A back-propagation programmed network that simulates response properties of a subset of posterior parietal neurons.
about
Context-dependent selection of visuomotor mapsA moving observer in a three-dimensional worldLarge-scale automated histology in the pursuit of connectomesThe vision of Hsiao on somatosensationEye Velocity Gain Fields in MSTd During Optokinetic StimulationSpaces in the Brain: From Neurons to MeaningsA face feature space in the macaque temporal lobe.Spatial transformations for eye-hand coordinationNeuronal mechanisms of visual stabilityRemembering the past and imagining the future: a neural model of spatial memory and imageryToward an Integration of Deep Learning and NeuroscienceLocation-dependent excitatory synaptic interactions in pyramidal neuron dendritesThe Role of Architectural and Learning Constraints in Neural Network Models: A Case Study on Visual Space Coding.Spatiotopic coding of BOLD signal in human visual cortex depends on spatial attentionIdiosyncratic and systematic aspects of spatial representations in the macaque parietal cortex.Coding of the reach vector in parietal area 5d.Higher level visual cortex represents retinotopic, not spatiotopic, object locationIntegration of visual motion and locomotion in mouse visual cortex.A self-organizing model of the visual development of hand-centred representationsSpatial modulation of primate inferotemporal responses by eye position.Structure learning in a sensorimotor association taskModulation of visual signals in macaque MT and MST neurons during pursuit eye movementSingle units and visual cortical organization.Using a compound gain field to compute a reach planInferring eye position from populations of lateral intraparietal neurons.The contributions of vestibular signals to the representations of space in the posterior parietal cortex.Looking into the future.Spatiotopic coding and remapping in humans.Active data collection for efficient estimation and comparison of nonlinear neural models.Computational subunits of visual cortical neurons revealed by artificial neural networks.Attentional facilitation throughout human visual cortex lingers in retinotopic coordinates after eye movements.Comparison of gain-like properties of eye position signals in inferior colliculus versus auditory cortex of primates.Binding by asynchrony: the neuronal phase code.A computational perspective on the neural basis of multisensory spatial representations.Proprioception from a spinocerebellar perspective.Generalization in interactive networks: the benefits of inhibitory competition and Hebbian learning.Simulating the cortical 3D visuomotor transformation of reach depthControl of the gain of visual-motor transmission occurs in visual coordinates for smooth pursuit eye movements.Sensory-spatial transformations in the left posterior parietal cortex may contribute to reach timingGravity influences the visual representation of object tilt in parietal cortex.
P2860
Q24792908-5830145A-8771-4319-8C14-23CC5A4A7289Q26748549-338AE369-2E8E-404B-9A5E-85A370C41342Q26828928-8106E6BE-1906-4C16-81B7-B7213BCC6BB6Q26852640-F6512A58-B015-4DE9-BA27-AC03CAA7625EQ27303010-F6DDF947-BD44-4847-B0B7-70619E116B57Q28067426-EB0BF07F-2DD1-431D-914C-C5E269B9A503Q28254398-3C89DC82-46D8-4157-B73F-34A03DD69BF2Q28268206-9C9FD601-F39D-49FA-99EF-F4D9B9B526D9Q28282153-A1387AF5-924D-43F5-82D6-617865437B9DQ28302192-699649D5-7606-49CD-8389-42F3A303EA9BQ28595812-8AC1E0C1-A8AE-43D8-8430-4E4827F09228Q28729040-DA8023AC-08C1-4939-BF02-42B45C2BEC62Q30359506-3EB66A38-C12E-4260-8D4F-189B60A0DBC5Q30474848-92F2AAA7-FD65-4E1C-AF68-456CC4195223Q30494458-676ECDD3-31F4-4587-B89A-1137CC745094Q30523787-1CC9DB1D-C88D-402D-993D-172B2FCF9D00Q30528055-B83E3FC0-5280-461C-A2C1-4E7D1E050450Q30572064-9F4E1DBA-FB45-425E-857D-0D347AA56CFEQ31120835-4AECB4EA-55A4-42D2-A022-A6FCA579E582Q33378903-51163402-6B05-4CFB-82A1-14A5E05A6E9EQ33528990-E5FE7362-BDAA-4D89-A6D8-B1B5FA105FB3Q33582363-3415D28B-8339-432C-97D3-7B536B2C18C5Q33597598-5A67CCD1-F0BA-458E-8996-4EAD99DC9E03Q33612616-489D08E0-C33B-404A-9B29-4A1B7FD8E848Q33613740-64C3B007-6858-4E33-B848-F73C12E91411Q33661724-3CF9B71E-9F56-486D-80E2-FBD487E5DEE4Q33676978-4E92C13F-7266-4D29-89A5-D078856F9878Q33795528-B783D183-AE5A-4ADE-BB8F-6EF1ED4F78ACQ33932015-F93BB520-F190-429C-8BC6-83C858D1EBE5Q34066460-90EB33FA-84C9-4B70-B005-57D01F7EE00CQ34077490-EF52EC04-54DC-479D-BA38-FC14060B1151Q34116917-DB92C2B1-40F6-4254-9809-A96717A81ED1Q34132109-EF58C1B6-42D3-41D2-B52A-5F63009D84CDQ34147442-73C87159-D6EA-44EB-9D8A-9DC44170C527Q34198546-8B89431E-A2E4-4A3D-8839-66BE8F844654Q34270227-D2AA3001-B8DB-42F7-90CF-25EBA336C7CBQ34345884-5B697EE7-B5A6-45EE-8CBC-FFB229FAAEC1Q34347552-454DB15F-E726-4D76-9D72-D1DAA0747494Q34379580-767BC2C1-2505-4661-B843-7AE8A36E265BQ34383381-24290CFF-FE9A-4FA0-A341-045E353E0CC7
P2860
A back-propagation programmed network that simulates response properties of a subset of posterior parietal neurons.
description
1988 nî lūn-bûn
@nan
1988年の論文
@ja
1988年学术文章
@wuu
1988年学术文章
@zh
1988年学术文章
@zh-cn
1988年学术文章
@zh-hans
1988年学术文章
@zh-my
1988年学术文章
@zh-sg
1988年學術文章
@yue
1988年學術文章
@zh-hant
name
A back-propagation programmed ...... of posterior parietal neurons.
@en
A back-propagation programmed ...... of posterior parietal neurons.
@nl
type
label
A back-propagation programmed ...... of posterior parietal neurons.
@en
A back-propagation programmed ...... of posterior parietal neurons.
@nl
prefLabel
A back-propagation programmed ...... of posterior parietal neurons.
@en
A back-propagation programmed ...... of posterior parietal neurons.
@nl
P356
P1433
P1476
A back-propagation programmed ...... of posterior parietal neurons.
@en
P2093
P2888
P304
P356
10.1038/331679A0
P407
P577
1988-02-01T00:00:00Z
P5875
P6179
1019670448