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  1. Conscious Vision for Action Versus Unconscious Vision for Action?Berit Brogaard - 2011 - Cognitive Science 35 (6):1076-1104.
    David Milner and Melvyn Goodale’s dissociation hypothesis is commonly taken to state that there are two functionally specialized cortical streams of visual processing originating in striate (V1) cortex: a dorsal, action-related “unconscious” stream and a ventral, perception-related “conscious” stream. As Milner and Goodale acknowledge, findings from blindsight studies suggest a more sophisticated picture that replaces the distinction between unconscious vision for action and conscious vision for perception with a tripartite division between unconscious vision for action, conscious vision for perception, and (...)
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  • Using brain stimulation to disentangle neural correlates of conscious vision.Tom A. de Graaf & Alexander T. Sack - 2014 - Frontiers in Psychology 5:105252.
    Research into the neural correlates of consciousness (NCCs) has blossomed, due to the advent of new and increasingly sophisticated brain research tools. Neuroimaging has uncovered a variety of brain processes that relate to conscious perception, obtained in a range of experimental paradigms. But methods such as functional magnetic resonance imaging or electroencephalography do not always afford inference on the functional role these brain processes play in conscious vision. Such empirical NCCs could reflect neural prerequisites, neural consequences, or neural substrates of (...)
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  • Bandpass characteristics of high-frequency sensitivity and visual experience in blindsight.Doerthe Seifert, Christine Falter, Hans Strasburger & Mark A. Elliott - 2010 - Consciousness and Cognition 19 (1):144-151.
    Patient RP suffers a unilateral right homonymous quadrant anopia but demonstrates better than chance discrimination for stimuli presented in the blind field at temporal frequencies between 33 and 47 Hz . Examination of her reports of visual experience during blind-field discrimination suggests a more complex picture in which experiences particular to correct discrimination are not found at low-mid-gamma frequencies, but are significantly more likely than average at a lower frequency at which blindsight is not observed. We believe that visual experience (...)
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