Contains fulltext : 99586.pdf (publisher's version ) (Closed access)Parietal and frontal cortical areas play important roles in the control of goal-oriented behaviour. This review examines how signal processing in the parietal and frontal eye fields is involved in coding and storing space, directing attention and processing the sensorimotor transformation for saccades. After a survey of the functional specialization of these areas in monkeys, we discuss homologous regions in the human brain in terms of topographic organization, storage capacity, target selection, spatial remapping, reference frame transformations and effector specificity. The overall picture suggests that bottom-up sensory, top-down cognitive signals and e...
Two parietofrontal networks share the control of goal-directed movements: a dorsomedial circuit that...
Areas in frontoparietal cortex have been shown to be active in a range of cognitive tasks and have b...
SummaryThe posterior parietal cortex plays a central role in spatial functions, such as spatial atte...
Parietal and frontal cortical areas play important roles in the control of goal-oriented behaviour. ...
Contains fulltext : 55157.pdf (Publisher’s version ) (Closed access)It is known th...
International audienceAlthough we are confronted with an ever-changing environment, we do not have t...
Contains fulltext : 77371.pdf (publisher's version ) (Closed access)It is generall...
We represent behaviorally relevant information in different spatial reference frames in order to int...
The dorsal convexity of the human frontal and parietal lobes forms a network that is crucially invol...
Spatial attention bears a remarkable resemblance to saccadic eye movements from both a behavioural a...
Functional anatomical studies indicate that a set of neural signals in parietal and frontal cortex m...
The statistical structure of intrinsic parietal and parieto-frontal connectivity in monkeys was stud...
The parietal cortex consists of several prominent anatomical regions in the posterior part of the hu...
Neuropsychological studies of patients with lesions of right frontal (premotor) or posterior parieta...
Our present understanding of the neural mechanisms and sensorimotor transformations that govern the ...
Two parietofrontal networks share the control of goal-directed movements: a dorsomedial circuit that...
Areas in frontoparietal cortex have been shown to be active in a range of cognitive tasks and have b...
SummaryThe posterior parietal cortex plays a central role in spatial functions, such as spatial atte...
Parietal and frontal cortical areas play important roles in the control of goal-oriented behaviour. ...
Contains fulltext : 55157.pdf (Publisher’s version ) (Closed access)It is known th...
International audienceAlthough we are confronted with an ever-changing environment, we do not have t...
Contains fulltext : 77371.pdf (publisher's version ) (Closed access)It is generall...
We represent behaviorally relevant information in different spatial reference frames in order to int...
The dorsal convexity of the human frontal and parietal lobes forms a network that is crucially invol...
Spatial attention bears a remarkable resemblance to saccadic eye movements from both a behavioural a...
Functional anatomical studies indicate that a set of neural signals in parietal and frontal cortex m...
The statistical structure of intrinsic parietal and parieto-frontal connectivity in monkeys was stud...
The parietal cortex consists of several prominent anatomical regions in the posterior part of the hu...
Neuropsychological studies of patients with lesions of right frontal (premotor) or posterior parieta...
Our present understanding of the neural mechanisms and sensorimotor transformations that govern the ...
Two parietofrontal networks share the control of goal-directed movements: a dorsomedial circuit that...
Areas in frontoparietal cortex have been shown to be active in a range of cognitive tasks and have b...
SummaryThe posterior parietal cortex plays a central role in spatial functions, such as spatial atte...