| scholarly article | Q13442814 |
| P2093 | author name string | Richard A Andersen | |
| Arnulf Ba Graf | |||
| P2860 | cites work | Movement intention is better predicted than attention in the posterior parietal cortex. | Q43916729 |
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| The 'Ideal Homunculus': decoding neural population signals. | Q48439740 | ||
| Signal Timing Across the Macaque Visual System | Q48440136 | ||
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| Vector reconstruction from firing rates | Q52375858 | ||
| Gene Selection for Cancer Classification using Support Vector Machines | Q56535529 | ||
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| Why does the brain predict sensory consequences of oculomotor commands? Optimal integration of the predicted and the actual sensory feedback | Q34657733 | ||
| Intentional maps in posterior parietal cortex | Q34674843 | ||
| Decoding the activity of neuronal populations in macaque primary visual cortex | Q34845046 | ||
| Inference and computation with population codes | Q35110713 | ||
| Neural population codes | Q35126770 | ||
| Dynamics of eye-position signals in the dorsal visual system. | Q35751299 | ||
| Simple models for reading neuronal population codes | Q36671081 | ||
| Forward estimation of movement state in posterior parietal cortex | Q36751402 | ||
| The Postsaccadic Unreliability of Gain Fields Renders It Unlikely that the Motor System Can Use Them to Calculate Target Position in Space | Q36905062 | ||
| Eye-position signals in the dorsal visual system are accurate and precise on short timescales. | Q37041587 | ||
| A model of multiplicative neural responses in parietal cortex | Q37276798 | ||
| Eye position effects on visual, memory, and saccade-related activity in areas LIP and 7a of macaque. | Q43445242 | ||
| P4510 | describes a project that uses | Bayes' theorem | Q182505 |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | e02813 | |
| P577 | publication date | 2014-05-20 | |
| P1433 | published in | eLife | Q2000008 |
| P1476 | title | Inferring eye position from populations of lateral intraparietal neurons | |
| P478 | volume | 3 |
| Q91578121 | A Stable Visual World in Primate Primary Visual Cortex |
| Q38576365 | Brain control and information transfer |
| Q34709109 | Brain-machine interface for eye movements |
| Q40033887 | Characteristics of Eye-Position Gain Field Populations Determine Geometry of Visual Space |
| Q38961409 | Circuits for presaccadic visual remapping |
| Q47139036 | Corollary Discharge and Oculomotor Proprioception: Cortical Mechanisms for Spatially Accurate Vision |
| Q40978529 | Decoding Target Distance and Saccade Amplitude from Population Activity in the Macaque Lateral Intraparietal Area (LIP). |
| Q33676978 | Looking into the future. |
| Q36957971 | Neural Network Evidence for the Coupling of Presaccadic Visual Remapping to Predictive Eye Position Updating. |
| Q35245664 | Predicting oculomotor behaviour from correlated populations of posterior parietal neurons |
| Q91161206 | Spatial coordinate transforms linking the allocentric hippocampal and egocentric parietal primate brain systems for memory, action in space, and navigation |
| Q36610456 | The Dorsal Visual System Predicts Future and Remembers Past Eye Position |
| Q26849428 | Toward more versatile and intuitive cortical brain-machine interfaces |
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