Interrelations between the perception of time and space in large-scale environments
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- 作者:Martin Riemer (1)
Rupert H?lzl (1) (2)
Dieter Kleinb?hl (1) - 关键词:Time perception ; Space perception ; Distance perception ; Path integration
- 刊名:Experimental Brain Research
- 出版年:2014
- 出版时间:April 2014
- 年:2014
- 卷:232
- 期:4
- 页码:1317-1325
- 全文大小:330 KB
- 参考文献:1. Abe S (1935) Experimental study on the correlation between time and space. Tohoku Psychologika Folia 3:53-8
2. Aristotle (350BC/2012) Physics IV, 12. eBooks@Adelaide, Adelaide
3. Benussi V (1913) Versuche zur Analyse taktil erweckter Scheinbewegungen. Archiv für die gesamte Psychologie 36:59-35
4. Bergson H (1888) Sur les données immédiates de la conscience. Presses Universitaires de France, Paris [Time and free will?(transl. Pogson FL). George Allen and Unwin (1910), London]
5. Bill JC, Teft LW (1969) Space-time relations: effects of time on perceived visual extent. J Exp Psychol 81:196-99 CrossRef
6. Bill JC, Teft LW (1972) Space–time relations: the effects of variations in stimulus and interstimulus interval duration on perceived visual extent. Acta Psychol (Amst) 36:358-69 CrossRef
7. Bueti D, Walsh V (2009) The parietal cortex and the representation of time, space, number and other magnitudes. Philos Trans R Soc Lond B Biol Sci 364:1831-840 CrossRef
8. Campos JL, Butler JS, Bulthoff HH (2012) Multisensory integration in the estimation of walked distances. Exp Brain Res 218:551-65 CrossRef
9. Casasanto D, Boroditsky L (2008) Time in the mind: using space to think about time. Cognition 106:579-93 CrossRef
10. Cohen J, Hansel CE, Sylvester JD (1953) A new phenomenon in time judgment. Nature 172:901 CrossRef
11. Cohen J, Cooper P, Ono A (1963) The hare and the tortoise: a study of the tau-effect in walking and running. Acta Psychol 21:387-93 CrossRef
12. Cohen R, Baldwin L, Sherman RC (1978) Cognitive maps of naturalistic setting. Child Dev 49:1216-218 CrossRef
13. Corlett JT, Byblow W, Taylor B (1990) The effect of perceived locomotor constraints on distance estimation. J Mot Behav 22:347-60 CrossRef
14. Dunne JW (1927) An experiment with time. A.&C. Black, London
15. Durgin FH, Akagi M, Gallistel CR, Haiken W (2009a) The precision of locomotor odometry in humans. Exp Brain Res 193:429-36 CrossRef
16. Durgin FH, Baird JA, Greenburg M, Russell R, Shaughnessy K, Waymouth S (2009b) Who is being deceived? The experimental demands of wearing a backpack. Psychon Bull Rev 16:964-69 CrossRef
17. Falk JL, Bindra D (1954) Judgment of time as a function of serial position and stress. J Exp Psychol 47:279-82 CrossRef
18. Foley JM, Ribeiro-Filho NP, Da Silva JA (2004) Visual perception of extent and the geometry of visual space. Vis Res 44:147-56 CrossRef
19. Helson H, King SM (1931) The tau effect: an example of psychological relativity. J Exp Psychol 14:202-17 CrossRef
20. Herman JF, Norton LM, Roth SF (1983) Children and adults-distance estimations in a large-scale environment: effects of time and clutter. J Exp Child Psychol 36:453-70 CrossRef
21. Herman JF, Roth SF, Norton LM (1984) Time and distance in spatial cognition development. Int J Behav Dev 7:35-1 CrossRef
22. Heron J, Roach NW, Hanson JV, McGraw PV, Whitaker D (2012) Audiovisual time perception is spatially specific. Exp Brain Res 218:477-85 CrossRef
23. Lappe M, Jenkin M, Harris LR (2007) Travel distance estimation from visual motion by leaky path integration. Exp Brain Res 180:35-8 CrossRef
24. Lederman SJ, Klatzky RL, Collins A, Wardell J (1987) Exploring environments by hand or foot: time-based heuristics for encoding distance in movement space. J Exp Psychol Learn Mem Cogn 13:606-14 CrossRef
25. Li Z, Sun E, Strawser CJ, Spiegel A, Klein B, Durgin FH (2013) On the anisotropy of perceived ground extents and the interpretation of walked distance as a measure of perception. J Exp Psychol Hum Percept Perform 39:477-93 CrossRef
26. Loomis JM, Da Silva JA, Fujita N, Fukusima SS (1992) Visual space perception and visually directed action. J Exp Psychol Hum Percept Perform 18:906-21 CrossRef
27. Minkowski H (1909) Raum und Zeit. In: Jahresberichte der Deutschen Mathematiker-Vereinigung. Teubner, Leipzig [Space and time?(transl. Lehmkuhl D). In: Petkov V (ed) Minkowski spacetime: a hundred years later. Springer?(2010), Berlin, pp xiv–xlii]
28. Mittelstaedt ML, Mittelstaedt H (2001) Idiothetic navigation in humans: estimation of path length. Exp Brain Res 139:318-32 CrossRef
29. Montello DR (1997) The perception and cognition of environmental distance: direct sources of information. In: Hirtle SC, Frank AU (eds) Spatial information theory: a theoretical basis for GIS. Springer, Berlin, pp 297-11 CrossRef
30. Philbeck JW, Woods AJ, Arthur J, Todd J (2008) Progressive locomotor recalibration during blind walking. Percept Psychophys 70:1459-470 CrossRef
31. Price-Williams DR (1954) The kappa effect. Nature 173:363-64 CrossRef
32. Proffitt DR, Stefanucci J, Banton T, Epstein W (2003) The role of effort in perceiving distance. Psychol Sci 14:106-12 CrossRef
33. Reichenbach H (1928) Philosophie der Raum-Zeit-Lehre. Walter de Gruyter, Berlin, Leipzig [The philosophy of space and time?(transl. Reichenbach M, Freund J). Dover Publications Inc.?(1958), New York]
34. Sarrazin JC, Giraudo MD, Pailhous J, Bootsma RJ, Giraudo MD (2004) Dynamics of balancing space and time in memory: tau and kappa effects revisited. J Exp Psychol Hum Percept Perform 30:411-30 CrossRef
35. Scholtz W (1924) Experimentelle Untersuchungen über die ph?nomenale Gr??e von Raumstrecken, die durch Sukzessiv-Darbietung zweier Reize begrenzt werden. Psychologische Forschung 5:219-72 CrossRef
36. Thorndyke PW (1981) Distance estimation from cognitive maps. Cogn Psychol 13:526-50 CrossRef
37. Von Sturmer G (1966) Stimulus variation and sequential judgements of duration. Q J Exp Psychol 18:354-57 CrossRef
38. Wackermann J, Ehm W (2006) The dual klepsydra model of internal time representation and time reproduction. J Theor Biol 239:482-93 CrossRef
39. Walsh V (2003) A theory of magnitude: common cortical metrics of time, space and quantity. Trends Cogn Sci 7:483-88 CrossRef
40. Woods AJ, Philbeck JW, Danoff JV (2009) The various perceptions of distance: an alternative view of how effort affects distance judgments. J Exp Psychol Hum Percept Perform 35:1104-117 CrossRef - 作者单位:Martin Riemer (1)
Rupert H?lzl (1) (2)
Dieter Kleinb?hl (1)
1. Otto Selz Institute for Applied Psychology, Mannheim Centre for Work and Health, University of Mannheim, 68161, Mannheim, Germany
2. Department of Cognitive and Clinical Neuroscience, Central Institute of Mental Health, Medical Faculty Mannheim, Heidelberg University, Heidelberg, Germany - ISSN:1432-1106
文摘
Interactions between perceived temporal and spatial properties of external stimuli (e.g. duration and size) suggest common neural mechanisms underlying the perception of time and space. This conclusion, however, lacks support from studies in large-scale environments, showing that judgements on travelled distances and associated travel times are independent from each other. Here, we used a different approach to test whether the perception of travelled distances is influenced by the perception of time. Unlike previous studies, in which temporal and spatial judgements were related to the same experience of walking, we assessed time and distance perception in analogous, but separate versions of estimation and production tasks. In estimation tasks, participants estimated the duration of a presented sound (time) or the length of a travelled distance (space), and in production tasks, participants terminated a sound after a numerically specified duration (time) or covered a numerically specified distance (space). The results show systematic overestimation of time and underestimation of travelled distance, and the latter reflecting previously reported misperceptions of visual distance. Time and distance judgements were related within individuals for production, but not for estimation tasks. These results suggest that temporal information might constitute a probabilistic cue for path integration.