about
The effect of the visual characteristics of obstacles on risk of tripping and gait parameters during locomotionA high-density EEG study of differences between three high speeds of simulated forward motion from optic flow in adult participantsThe role of perceived speed in vection: does perceived speed modulate the jitter and oscillation advantages?The need for speed: global optic flow speed influences steeringHumans perceive object motion in world coordinates during obstacle avoidanceTreadmill experience alters treadmill effects on perceived visual motion.Visual control of trunk translation and orientation during locomotion.Fast visual prediction and slow optimization of preferred walking speed.Direct perception of action-scaled affordances: the shrinking gap problem.The direction of walking--but not throwing or kicking--is adapted by optic flow.Identifying stride-to-stride control strategies in human treadmill walking.The Effects of Restricted Peripheral Field-of-View on Spatial Learning while NavigatingMeasuring adaptation with a sinusoidal perturbation function.How do animals get about by vision? Visually controlled locomotion and orientation after 50 years.On-line and model-based approaches to the visual control of action.Reliability and relative weighting of visual and nonvisual information for perceiving direction of self-motion during walking.Kinematic variability, fractal dynamics and local dynamic stability of treadmill walking.A contribution of area 5 of the posterior parietal cortex to the planning of visually guided locomotion: limb-specific and limb-independent effects.Influence of optic flow on the control of heading and target egocentric direction during steering toward a goal.Evidence for the use of rotational optic flow cues for locomotor steering in healthy older adults.Motion cues tune social influence in shoaling fish.Modeling the Human Visuo-Motor System to Support Remote-Control Operation
P2860
Q23921408-0774BE61-43C9-4A03-9B42-90D29AD414D3Q27308701-843B0868-A22B-4DC9-8357-D57E8BAA6350Q27314621-AF158670-C813-4DE3-A17C-B3B5871CA870Q28601785-043A6E4E-D10D-4468-9B64-60BEBBE78AFFQ30451763-71CDCCDA-A0C4-462D-8301-8499FDA388F0Q31026106-13EA7159-AC52-4A5D-A0D2-DEEBBB5C1312Q33864585-05A36561-50C9-4B73-A7C0-E45DC150ED76Q34251355-448CCA41-34B0-4487-A987-35CCE64B3124Q35118703-2D90BE67-EF78-4602-AA34-8EA499AF286AQ35125274-99AF4245-124F-4B46-AC30-D6E6FFAE2E35Q35535721-D9EEBDA5-7841-4EDF-8E79-38E237B51278Q36167736-CD8F9C81-3B97-4CE2-B370-67C7C8360072Q36728948-A4A49846-8237-40EC-9475-6F069CD0E204Q37191110-0399F83B-7646-4CA2-865E-BADFA91A0807Q38278170-6A68DCCC-4885-48FF-8327-C129AC1FE433Q38550068-0AE38279-EB15-48AD-8455-D47FF44833DBQ41935421-7CEC9A77-32FF-4C54-B58F-6ABC76D006ADQ48375644-E3DA1BB8-CF63-4EE8-8D71-7A36E4915A1BQ50641061-276FCBC9-736C-4809-8DBD-E74354EBF9FAQ51864775-8C44F08A-A762-4946-A00C-A0686E6B88B6Q55427193-2AF9EFE4-E70B-43FE-987B-1F63EA1F4EF1Q58760985-479522CC-647F-445D-A7E2-198B9D6A75EF
P2860
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh
2007年學術文章
@zh-hant
name
Optic flow drives human visuo-locomotor adaptation.
@ast
Optic flow drives human visuo-locomotor adaptation.
@en
type
label
Optic flow drives human visuo-locomotor adaptation.
@ast
Optic flow drives human visuo-locomotor adaptation.
@en
prefLabel
Optic flow drives human visuo-locomotor adaptation.
@ast
Optic flow drives human visuo-locomotor adaptation.
@en
P2093
P2860
P1433
P1476
Optic flow drives human visuo-locomotor adaptation.
@en
P2093
Hugo Bruggeman
Wendy Zosh
William H Warren
P2860
P304
P356
10.1016/J.CUB.2007.10.059
P407
P577
2007-11-20T00:00:00Z