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The Quarterly Journal of Experimental Psychology Volume 68, 2015 - Issue 9
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Categorizing identity from facial motion

Christine GirgesDepartment of Psychology, Brunel University, Uxbridge, UKCorrespondence[email protected]
,
Janine SpencerDepartment of Psychology, Brunel University, Uxbridge, UK
&
Justin O'BrienDepartment of Psychology, Brunel University, Uxbridge, UK
Pages 1832-1843 | Received 29 Jul 2014, Accepted 22 Nov 2014, Published online: 17 Feb 2015

REFERENCES

  • Bindemann, M., Attard, J., Leach, A. M. Y., & Johnston, R. A. (2013). The effect of image pixelation on unfamiliar-face matching. Applied Cognitive Psychology, 27, 707–717. doi:10.1002/acp.2970
  • Bonner, L., Burton, A. M., & Bruce, V. (2003). Getting to know you: How we learn new faces. Visual Cognition, 10(5), 527–536. doi:10.1080/13506280244000168
  • Bould, E., & Morris, N. (2008). Role of motion signals in recognizing subtle facial expressions of emotion. British Journal of Psychology, 99(Pt 2), 167–189. doi:10.1348/000712607X206702
  • Bruce, V., & Valentine, T. (1988). When a nod's as good as a wink: The role of dynamic information in facial recognition. In M. M. Gruneberg, P. E. Morris, et al. (Eds.), Practical aspects of memory: Current research and issues: Vol. 1. Memory in everyday life (69–174). Oxford, UK: Wiley.
  • Bulf, H., & Turati, C. (2010). The role of rigid motion in newborns’ face recognition. Visual Cognition, 18(4), 504–512. doi:10.1080/13506280903272037
  • Burton, A. M., Wilson, S., Cowan, M., & Bruce, V. (1999). Face recognition in poor-quality video: Evidence from security surveillance. Psychological Science, 10, 243–248. Retrieved from http://dx.doi.org.v-ezproxy.brunel.ac.uk:2048/10.1111/1467-9280.00144
  • Calder, A., Rhodes, G., Johnson, M., & Haxby, J. (2011). Oxford handbook of face perception. New York, USA: Oxford University Press.
  • Christie, F., & Bruce, V. (1998). The role of dynamic information in the recognition of unfamiliar faces. Memory and Cognition, 26(4), 780–790. doi: 10.3758/BF03211397
  • Curio, C., Breidt, M., Kleiner, M., Vuong, Q. C., Giese, M. A., & Bülthoff, H. H. (2006). Semantic 3D motion retargeting for facial animation. In Proceedings of the 3rd symposium on applied perception in graphics and visualization (pp. 77–84). New York, NY: ACM Press.
  • Dobs, K., Bülthoff, I., Breidt, M., Vuong, Q. C., Curio, C., & Schultz, J. (2014). Quantifying human sensitivity to spatio-temporal information in dynamic faces. Vision Research, 100, 78–87. doi:10.1016/j.visres.2014.04.009
  • Ekman, P., & Friesen, W. V. (1978). Facial action coding system: A technique for the measurement of facial movement. Palo Alto, CA: Consulting Psychologists Press.
  • FaceShift Studio (Version 1.1) [Computer software]. Zurich, Switzerland. Retrieved from http://www.faceshift.com
  • Furl, N., van Rijsbergen, N. J., Kiebel, S. J., Friston, K. J., Treves, A., & Dolan, R. J. (2010). Modulation of perception and brain activity by predictable trajectories of facial expressions. Cerebral Cortex, 20(3), 694–703. doi: 10.1093/cercor/bhp140
  • Girges, C., Wright, M. J., Spencer, J. V., & O'Brien, J. M. D. (2014). Event-related alpha suppression in response to facial motion. PloS One, 9(2), e89382. doi:10.1371/journal.pone.0089382
  • Han, S., Jiang, Y., Humphreys, G. W., Zhou, T., & Cai, P. (2005). Distinct neural substrates for the perception of real and virtual visual worlds. NeuroImage, 24(3), 928–935. doi:10.1016/j.neuroimage.2004.09.046
  • Hill, H., & Johnston, A. (2001). Categorizing sex and identity from the biological motion of faces. Current Biology: CB, 11(11), 880–885. Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/11516651
  • Itier, R. J., & Taylor, M. J. (2002). Inversion and contrast polarity reversal affect both encoding and recognition processes of unfamiliar faces: A repetition study using ERPs. NeuroImage, 15(2), 353–372. doi:10.1006/nimg.2001.0982
  • Knappmeyer, B., Thornton, I. M., & Bülthoff, H. H. (2003). The use of facial motion and facial form during the processing of identity. Vision Research, 43(18), 1921–1936. doi:10.1016/S0042-6989(03)00236-0
  • Knight, B., & Johnston, A. (1997). The role of movement in face recognition. Visual Cognition, 4(3), 265–273. doi:10.1080/135062897395462
  • Krumhuber, E. G., Kappas, A., & Manstead, A. S. R. (2013). Effects of dynamic aspects of facial expressions: A review. Emotion Review, 5(1), 41–46. doi: 10.1177/1754073912451349
  • Lander, K., & Bruce, V. (2000). Recognizing famous faces: Exploring the benefits of facial motion. Ecological Psychology, 12(4), 259–272. doi:10.1207/S15326969ECO1204_01
  • Lander, K., & Bruce, V. (2003). The role of motion in learning new faces. Visual Cognition, 10(8), 897–912. doi:10.1080/13506280344000149
  • Lander, K., Bruce, V., & Hill, H. (2001). Evaluating the effectiveness of pixelation and blurring on masking the identity of familiar faces. Applied Cognitive Psychology, 15, 101–116. doi:10.1002/1099-0720(200101/02)15:1<101::AID-ACP697>3.0.CO;2-7
  • Lander, K., Christie, F., & Bruce, V. (1999). The role of movement in the recognition of famous faces. Memory and Cognition, 27, 974–985. Retrieved from http://dx.doi.org.v-ezproxy.brunel.ac.uk:2048/10.3758/BF03201228
  • Lander, K., & Chuang, L. (2005). Why are moving faces easier to recognize? Visual Cognition, 12(3), 429–442. doi:10.1080/13506280444000382
  • Layton, D., & Rochat, P. (2007). Contribution of motion information to maternal face discrimination in infancy. Infancy, 12, 257–271. doi:10.1080/15250000701518594
  • Lee, Y., Habak, C., & Wilson, H. R. (2010). Seeing an unfamiliar face in rotational motion does not aid identity discrimination across viewpoints. Vision Research, 50(9), 854–859. doi:10.1016/j.visres.2010.02.013
  • Longmore, C. A., Liu, C. H., & Young, A. W. (2008). Learning faces from photographs. Journal of Experimental Psychology: Human Perception and Performance, 34(1), 77–100. doi:10.1037/0096-1523.34.1.77
  • Longmore, C. A., & Tree, J. J. (2013). Motion as a cue to face recognition: Evidence from congenital prosopagnosia. Neuropsychologia, 51(5), 864–875. doi:10.1016/j.neuropsychologia.2013.01.022
  • Maguinness, C., & Newell, F. N. (2014). Motion facilitates face perception across changes in viewpoint and expression in older adults. Journal of Experimental Psychology: Human Perception and Performance. Advance online publication. http://dx.doi.org/10.1037/a0038124
  • Moser, E., Derntl, B., Robinson, S., Fink, B., Gur, R. C., & Grammer, K. (2007). Amygdala activation at 3T in response to human and avatar facial expressions of emotions. Journal of Neuroscience Methods, 161(1), 126–133. doi:10.1016/j.jneumeth.2006.10.016
  • O'Brien, J., Spencer, J., Girges, C., Johnston, A., & Hill, H. (2014). Impaired perception of facial motion in autism spectrum disorder. PloS One, 9(7), e102173. doi:10.1371/journal.pone.0102173
  • O'Toole, A., Roark, D., & Abdi, H. (2002). Recognition of moving faces: A psychological and neural synthesis. Trends in Cognitive Science, 6, 261–266. doi:10.1016/S1364-6613(02)01908-3
  • Otsuka, Y., Konishi, Y., Kanazawa, S., Yamaguchi, M. K., Abdi, H., & O'Toole, A. J. (2009). Recognition of moving and static faces by young infants. Child Development, 80(4), 1259–1271. doi:10.1111/j.1467-8624.2009.01330.x
  • Pike, G. E., Kemp, R. I., Towell, N. A., & Phillips, K. C. (1997). Recognising moving faces: The relative contribution of motion and perspective view information. Visual Cognition, 4, 409–437. Retrieved from http://dx.doi.org.v-ezproxy.brunel.ac.uk:2048/10.1080/713756769
  • Pilz, K. S., Thornton, I. M., & Bülthoff, H. H. (2006). A search advantage for faces learned in motion. Experimental Brain Research, 171(4), 436–447. doi:10.1007/s00221-005-0283-8
  • Pitcher, D., Walsh, V., Yovel, G., & Duchaine, B. (2007). TMS evidence for the involvement of the right occipital face area in early face processing. Current Biology, 17(18), 1568–1573. doi:10.1016/j.cub.2007.07.063
  • Puce, A., Allison, T., Bentin, S., Gore, J. C., & McCarthy, G. (1998). Temporal cortex activation in humans viewing eye and mouth movements. Journal of Neuroscience, 18(6). 2188. Retrieved from http://www.jneurosci.org/content/18/6/2188.full.pdf+html
  • Rhodes, G., Michie, P. T., Hughes, M. E., & Byatt, G. (2009). The fusiform face area and occipital face area show sensitivity to spatial relations in faces. The European Journal of Neuroscience, 30(4), 721–733. doi:10.1111/j.1460-9568.2009.06861.x
  • Roosendaal, T. (1995). Blender (Version 2.66) [Computer software]. Amsterdam, Netherlands. Retrieved from http://www.blender.org
  • Schultz, J., Brockhaus, M., Bülthoff, H. H., & Pilz, K. S. (2013). What the human brain likes about facial motion. Cerebral Cortex, 23(5), 1167–1178. doi:10.1093/cercor/bhs106
  • Schultz, J., & Pilz, K. S. (2009). Natural facial motion enhances cortical responses to faces. Experimental Brain Research, 194, 465–475. doi:10.1007/s00221-009-1721-9
  • Solomon-Harris, L. M., Mullin, C. R., & Steeves, J. K. E. (2013). TMS to the “occipital face area” affects recognition but not categorization of faces. Brain and Cognition, 83(3), 245–251. doi:10.1016/j.bandc.2013.08.007
  • Spencer, J., O'Brien, J., Johnston, A., & Hill, H. (2006). Infants’ discrimination of faces by using biological motion cues. Perception, 35(1), 79–89. doi:10.1068/p5379
  • Spencer, J. V., & O'Brien, J. M. D. (2006). Visual form-processing deficits in autism. Perception, 35(8), 1047–1055. doi:10.1068/p5328
  • Stoesz, B. M., & Jakobson, L. S. (2013). A sex difference in interference between identity and expression judgments with static but not dynamic faces. Journal of Vision, 13, 1–14. doi:10.1167/13.5.26.
  • Thornton, I., Mullins, E., & Banahan, K. (2011). Motion can amplify the face-inversion effect. Psihologija, 44(1), 5–22. doi:10.2298/PSI1101005T
  • Thornton, I. M., Kourtzi, Z. (2002). A matching advantage for dynamic human faces. Perception, 31, 113–132. Retrieved from http://dx.doi.org.v-ezproxy.brunel.ac.uk:2048/10.1068/p3300
  • Valentine, T. (1998). Upside-down faces: A review of the effect of inversion upon face recognition. British Journal of Psychology, 79, 471–491. Retrieved from http://search.proquest.com.v-ezproxy.brunel.ac.uk:2048/docview/1293583110?accountid=14494
  • Watson, T., Johnston, A., Hill, H., & Troje, N. (2005). Motion as a cue for viewpoint invariance. Visual Cognition, 12(7), 1291–1308. doi:10.1080/13506280444000526
  • Weigelt, S., Koldewyn, K., & Kanwisher, N. (2013). Face recognition deficits in autism spectrum disorders are both domain specific and process specific. PloS One, 8(9), e74541. doi:10.1371/journal.pone.0074541
  • Xiao, N. G., Perrotta, S., Quinn, P. C., Wang, Z., Sun, Y.-H. P., & Lee, K. (2014). On the facilitative effects of face motion on face recognition and its development. Frontiers in Psychology, 5, 1–16. doi:10.3389/fpsyg.2014.00633
  • Xiao, N. G., Quinn, P. C., Ge, L., & Lee, K. (2012). Rigid facial motion influences featural, but not holistic, face processing. Vision Research, 57, 26–34. doi:10.1016/j.visres.2012.01.015
  • Xiao, N. G., Quinn, P. C., Ge, L., & Lee, K. (2013). Elastic facial movement influences part-based but not holistic processing. Journal of Experimental Psychology. Human Perception and Performance. Advance online publication. doi:10.1037/a0031631

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