It has been proposed that we make sense of the movements of others by observing fluctuations in the kinematic properties of their actions. At the neural level, activity in the human motion complex (hMT+) and posterior superior temporal sulcus (pSTS) has been implicated in this relationship. However, previous neuroimaging studies have largely utilized brief, diminished stimuli, and the role of relevant kinematic parameters for the processing of human action remains unclear. We addressed this issue by showing extended-duration natural displays of an actor engaged in two common activities, to 12 participants in an fMRI study under passive viewing conditions. Our region-of-interest analysis focused on three neural areas (hMT+, pSTS, and fusifor...
While moving objects are usually seen using luminance (first-order) cues, humans can perceive the mo...
The cerebellum is thought to be engaged not only in motor control, but also in the neural network de...
Passive viewing of biological motion engages extensive regions of the posterior temporal-occipital c...
The cortex surrounding the posterior superior temporal sulcus of humans and monkeys is known to be a...
Face, hands and body movements are powerful signals essential for social interactions. In the last t...
Activation of premotor and temporoparietal cortex occurs when we observe others movements, particula...
& These experiments use functional magnetic resonance imaging (fMRI) to reveal neural activity u...
AbstractWe used functional magnetic resonance imaging (fMRI) to investigate brain regions involved i...
Face, hands, and body movements are powerful signals essential for social interactions. In the last ...
The superior temporal sulcus (STS) and surrounding lateral temporal and inferior parietal cortices a...
Motor information conveyed by viewing the kinematics of an agent's action helps to predict how the a...
r r Abstract: Face, hands, and body movements are powerful signals essential for social interactions...
r r Abstract: Face, hands, and body movements are powerful signals essential for social interactions...
The specific contents of human consciousness rely on the activity of specialized neurons in cerebral...
In human lateral temporal cortex, some regions show specific sensitivity to humanmotion. Here we exa...
While moving objects are usually seen using luminance (first-order) cues, humans can perceive the mo...
The cerebellum is thought to be engaged not only in motor control, but also in the neural network de...
Passive viewing of biological motion engages extensive regions of the posterior temporal-occipital c...
The cortex surrounding the posterior superior temporal sulcus of humans and monkeys is known to be a...
Face, hands and body movements are powerful signals essential for social interactions. In the last t...
Activation of premotor and temporoparietal cortex occurs when we observe others movements, particula...
& These experiments use functional magnetic resonance imaging (fMRI) to reveal neural activity u...
AbstractWe used functional magnetic resonance imaging (fMRI) to investigate brain regions involved i...
Face, hands, and body movements are powerful signals essential for social interactions. In the last ...
The superior temporal sulcus (STS) and surrounding lateral temporal and inferior parietal cortices a...
Motor information conveyed by viewing the kinematics of an agent's action helps to predict how the a...
r r Abstract: Face, hands, and body movements are powerful signals essential for social interactions...
r r Abstract: Face, hands, and body movements are powerful signals essential for social interactions...
The specific contents of human consciousness rely on the activity of specialized neurons in cerebral...
In human lateral temporal cortex, some regions show specific sensitivity to humanmotion. Here we exa...
While moving objects are usually seen using luminance (first-order) cues, humans can perceive the mo...
The cerebellum is thought to be engaged not only in motor control, but also in the neural network de...
Passive viewing of biological motion engages extensive regions of the posterior temporal-occipital c...