Publications
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Toward high performance, weakly invasive Brain Computer Interfaces using selective visual attention. The Journal of Neuroscience 33(14), 6001-6011 (2013).
JournalOfNeuroscience.pdf (3.25 MB)

Discriminability of direction of attention with and without stimuli based on V4 epidural recordings: A perspective for high-performance brain-computer interfaces. SfN International Neuroscience Meeting 2010 631.3 (2010).
2010_ernst_sfn.pdf (28.76 KB)

Attention Improves Object Representation in Visual Cortical Field Potentials. Journal of Neuroscience 29 (32), 10120–10130 (2009).
2009_rotermund_jneurosci.pdf (1.37 MB)

Field potentials from macaque area V4 predict attention in single trials with 100%. Bernstein Conference on Computational Neuroscience (BCCN2009) (2009). doi:10.3389/conf.neuro.10.2009.14.068
2009_rotermund_bccn.pdf (65.11 KB)

Phase differences in local field potentials from macaque monkey area V4 predict attentional state in single trials with 99.6% accuracy. Berlin Brain Computer Interface (BBCI) 2009 - Advances in Neurotechnology (2009).
Phase differences in local field potentials from macaque monkey area V4, predict attentional state in single trials with 99.6% accuracy. German-Japanese workshop 2009 (2009).
Phase differences in local field potentials from macaque monkey area V4 predict attentional state in single trials with 99.6% accuracy. 8th Goettingen Meeting of the German Neuroscience Society / 32nd Goettingen Neurobiology Conference T26-13A (2009).
2009_rotermund_goe.pdf (23.68 KB)

Phase differences in local field potentials from macaque monkey area V4 predict attentional state in single trials with 99.6% accuracy. 18th Annual Computational Neuroscience Meeting (CNS 2009) 10 (Suppl 1): P230, (2009).
2009_rotermund_bmc_A.pdf (135.56 KB)

Phase differences in local field potentials from macaque monkey area V4 predict attentional state in single trials with 99.6% accuracy. SfN International Neuroscience Meeting 2008 590.20 (2008).
2008_pawelzik_sfn.pdf (72.85 KB)

Attention improves object representation in monkey area V4. Goettingen Neurobiology Conference T32-1A (2007).
2007_rotermund_goe.pdf (10.13 KB)

Attention in monkey area V4 is modulated by task demand. SfN International Neuroscience Meeting 2007 176.1 (2007).
2007_rotermund_sfn.pdf (59.1 KB)

Attention improves object discriminability in monkey area V4. CNS - Computational Neuroscience Conference S2 (2006).
2006_rotermund_cns.pdf (249.37 KB)

FENS 2006 9915010554 (2006).
Attention improves object encoding in monkey area V4. SfN International Neuroscience Meeting 2005 591.6 (2005).