0010-0277(92)90002-Y Fantz, R. L. (1961). The origin of form perception. Scientific American, 204, 66–72. Fox, C. J., Moon, S. Y., Iaria, G., & Barton, J. J. (2009). The correlates of subjective perception of identity and expression in the face network: An fMRI adaptation study. Neuroimage, 44, 569–580. doi: 10.1016/j.neuroimage.2008.09.011. Foley, J. M. (1994). Human luminance pattern-vision mechanisms: Masking experiments require a new model. Journal of the Optical Society of America A, 11, 1710–1719. Frank, M.G., & Stennett, J. (2001). The forced-choice paradigm and the perception of facial expressions of emotion. Journal of Personality and Social Psychology, 80, 75-85. Goren, D., & Wilson, H. R. (2006). Quantifying facial expression recognition across viewing conditions. Vision Research, 46, 1253–1262. Gosselin, F., & Schyns, P. G. (2001). Bubbles: A technique to reveal the use of information in recognition tasks. Vision Research, 41, 2261-2271. Gosselin, F., & Schyns, P. G. (2004). No troubles with bubbles: A reply to Murray and Gold. Vision Research, 44, 471–477. doi: 10.1016/j.visres.2003.10.007. Haxby, J. V., Hoffman, E. A., & Gobbini, M. I. (2000). The distributed human neural system for face perception. Trends in Cognitive Science, 4, 223-233. Heeger, D.J. (1991). Nonlinear model of neural responses in cat visual cortex. In Landy, M. & Movshon, J. A. (Eds), Computational models of visual processing (pp. 119-133). Cambridge, MA: MIT Press. Heeger, D. (1992). Normalization of cell responses in cat striate cortex. Visual Neuroscience, 9, 181–197 Izard, C. E. (1977). Human emotions. New York: Plenum Press. Kanwisher, N., & Yovel, G. (2006). The fusiform face area: A cortical region specialized for the perception of faces. Philosophical Transactions of the Royal Society of London B, 361, 2109–2128. Keltner, D. (1995). Signs of appeasement: Evidence for the distinct displays of embarrassment, amusement, and shame. Journal of Personality and Social Psychology, 68, 441-454. Kleiner, M., Brainard, D., Pelli, D. (2007). What's new in Psychtoolbox-3? Perception 36 ECVP Abstract Supplement. doi:10.1068/v070821 Knutson, B. (1996). Facial expressions of emotion influence interpersonal trait inferences. Journal of Nonverbal Behavior, 20, 165-182. Konar, Y., Bennett, P., & Sekuler, A. (2010), Holistic processing is not correlated with face-identification accuracy. Psychological Science, 21, 38–43 Kontsevich, L. L., & Tyler, C. W. (1999). Bayesian adaptive estimation of psychometric slope and threshold. Vision Research, 39, 2729–2737. Kontsevich, L. L., & Tyler, C. W. (2004). What makes Mona Lisa smile? Vision Research, 44, 1493–1498. Leder, H., & Bruce, V. (2000). When inverted faces are recognized: The role of configural information in face recognition. The Quarterly Journal of Experimental Psychology A, 53, 513–536. Legge, G. E., & Foley, J. M. (1980). Contrast masking in human vision. Journal of the Optical Society of America, 70, 1458–1471. Murray, R. F., & Gold, J. M. (2004). Troubles with bubbles. Vision Research, 44, 461–470. Nusseck, M., Cunningham, D. W., Wallraven, C., & Bulthoff, H. H. (2008). The contribution of different facial regions to the recognition of conversational expressions. Journal of Vision, 8, 1–23. doi: 10.1167/8.8.1. O’Toole, A. R., Deffenbacher, K. A., Valentin, D., & Abdi, H. (1994). Structural aspects of face recognition and the other-race effect. Memory and Cognition, 22, 208. Press, W. H., Teukolsky, S. A., Vetterling, W. T., & Flannery, B. P. (1986). Numerical recipes. Cambridge: Cambridge University Press. Sekuler, A., Gaspar, C., Gold, J., Bennet,t P. (2004). Inversion leads to quantitative, not qualitative, changes in face processing. Current Biology, 14, 391–396 Smith, M. L., Cottrell, G. W., Gosselin, F., & Schyns, P. G. (2005). Transmitting and decoding facial expressions. Psychological Science, 16, 184–189. Tanaka, J. W., & Farah, M. J. (1993). Parts and wholes in face recognition. Quarterly Journal of Experimental Psychology, 46A, 225-245. Valentine, T. (1988). Upside-down faces: A review of the effect of inversion upon face recognition. British Journal of Psychology, 79, 471–491. Yovel,G., & Kanwisher, N. (2004). Face perception: domain speciﬁc, not process speciﬁc. Neuron, 44 (5), 889–898. Yovel,G., & Kanwisher, N. (2005).The neural basis of the behavioral face-inversion effect. Current Biology, 15, 2256–2262. Young, A. W., Rowland, D., Calder, A. J., Etcoff, N. L., Seth, A., & Perrett, D. I. (1997). Facial expression megamix: Tests of dimensional and category accounts of emotion recognition. Cognition, 63, 271–313. Zhang J., Li X., Song Y., Liu J. (2012). The fusiform face area is engaged in holistic, not parts-based, representation of faces. PLoS One 7: e40390. doi: 10.1371/journal.pone.0040390
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/57216	-
dc.description.abstract	本研究主要是探討人類臉部表情與情緒知覺間的轉換機制，藉由了解臉部不同特徵(眼部及嘴部)對表情辨識的貢獻，來了解視覺系統如何整合臉部特徵的訊息，以建立一個統整的表情知覺。在實驗中，以台灣地區華人情緒資料庫 (Chen, Cho, & Tseng, 2013) 挑選使用快樂和悲傷的情緒臉孔，並在快樂與悲傷的圖像中插入不同融合程度的圖片。之後將影像從鼻尖切成兩半，分為上下兩部分，根據需要再將不同融合程度的上半部或下半部的影像結合。利用2AFC與PSI動態閾限搜尋法測量75%的正確反應閾值。結果顯示，不管在快樂或是悲傷表情中，上半臉固定在任何融合程度，改變下半臉的融合程度，區辨閾值幾乎相同，但在較高的下半臉融合程度時，區辨閾值會有些微上升的現象，且相對於固定下半臉改變上半臉的融合程度的結果，有較低的區辨閾值。另一方面，當固定下半臉改變上半臉的融合程度時，區辨閾值會隨著上半部表情融合程度的升高而有降低的趨勢，但在較高的上半臉融合程度時，區辨閾值有上升的現象。結果可以說明，下半部臉孔對於區辨快樂/悲傷表情時有較大的貢獻。進一歩經由數學模型適配所得到的反應函數可知，在表情判斷的機制中呈現一個非線性的結果。我們認為視覺系統可能存在有兩種機制分別為快樂偵測器與悲傷偵測器來處理不同的表情。	zh_TW
dc.description.abstract	We investigated how the human visual system integrates facial features in order to discriminate subtle changes in faces and perceive facial expression. The stimuli used were morphed faces interpolated between happy and sad expressions of the same six models selected from a facial expression image database (Chen, Cho & Tseng, 2013). The morphed image was then divided into upper and lower parts. In each 2AFC trial, the observer was to compare a reference face with a designated morphing level and a test face with a slight change in morphing level from the reference in either the upper or the lower faces. We measured the discrimination threshold, the minimal morphing level difference for an observer to perceive a change in expression with 75% correct response level. When the upper face was held constant, there was little, if any, difference in discrimination threshold at different lower face morphing levels. The discrimination threshold was much lower than that in the conditions when the lower face was fixed. It suggests that the upper face plays little role in happy-sad discrimination. For each specific lower face, the threshold decreased with the morphing level of the upper reference face at first and then had slight increases. These findings suggest an expansive nonlinearity in the underlying expression discrimination mechanisms.	en
dc.description.provenance	Made available in DSpace on 2021-06-16T06:38:11Z (GMT). No. of bitstreams: 1 ntu-102-R00227107-1.pdf: 6767839 bytes, checksum: 4b1909a4f9b3756c48a9af8ee08fd3d0 (MD5) Previous issue date: 2013	en
dc.description.tableofcontents	Introduction 1 Method 8 Apparatus 8 Stimuli 8 Procedure 11 Observers 12 Result 13 Increment threshold for the happy expression 13 Increment threshold for the sad expression 18 Discussion 23 Basic model 25 Other possible model 33 Conclusion 58 Reference 59
dc.language.iso	en
dc.subject	反應函數	zh_TW
dc.subject	臉部表情	zh_TW
dc.subject	複合臉	zh_TW
dc.subject	區辨閾值	zh_TW
dc.subject	response function	en
dc.subject	facial expression	en
dc.subject	composite face	en
dc.subject	discrimination threshold	en
dc.title	上下半部臉部特徵對快樂與悲傷表情區辨之影響	zh_TW
dc.title	The relationship of upper and lower face in happy and sad facial expression discrimination	en
dc.type	Thesis
dc.date.schoolyear	102-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	卓淑玲,龔俊嘉
dc.subject.keyword	臉部表情,複合臉,反應函數,區辨閾值,	zh_TW
dc.subject.keyword	facial expression,composite face,response function,discrimination threshold,	en
dc.relation.page	65
dc.rights.note	有償授權
dc.date.accepted	2014-07-31
dc.contributor.author-college	理學院	zh_TW
dc.contributor.author-dept	心理學研究所	zh_TW
顯示於系所單位：	心理學系

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