Publications

Ipser, A., Agolli, V., Bajraktari, A., Al-Alawi, F., Djaafara, N., Freeman, E.D. (2017). Sight and sound persistently out of synch: stable individual di erences in audiovisual synchronisation revealed by implicit measures of lip-voice integration. Scientific Reports. In press.

Fassnidge, C., Cecconi Marcotti, C., & Freeman, E. (2017). A deafening flash ! Visual interference of auditory signal detection. Consciousness and Cognition, 49, 15–24. doi:10.1016/j.concog.2016.12.009

Freeman, E. D., Macaluso, E., Rees, G., and Driver, J. (2014). fMRI correlates of object-based attentional facilitation versus suppression of irrelevant stimuli, dependent on global grouping and endogenous cueing. Front. Integr. Neurosci. 8.

Cappelletti, M., Chamberlain, R., Freeman, E. D., Kanai, R., Butterworth, B., Price, C. J., and Rees, G. (2013). Commonalities for Numerical and Continuous Quantity Skills at Temporo-parietal Junction. J. Cogn. Neurosci., 1–14.

Freeman, E. D. (2014). GB2511909 - Method & apparatus for calibrating and correcting for neural asynchronies. Intellectual Property Office. http://doi.org/http://www.ipo.gov.uk/p-ipsum/Case/ApplicationNumber/GB1400335.4

Freeman, E. D., Ipser, A., Palmbaha, A., Paunoiu, D., Brown, P., Lambert, C., … Driver, J. (2013). Sight and sound out of synch: Fragmentation and renormalisation of audiovisual integration and subjective timing. Cortex, 49(10), 2875–2887. doi:10.1016/j.cortex.2013.03.006

Freeman, E. D., Driver, J., Sterzer, P., & Driver, J. (2012). fMRI correlates of subjective reversals in ambiguous structure-from-motion . Journal of Vision , 12 (6 ), 1-19. doi:10.1167/12.6.35

Bauer, M., Akam, T., & Driver, J. (2012). Does visual flicker phase at gamma frequency modulate neural signal propagation and stimulus selection? Journal of Vision, 12, 1-10. doi:10.1167/12.4.5

Cappelletti M., Freeman E.D. and Butterworth B.L. (2011). Time processing in dyscalculia. Frontiers in Psychology 2:364. doi:10.3389/fpsyg.2011.00364

Cappelletti, M., Freeman, E. D., & Cipolotti, L. (2011). Numbers and Time Doubly Dissociate. Neuropsychologia, 49(11), 3078-3092.

Leo, F., Romei, V., Freeman, E., Ladavas, E., & Driver, J. (2011). Looming sounds enhance orientation sensitivity for visual stimuli on the same side as such sounds. Experimental Brain Research, 213, 193-201.

Cappelletti,M., Lee,H.L., Freeman,E.D. Price,C.J. (2010). The role of the right and left parietal lobes in the conceptual processing of numbers. Journal of Cognitive Neuroscience 22(2),

Cappelletti,M., Freeman,E.D., Cipolotti,L. (2009). Interactions and dissociations between time, numerosity and space processing. Neuropsychologia 7(13), 2732-2748.

Freeman E, Verghese P (2009) Peeling Plaids Apart: Context Counteracts Cross-Orientation Contrast Masking. PLoS ONE 4(12): e8123. doi:10.1371/journal.pone.0008123

Freeman, E.D., Driver, J. (2008) Direction of visual apparent-motion driven solely by timing of a static sound. Current Biology 18(16):1262-6 .

Freeman, E., & Driver, J. (2008) Voluntary control of long-range motion integration via selective attention to context. Journal of Vision, 8(11):18, 1-22

Cappelletti, M., Freeman, E.D., Cipolotti, L. (2007) The middle house or the middle floor: Bisecting horizontal and vertical mental number lines in neglect. Neuropsychologia 45(13), 2989-3000.

Freeman, E.D., Driver, J. (2006) Subjective appearance of ambiguous structure-from-motion can be driven by objective switches of a separate less ambiguous context. Vision Research 46(23), 4007-4023.

Khoe, W., Freeman, E.D., Woldorff, M.G., Mangun, G.R. (2006) Interactions between attention and perceptual grouping in human visual cortex. Brain Research 1078(1), 101-111.

Ruff, C.C., Blankenburg, F., Bjoertomt, O., Bestmann, S., Freeman, E.D, Haynes,J-D., Rees, G., Josephs, O., Deichmann, R., Driver, J. (2006) Concurrent TMS-fMRI and psychophysics reveal frontal influences on human retinotopic visual cortex. Current Biology 16(15), 1479-1488. ISSN: 0960-9822

Freeman, E.D., Driver, J. (2005) Task-dependent modulation of target-flanker lateral interactions in vision Perception and Psychophysics 67(4), pp.624-637.

Freeman, E.D. (2005) Lateral interactions between targets and flankers require attention. in Itti,L., Rees,G., Tsotsos,J. (ed.) Neurobiology of Attention. Academic Press/Elsevier, 447-484

Freeman, E.D., Sagi, D., Driver, J. (2004) Configuration-specific attentional modulation of flanker-target lateral interactions Perception 33(2), pp.181-194.

Khoe, W., Freeman, E.D, Woldorff, M.G., Mangun, G.R. (2004) Electrophysiological correlates of lateral interactions in human observation of a visual cortex. Vision Research 44(14), pp.1659-1673.

Freeman, E.D, Driver, J., Sagi, D., Zhaoping, L. (2003) Top-down modulation of lateral interactions in early vision: Does attention affect integration of the whole or just perception of the parts? Current Biology 13(11), pp.985-989.

Driver, J., Davis, G., Russell, C., Turatto, M., Freeman, E.D. (2002) Segmentation, attention and phenomenal visual objects. in Scholl,B. (ed.) Objects and Attention. MIT Press

Freeman, E., Sagi, D., Driver, J. (2002) Psychophysical measurement of attention modulation in low-level vision using the lateral-interactions paradigm. in Cantoni, M. Marinaro, M. Petrosino, A. (ed.) Visual Attention Mechanisms. Plenum Press, 25-40

Driver, J., Davis, G., Russell, C., Turatto, M., Freeman, E.D. (2001) Segmentation, attention and phenomenal visual objects Cognition 80 (1-2 ), pp.61-95.

Freeman, E.D., Sagi, D., Driver, J. (2001) Lateral interactions between targets and flankers in low-level vision depend on attention to the flankers Nature Neuroscience 4 (10 ), pp.1032-1036.