Difference between revisions of "Erik Chang"

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	PhD, Associate Professor
	Institute of Cognitive Neuroscience
	Email: auda(at)ncu(dot)edu(dot)tw
	TEL: +886-3-4227151-65209
	Fax: +886-3-4263502
	Skype: audachang

Research Interests

Human motor control Cognitive ageing Cognitive training Motor control and decision making

Publications

1. Tzeng, O. J.-L., Lee, C.-Y., Ren Lee, J., Wu, D. H., Juan, C.-H., Cheng, S.-K., … Hung, D. L. (2013). Cognitive Neuroscience in the 21st Century: A Selective Review of Prominent Research Topics and Applications. Journal of Neuroscience and Neuroengineering, 2(4), 364–381. doi:10.1166/jnsne.2013.1071
2. Chiou, R. Y. C., Wu, D. H., Tzeng, O. J. L., Hung, D. L., & Chang, E. C. (2012). Relative Size of Numerical Magnitude Induces a Size-Congruity Effect on the Grip Scaling of Reach-to-Grasp Movements. Cortex, 48(8), 1043–51. doi:10.1016/j.cortex.2011.08.001
3. Lin, C.-T., Huang, T.-Y., Lin, W.-J., Chang, S.-Y., Lin, Y.-H., Ko, L.-W., … Chang, E. C. (2012). Gender differences in wayfinding in virtual environments with global or local landmarks. Journal of Environmental Psychology, 32, 89–96.
4. Chang, E. C. (2010). How to understand brain imaging studies. In J. R. Lee & C. Juan (Eds.), Learning to read and reading to learn. Taipei: Hsin-Yi Foundation Publisher, Taipei, Taiwan.
5. Chouinard, P. A., Large, M.-E., Chang, E. C., & Goodale, M. A. (2009). Dissociable neural mechanisms for determining the perceived heaviness of objects and the predicted weight of objects during lifting: an fMRI investigation of the size-weight illusion. NeuroImage, 44(1), 200–212.
6. Chiou, R. Y.-C., Chang, E. C., Tzeng, O. J.-L., & Wu, D. H. (2009). The common magnitude code underlying numerical and size processing for action but not for perception. Experimental Brain Research, 194(4), 553–562.
7. Chang, E. C., Flanagan, J. R., & Goodale, M. a. (2008). The intermanual transfer of anticipatory force control in precision grip lifting is not influenced by the perception of weight. Experimental Brain Research. Experimentelle Hirnforschung. Expérimentation Cérébrale, 185(2), 319–29. doi:10.1007/s00221-007-1156-0
8. Chang, E., & Ro, T. (2007). Maintenance of visual stability in the human posterior parietal cortex. Journal of Cognitive Neuroscience, 19(2), 266–74. doi:10.1162/jocn.2007.19.2.266
9. Olk, B., Chang, E., Kingstone, A., & Ro, T. (2006). Modulation of antisaccades by transcranial magnetic stimulation of the human frontal eye field. Cerebral Cortex, 16(1), 76–82. doi:10.1093/cercor/bhi085
10. Chang, E., & Ro, T. (2005). Inhibition of return in perception and action. Visual Cognition, 12(3), 443–472. doi:10.1080/13506280444000391
11. Ro, T., Shelton, D., Lee, O. L., & Chang, E. (2004). Extrageniculate mediation of unconscious vision in transcranial magnetic stimulation-induced blindsight. Proceedings of the National Academy of Sciences of the United States of America, 101(26), 9933–5. doi:10.1073/pnas.0403061101
12. Ro, T., Farnè, A., & Chang, E. (2003). Inhibition of return and the human frontal eye fields. Experimental Brain Research. Experimentelle Hirnforschung. Expérimentation Cérébrale, 150(3), 290–6. doi:10.1007/s00221-003-1470-0