Perceptual scale expansion: an efficient angular coding strategy for locomotor space. - Wikidata - awgldk - TriplyDB

Perceptual scale expansion: an efficient angular coding strategy for locomotor space.

Perceptual scale expansion: an efficient angular coding strategy for locomotor space.

http://www.wikidata.org/entity/Q35161723

about

Sugar and space? Not the case: Effects of low blood glucose on slant estimation are mediated by beliefs.Expert performance by athletes in the verbal estimation of spatial extents does not alter their perceptual metric of space.A comparison of two theories of perceived distance on the ground plane: The angular expansion hypothesis and the intrinsic bias hypothesis.The visual system's intrinsic bias and knowledge of size mediate perceived size and location in the dark Anchoring in action: manual estimates of slant are powerfully biased toward initial hand orientation and are correlated with verbal report Why women see differently from the way men see? A review of sex differences in cognition and sports.Systematic biases in human heading estimation Angular scale expansion theory and the misperception of egocentric distance in locomotor space.Perceived slant of binocularly viewed large-scale surfaces: a common model from explicit and implicit measures.The perception of 2D orientation is categorically biased The underestimation of egocentric distance: evidence from frontal matching tasks.Direct manipulation of perceived angular declination affects perceived size and distance: a replication and extension of Wallach and O'Leary (1982).Manual matching of perceived surface orientation is affected by arm posture: evidence of calibration between proprioception and visual experience in near space The social psychology of perception experiments: hills, backpacks, glucose, and the problem of generalizability Perceived azimuth direction is exaggerated: Converging evidence from explicit and implicit measures.Large perceptual distortions of locomotor action space occur in ground-based coordinates: Angular expansion and the large-scale horizontal-vertical illusion On the anisotropy of perceived ground extents and the interpretation of walked distance as a measure of perception.Aging and the perception of egocentric distance.Depth compression based on mis-scaling of binocular disparity may contribute to angular expansion in perceived optical slant.Do Individual Differences and Aging Effects in the Estimation of Geographical Slant Reflect Cognitive or Perceptual Effects?What do hands know about hills? Interpreting Taylor-Covill and Eves (2013) in context.Humans have precise knowledge of familiar geographical slants Gaze behavior and the perception of egocentric distance.Free hand proprioception is well calibrated to verbal estimates of slanted surfaces.Distance perception in an open water environment: Analysis of individual differences.Palm board and verbal estimates of slant reflect the same perceptual representation.Pitching people with an inversion table: Estimates of body orientation are tipped as much as those of visual surfaces.Manual anchoring biases in slant estimation affect matches even for near surfaces.Visual space perception at different levels of depth description.Gaze direction and the extraction of egocentric distance.Angular declination and the dynamic perception of egocentric distance.Perceptual experience as a bridge between the retina and a bicoded cognitive map.Walking through a virtual environment improves perceived size within and beyond the walked space.Using a generalized linear mixed model approach to explore the role of age, motor proficiency, and cognitive styles in children's reach estimation accuracy.Counterpoint.A large-scale horizontal-vertical illusion produced with small objects separated in depth.Slope estimation and viewing distance of the observer.Remote haptic perception of slanted surfaces shows the same scale expansion as visual perception.Rolling Motion Along an Incline: Visual Sensitivity to the Relation Between Acceleration and Slope.Do Explicit Estimates of Angular Declination Become Ungrounded in the Presence of a Ground Plane?

P2860

Q30418676-CE7253AF-7A6E-41F2-A4EC-3831EC47B048 Q30425888-1B7572B3-9439-4A2E-BB4B-F1CFBE4FBAF5 Q30426049-DFFA173F-354C-4616-9820-0FA3F0C1F5CF Q30427139-12F238D4-0F7E-4538-9E75-D080915DDECD Q34445404-17DD51AB-E604-4420-9EFB-24249F5D6644 Q34454566-12CFE322-89C4-4D57-9DC0-DCB4E54DA6E3 Q34607165-8F856DAA-A037-4306-8322-1A700A7B3690 Q34980022-F7C92505-A8D4-4F83-BAB2-257418556693 Q35165461-797FA64B-628E-47B3-A63D-C8014E4B64F2 Q35173391-E26DDE3D-F066-4719-950D-550B290C166C Q35488959-A9C0793B-6354-4AB9-8DB1-1B5130D17FB2 Q35558353-2C826B14-8927-4C34-90AC-2565877B88BB Q35737686-CE602B99-AE94-400D-A748-5701A74FCE73 Q36243687-F58675C7-D499-4B06-85C1-08D401135E8B Q36551354-BA63F29B-A4B2-4576-B9F6-065814DDDA3A Q36689713-411813A2-E9DE-4A31-8205-827E6DBDB27A Q36691653-24179781-CCCD-4149-B4CF-060503264BF6 Q37185218-C7E157F2-2C66-4CC3-AB1F-F8CC92932B74 Q37219004-0F47D5F6-095D-4676-9B2B-585F2A1D03F8 Q37271938-68942966-F2C8-4C82-BB71-9A386C77BADF Q37409868-2410AEE2-6455-460A-9B15-7E0C994525F5 Q37458650-99F18E9A-AF82-4143-9870-9B200CB4FFE5 Q37509545-B3DDF259-417B-45A5-B5BB-9A7B96ED9944 Q39117191-2C42C2E3-8852-4972-ADB5-E79F9266CF4B Q40160179-D0979B96-55A5-4F52-8257-D3B31BDDCC5D Q40279505-35F4CECC-1572-4A0D-B0D3-595669995214 Q40336423-3D8E1661-8430-4B0A-9845-3387BA291005 Q40561278-A922EB90-9AE8-48A9-95EE-423302AF4AAA Q40972821-7F666095-A735-4B4B-B3DF-78E04BED9608 Q42822323-8E9672B0-86E3-4825-BB4A-E0AAA8128479 Q42828758-7A5D6882-F6F5-4773-80A5-88C848C8CE52 Q43498537-8669C96B-63AD-434C-BD01-BEA849DF23F2 Q47253393-66E02421-675C-47AB-AAC4-6AF74C9640A6 Q47606441-E164F8B2-B26E-4F2B-9327-902775A6B087 Q47939251-696AE729-D773-4D5E-A1C5-AD2D434B1454 Q48226004-BF57D69C-8873-4380-BBEC-6BB0029D86DF Q51079458-F10EE56B-2E6E-4F28-96D7-CBBE1859CB9D Q53666884-055A5A26-559F-44AA-9AE4-520F16E09D98 Q55514843-A5C0D1CC-A512-4203-8FC4-228F131827DB Q58597744-D8A6368C-C42B-4F5C-85E3-FBE85C5D5A7C

P2860

Perceptual scale expansion: an efficient angular coding strategy for locomotor space.

http://www.wikidata.org/entity/Q35161723

description

2011 nî lūn-bûn

@nan

2011 թուականի Օգոստոսին հրատարակուած գիտական յօդուած

@hyw

2011 թվականի օգոստոսին հրատարակված գիտական հոդված

@hy

2011年の論文

@ja

2011年論文

@yue

2011年論文

@zh-hant

2011年論文

@zh-hk

2011年論文

@zh-mo

2011年論文

@zh-tw

2011年论文

@wuu

name

Perceptual scale expansion: an efficient angular coding strategy for locomotor space.

@ast

Perceptual scale expansion: an efficient angular coding strategy for locomotor space.

@en

type

label

Perceptual scale expansion: an efficient angular coding strategy for locomotor space.

@ast

Perceptual scale expansion: an efficient angular coding strategy for locomotor space.

@en

prefLabel

Perceptual scale expansion: an efficient angular coding strategy for locomotor space.

@ast

Perceptual scale expansion: an efficient angular coding strategy for locomotor space.

@en

P1433

Q35161723-2A23AF4E-D0E8-42AD-9CE2-4B5773011BC1

P1476

Q35161723-04E501C1-1718-46B4-9C15-9592367FEB2F

P2093

Q35161723-1615F827-47D0-4618-81A1-35DED85CD8DD

Q35161723-381ED8A0-D11A-4D42-A8B7-F301C7D6AF4F

P2860

Q35161723-04EDE9B5-A4EA-447E-8901-5D0034F215A1

Q35161723-0FC81DA3-8FC1-475A-AE50-5F0C2064885B

Q35161723-12718D92-BF42-4767-9C5E-77EFF75CDB81

Q35161723-183ED726-3C35-4C70-9D89-3EEA72AB02E8

Q35161723-19972D96-1DEA-45C4-BBC2-16728C325D36

Q35161723-2719D4DA-E11C-4C59-B640-32AFE5DD6581

Q35161723-278A212E-93A6-48B5-9DB2-23FC5119FC10

Q35161723-2942A7A8-3A07-48A8-82F1-5631194834F4

Q35161723-2BEC5F16-365C-4215-A3D0-4EACFACCCA80

Q35161723-37476927-6410-4FC9-8C37-077AE138D153

P2888

Q35161723-F534F6B3-2E94-47C4-BE9F-E5279A3A4800

P304

Q35161723-CF079809-465D-4448-A429-93497193F494

P31

Q35161723-C466E4F1-ECF6-4B3B-BC13-4F4B87F15481

P356

Q35161723-BC541015-71AD-488F-8C2A-9616F9F234F3

P433

Q35161723-2761D7DC-ACB6-4C2D-9164-3A0B98876088

P478

Q35161723-EBCE647A-D55D-47D6-9C3F-EFCECF97263F

P577

Q35161723-988658B5-FEAC-4B3B-B2F7-4856D094CB78

P5875

Q35161723-4A42151F-89AA-451F-84D9-CCB678BABAAB

P6179

Q35161723-D788DB9A-A95D-44B4-8CD9-84F3CDE33BF1

P698

Q35161723-F9227317-C4AF-402F-9D0E-DDEBDE30B27E

P932

Q35161723-28F87629-FECD-41CF-9FC0-83916B8FBFFC

P356

S13414-011-0143-5

P1433

Attention, Perception and Psychophysics

P1476

Perceptual scale expansion: an efficient angular coding strategy for locomotor space.

@en

P2093

Frank H Durgin

http://www.w3.org/2001/XMLSchema#string

Zhi Li

http://www.w3.org/2001/XMLSchema#string

P2860

The Magical Number Seven, Plus or Minus Two

Natural-scene geometry predicts the perception of angles and line orientation

Perceiving geographical slant.

Design, data, and theory regarding a digital hand inclinometer: a portable device for studying slant perception.

The representation of perceived angular size in human primary visual cortex.

Perceived slant of binocularly viewed large-scale surfaces: a common model from explicit and implicit measures.

The underestimation of egocentric distance: evidence from frontal matching tasks.

Widespread access to predictive models in the motor system: a short review.

Controlled interaction: strategies for using virtual reality to study perception.

Anisotropic perception of visual angle: implications for the horizontal-vertical illusion, overconstancy of size, and the moon illusion.

P2888

s13414-011-0143-5

P304

1856-1870

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.3758/S13414-011-0143-5

http://www.w3.org/2001/XMLSchema#string

P433

6

http://www.w3.org/2001/XMLSchema#string

P478

73

http://www.w3.org/2001/XMLSchema#string

P577

2011-08-01T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

51148686

http://www.w3.org/2001/XMLSchema#string

P6179

1013862974

http://www.w3.org/2001/XMLSchema#string

P698

21594732

http://www.w3.org/2001/XMLSchema#string

P932

3155211

http://www.w3.org/2001/XMLSchema#string