about
Understanding the parietal lobe syndrome from a neurophysiological and evolutionary perspectiveDorsal premotor neurons encode the relative position of the hand, eye, and goal during reach planningAn Eye in the Palm of Your Hand: Alterations in Visual Processing Near the Hand, a Mini-ReviewCongruency of gaze metrics in action, imagery and action observationToward more versatile and intuitive cortical brain-machine interfacesTop-down influences on visual processingSpaces in the Brain: From Neurons to MeaningsSpatial transformations for eye-hand coordinationNeuronal mechanisms of visual stabilityA Neural Code That Is Isometric to Vocal Output and Correlates with Its Sensory ConsequencesInactivation of the Parietal Reach Region Causes Optic Ataxia, Impairing Reaches but Not SaccadesEffector-based attention systemsRelative contributions of visual and auditory spatial representations to tactile localization.The marmoset monkey as a model for visual neuroscience.Modulation of neural activity by reward in medial intraparietal cortex is sensitive to temporal sequence of reward.Visual experience determines the use of external reference frames in joint action control.Adaptation of sound localization induced by rotated visual feedback in reaching movements.Multisensory guidance of orienting behavior.Motor-related signals in the intraparietal cortex encode locations in a hybrid, rather than eye-centered reference frame.Evidence for multisensory spatial-to-motor transformations in aiming movements of children.The posterior parietal cortex encodes in parallel both goals for double-reach sequences.Idiosyncratic and systematic aspects of spatial representations in the macaque parietal cortex.Heterogeneous representations in the superior parietal lobule are common across reaches to visual and proprioceptive targetsGaze fixation improves the stability of expert jugglingOnly coherent spiking in posterior parietal cortex coordinates looking and reachingCoding of the reach vector in parietal area 5d.Cognitive signals for brain-machine interfaces in posterior parietal cortex include continuous 3D trajectory commands.A learning-based approach to artificial sensory feedback leads to optimal integration.An automatic experimental apparatus to study arm reaching in New World monkeysHow position, velocity, and temporal information combine in the prospective control of catching: data and model.The role of the caudal superior parietal lobule in updating hand location in peripheral vision: further evidence from optic ataxia.A self-organizing model of the visual development of hand-centred representationsNeuronal mechanisms for visual stability: progress and problems.Using a compound gain field to compute a reach planBrain circuits for the internal monitoring of movements.The Intersection between Ocular and Manual Motor Control: Eye-Hand Coordination in Acquired Brain InjuryCognitive neural prostheticsNeurophysiology of prehension. I. Posterior parietal cortex and object-oriented hand behaviors.A relative position code for saccades in dorsal premotor cortexThe superior colliculus encodes gaze commands in retinal coordinates.
P2860
Q24616402-D2025AD5-4921-4D83-A336-C454A7BDC5E1Q24630593-29CE5C82-2D28-419A-AF0E-7FCC854B0F0BQ26752691-D7644000-80FB-4AC2-B455-DAE6AF9D7CAFQ26828530-83530F21-CD46-4AE9-935B-F16D8795BD87Q26849428-F398334E-4543-487B-A12E-592CDC925C9CQ27004514-CC1F9209-B249-4944-8B2A-342073A58081Q28067426-79625E71-C35C-4DCC-AE5C-F0B84BCE4CCDQ28268206-ECBF2DBC-84CB-4342-8A38-66F6A7E9871CQ28282153-17E1598D-6C81-43F6-A463-55C3583DA427Q28597792-96696475-2D62-4047-9CB5-D64271F8882EQ30054165-27A2A0F2-BDE8-4533-8B31-D8C09941CC11Q30093882-2509508E-3F62-4249-8A3C-F7B01674BACFQ30364684-2268CF8F-E119-4066-86A1-EFE4974BDC08Q30387337-65B1145A-3344-45F9-B0F6-499D402B22E1Q30402001-940A2A10-75CE-4290-90CB-8C2C331D1D1EQ30456026-EB296499-8735-4B0A-8113-0C1285930A14Q30473396-E6525603-4BA3-451A-8A1E-46823CC58339Q30478384-37048EAE-2543-46D9-B5B0-A2DABBAE580DQ30480160-E911BD74-8026-4122-A5F8-C3483FA19F9DQ30484366-EC991FAD-180E-48AF-86A0-A00621CABDA2Q30490210-16595BD9-6AF4-469F-B950-57F0551D510FQ30494458-4BB10143-76F0-403E-867C-4831B3E34286Q30500401-1E184825-0B4C-4A7A-A785-6811F50E751CQ30504545-559CFBC3-DDE7-4EA8-8DB7-F30625C893AEQ30512374-57E6EB28-0D41-42CC-9FF5-25261C6320B1Q30523787-AEFF8526-ED01-43FB-A186-E106061CE096Q30525847-D153378A-868F-4D2C-9717-95ADED805E4BQ30612550-8D2A5FBB-C28E-447A-B407-6435AB7C0489Q30746135-18F4763E-C3A7-4CD6-9747-445518F74D3EQ30987096-C00C940A-982B-4A2D-92FB-D280B2CBA1FBQ31105203-021ACB34-AF32-4391-8DF6-E3B153DB5080Q31120835-13944A19-5FD8-4D34-8072-54EC92AC00E9Q33350482-0256E66F-F5AF-4542-B4AF-515F7409B2FBQ33612616-716B9B27-7026-443E-98A2-EE99B36A3704Q33619869-C6067AAB-F04F-47CE-9BF3-AB51B8157E1FQ33747390-7429BCA8-4FE0-4DCA-9E0C-CA2E7F29E484Q33770552-78ADB609-A918-4C14-B4EF-BC2E9CDDC8C0Q33844830-0D1B6498-D253-47C7-A759-9DA5CD88D728Q33919610-E4F01511-4A87-4C14-A8C2-CE7D3EB3338DQ33947887-D5344F40-59AA-4C09-B0AC-0C0B0B09DF9F
P2860
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
Reach plans in eye-centered coordinates.
@en
type
label
Reach plans in eye-centered coordinates.
@en
prefLabel
Reach plans in eye-centered coordinates.
@en
P2093
P1433
P1476
Reach plans in eye-centered coordinates.
@en
P2093
P304
P356
10.1126/SCIENCE.285.5425.257
P407
P577
1999-07-01T00:00:00Z