21 Papers
148 Citations
Lin Chen is an academic researcher from University of Science and Technology of China. The author has contributed to research in topics: Independent component analysis & Visual spatial attention. The author has an hindex of 11, co-authored 21 publications. Previous affiliations of Lin Chen include University of Electronic Science and Technology of China & Academia Sinica.
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Papers
The attentional effects of peripheral cueing as revealed by two event-related potential studies
TL;DR: The results indicate that involuntary allocation of attention involves different mechanisms from voluntary allocation of Attention, and shows that spatial attention affects stimulus processing at early sensory/perceptual stages.
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Analysis of fMRI Data by Blind Separation of Data in a Tiny Spatial Domain into Independent Temporal Component
TL;DR: Simulations showed that the new temporal ICA method is more effective than the spatial ICA in detecting weak signal in a fMRI dataset and that the excited areas evoked by a visual stimuli are mainly in the region of the primary visual cortex.
71
Altered Hippocampo-Cerebello-Cortical Circuit in Schizophrenia by a Spatiotemporal Consistency and Causal Connectivity Analysis.
Xi Chen,Yuchao Jiang,Lin Chen,Hui He,Li Dong,Changyue Hou,Mingjun Duan,Mi Yang,Dezhong Yao,Cheng Luo +9 more
TL;DR: Findings suggested that hippocampo–cerebello-cortical (occipital) circuit might play a role in the motor dysfunction in schizophrenia, and should be paid more attention in future.
Memory traces for tonal language words revealed by auditory event-related potentials.
TL;DR: This study presents native Mandarin Chinese speakers with a sequence of spoken syllables as standards and disyllables as deviants in a passive oddball paradigm and indicates an activation of memory traces for tonal language words.
26
Attention-sensitive visual event-related potentials elicited by kinetic forms.
TL;DR: The main findings were that spatial attention enhanced the amplitude of early ERP components 1 and N1 as well as the late component N2 and an origin in the right occipitotemporal cortex of the dN2 wave was suggested.
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