doi:

DOI: 10.3724/SP.J.1042.2018.01374

Advances in Psychological Science (心理科学进展) 2018/26:8 PP.1374-1382

Timing mechanism of retrospective duration estimation


Abstract:
Memory is a vital component of retrospective duration estimation, which is either assessed by the interval between two successive events, or the duration of an event after it has ended. Retrospective duration estimation can be divided into two types:close-range and long-distance. The timing mechanisms of both are related to memory; however, they have distinct foci. The former focuses on short-term memory or long-term memory; here, direct evidence is derived from the immediate recall of a single or multiple cognitive tasks to estimate time, while indirect evidence refers to the influence of physical, physiological, and psychological factors. The latter emphasizes the role of autobiographical memory, as evidenced by the measurement mode of a questionnaire or an interview and the influencing factors of subject-object characteristics. Future research should focus on further extending the timing mechanism of retrospective duration estimation in an integrated manner, expand the research of behavioral measurement, and explore the basis of neurobiology for retrospective duration estimation.

Key words:retrospective duration estimation,timing mechanism,autobiographical memory,temporal distance,temporal landmarks

ReleaseDate:2018-08-27 09:44:16



毕翠华, 黄希庭. (2011). 非语言情境中时间加工与空间距离加工的关系. 心理科学进展, 19(3), 346-354.

陈有国, 黄希庭, 尹天子, 张锋. (2011). 时间知觉的理论模型与展望. 西南大学学报(社会科学版), 37(5), 26-33.

戴冰, 杜金, 张惠. (2013). 老年人回溯式时距估计的特点. 中国老年学杂志, 33(14), 3385-3387.

龚先昊, 王大华, 付艳. (2013). 成年女性情景自传体记忆的现象学体验:年龄与时间的作用. 心理科学, 36(5), 1101-1105.

韩志勇. (2012). 自传体记忆时间估计的神经机制研究(硕士学位论文). 首都师范大学, 北京.

黄希庭, 邓麟, 张永红. (2004). 回溯式时间记忆特点的实验研究. 心理与行为研究, 2(4), 561-566.

刘瑞光. (2005). 短时距标量计时模型研究 (博士学位论文). 西南师范大学, 重庆.

马谐, 陶云, 胡文钦. (2009). 时距知觉中的情绪效应. 心理科学进展, 17(1), 29-36.

尧国靖, 张锋. (2013). 自尊水平、事件效价与时距对过去事件时距估计的影响. 心理发展与教育, 29(1), 18-22.

姚竹曦, 张亮, 张侃. (2015). 标量计时模型的影响因素及发展. 心理科学进展, 23(5), 784-792.

张永红, 黄希庭. (2005). 公众时间回溯式记忆的特点. 心理科学, 28(4), 775-779.

张宇迪, 史慧颖. (2010). 任务熟悉度对回溯式时距估计的影响. 心理科学, 33(4), 896-899.

张志杰. (2002). 时距估计年老相关差异的实验研究 (博士学位论文). 西南师范大学, 重庆.

张志杰. (2003). 回溯式时距估计年龄差异的实验研究. 心理科学, 26(4), 587-589.

张志杰, 黄希庭. (2005a). 回溯式时距估计的年龄差异. 心理科学, 28(5), 1039-1042.

张志杰, 黄希庭. (2005b). 时距认知的年龄差异. 西南大学学报:社会科学版, 31(6), 1-5.

邹枝玲, 黄希庭. (2007). 注意在短时距估计中的作用. 心理科学, 30(3), 624-628.

Balcı, F., Wiener, M., Çavdaroğlu, B., & Coslett, H. B. (2013). Epistasis effects of dopamine genes on interval timing and reward magnitude in humans. Neuropsychologia, 51(2), 293-308.

Birth, K. K. (2017). Past times:The temporal structuring of history and memory. In Time blind (pp. 71-91). Springer International Publishing.

Bisson, N., Tobin, S., & Grondin, S. (2009). Remembering the duration of joyful and sad musical excerpts:Assessment with three estimation methods. NeuroQuantology, 7(1), 46-57.

Bisson, N., Tobin, S., & Grondin, S. (2012). Prospective and retrospective time estimates of children:A comparison based on ecological tasks. PLoS One, 7(3), e33049.

Block, R. A., & Gruber, R. P. (2014). Time perception, attention, and memory:A selective review. Acta Psychologica, 149, 129-133.

Block, R. A., Hancock, P. A., & Zakay, D. (2000). Sex differences in duration judgments:A meta-analytic review. Memory and Cognition, 28(8), 1333-1346.

Block, R. A., Hancock, P. A., & Zakay, D. (2010). How cognitive load affects duration judgments:A meta-analytic review. Acta Psychologica, 134(3), 330-343.

Block, R. A., Hancock, P. A., & Zakay, D. (2016). Physical load affects duration judgments:A meta-analytic review. Acta Psychologica, 165, 43-47.

Brown, S. W. (2010). Timing, resources, and interference:Attentional modulation of time perception. In A. C. Nobre & J. T. Coull (Eds.), Attention and time (pp. 107-121). Oxford:Oxford University Press.

Buonomano, D. V., & Maass, W. (2009). State-dependent computations:Spatiotemporal processing in cortical networks. Nature Reviews Neuroscience, 10(2), 113-125.

Coughlin, C., Lyons, K. E., & Ghetti, S. (2014). Remembering the past to envision the future in middle childhood:Developmental linkages between prospection and episodic memory. Cognitive Development, 30, 96-110.

Darlow, H. M., Dylman, A. S., Gheorghiu, A. I., & Matthews, W. J. (2013). Do changes in the pace of events affect one-off judgments of duration?. PLoS One, 8(3), e59847.

Droit-Volet, S., & Berthon, M. (2017). Emotion and implicit timing:The arousal effect. Frontiers in Psychology, 8, 176.

Droit-Volet, S., & Meck, W. H. (2007). How emotions colour our perception of time. Trends in Cognitive Sciences, 11(12), 504-513.

Dzaack, J., Trösterer, S., Pape, N., & Urbas, L. (2007). A computational model of retrospective time estimation. Cognitive Systems Research, 8(3), 208-215.

Eichenbaum, H. (2013). Memory on time. Trends in Cognitive Sciences, 17(2), 81-88.

El Haj, M., & Kapogiannis, D. (2016). Time distortions in Alzheimer's disease:A systematic review and theoretical integration. NPJ Aging and Mechanisms of Disease, 2, 16016.

El Haj, M., Moroni, C., Samson, S., Fasotti, L., & Allain, P. (2013). Prospective and retrospective time perception are related to mental time travel:Evidence from Alzheimer's disease. Brain and Cognition, 83(1), 45-51.

El Haj, M., Nandrino, J. L., Kessels, R. P. C., Matton, C., Bacquet, J. E., Urso, L., & Antoine, P. (2017). Retrospective time perception in Korsakoff's syndrome. The Journal of Neuropsychiatry and Clinical Neurosciences, 29, 319-325.

El Haj, M., Omigie, D., & Moroni, C. (2014). Time reproduction during high and low attentional tasks in Alzheimer's disease "A watched kettle never boils". Brain and Cognition, 88, 1-5.

Firmino, É. A., Bueno, J. L. O., & Bigand, E. (2009). Travelling through pitch space speeds up musical time. Music Perception:An Interdisciplinary Journal, 26(3), 205-209.

Fraisse, P. (1984). Perception and estimation of time. Annual Review of Psychology, 35(1), 1-37.

Freton, M., Lemogne, C., Bergouignan, L., Delaveau, P., Lehéricy, S., & Fossati, P. (2014). The eye of the self:Precuneus volume and visual perspective during autobiographical memory retrieval. Brain Structure and Function, 219(3), 959-968.

Fung, B. J., Crone, D. L., Bode, S., & Murawski, C. (2017). Cardiac signals are independently associated with temporal discounting and time perception. Frontiers in Behavioral Neuroscience, 11, 1.

Gable, P. A., & Poole, B. D. (2012). Time flies when you're having approach-motivated fun:Effects of motivational intensity on time perception. Psychological Science, 23, 879-886.

Grondin, S. (2010). Timing and time perception:A review of recent behavioral and neuroscience findings and theoretical directions. Attention, Perception, and Psychophysics, 72(3), 561-582.

Grondin, S., & Plourde, M. (2007). Judging multi-minute intervals retrospectively. The Quarterly Journal of Experimental Psychology, 60(9), 1303-1312.

Gu, B. M., van Rijn, H., & Meck, W. H. (2015). Oscillatory multiplexing of neural population codes for interval timing and working memory. Neuroscience and Biobehavioral Reviews, 48, 160-185.

Hintzman, D. L. (2016). Is memory organized by temporal contiguity?. Memory and Cognition, 44(3), 365-375.

Howard, M. W., MacDonald, C. J., Tiganj, Z., Shankar, K. H., Du, Q., Hasselmo, M. E., & Eichenbaum, H. (2014). A unified mathematical framework for coding time, space, and sequences in the hippocampal region. Journal of Neuroscience, 34(13), 4692-4707.

Ivry, R. B., & Schlerf, J. E. (2008). Dedicated and intrinsic models of time perception. Trends in Cognitive Sciences, 12(7), 273-280.

Jack, F., Friedman, W., Reese, E., & Zajac, R. (2016). Age-related differences in memory for time, temporal reconstruction, and the availability and use of temporal landmarks. Cognitive Development, 37, 53-66.

Janssen, S. M. J. (2017). Autobiographical memory and the subjective experience of time. Timing and Time Perception, 5(1), 99-122.

Kashiwakura, S., & Motoyoshi, I. (2017). Relative time compression for slow-motion stimuli through rapid recalibration. Frontiers in Psychology, 8, 1195.

Lake, J. I. (2016). Recent advances in understanding emotion-driven temporal distortions. Current Opinion in Behavioral Sciences, 8, 214-219.

MacDonald, C. J. (2014). Prospective and retrospective duration memory in the hippocampus:Is time in the foreground or background?. Philosophical Transactions of the Royal Society B:Biological Science, 369(1637), 20120463.

MacDonald, C. J., Fortin, N. J., Sakata, S., & Meck, W. H. (2014). Retrospective and prospective views on the role of the hippocampus in interval timing and memory for elapsed time. Timing and Time Perception, 2(1), 51-61.

MacDonald, C. J., Lepage, K. Q., Eden, U. T., & Eichenbaum, H. (2011). Hippocampal "time cells" bridge the gap in memory for discontiguous events. Neuron, 71(4), 737-749.

Martin, B., Wittmann, M., Franck, N., Cermolacce, M., Berna, F., & Giersch, A. (2014). Temporal structure of consciousness and minimal self in schizophrenia. Frontiers in Psychology, 5, 1175.

Matthews, W. J. (2013). How does sequence structure affect the judgment of time? Exploring a weighted sum of segments model. Cognitive Psychology, 66(3), 259-282.

Matthews, W. J., & Meck, W. H. (2016). Temporal cognition:Connecting subjective time to perception, attention, and memory. Psychological Bulletin, 142(8), 865-907.

Mioni, G., Stablum, F., McClintock, S. M., & Grondin, S. (2014). Different methods for reproducing time, different results. Attention, Perception, and Psychophysics, 76(3), 675-681.

Naya, Y., & Suzuki, W. A. (2011). Integrating what and when across the primate medial temporal lobe. Science, 333(6043), 773-776.

Nicholas, B. (2015). How could circadian clock genes influence short duration timing?. In Time distortions in mind (pp. 356-381). Leiden, The Netherlands:Brill Academic Pub.

Noulhiane, M., Pouthas, V., Hasboun, D., Baulac, M., & Samson, S. (2007). Role of the medial temporal lobe in time estimation in the range of minutes. Neuroreport, 18(10), 1035-1038.

Pathman, T., Doydum, A., & Bauer, P. J. (2013). Bringing order to life events:Memory for the temporal order of autobiographical events over an extended period in school-aged children and adults. Journal of Experimental Child Psychology, 115(2), 309-325.

Pathman, T., & Ghetti, S. (2014). The eyes know time:A novel paradigm to reveal the development of temporal memory. Child Development, 85(2), 792-807.

Pfeuty, M., Dilharreguy, B., Gerlier, L., & Allard, M. (2015). fMRI identifies the right inferior frontal cortex as the brain region where time interval processing is altered by negative emotional arousal. Human Brain Mapping, 36(3), 981-995.

Sahakyan, L., & Smith, J. R. (2014). "A long time ago, in a context far, far away":Retrospective time estimates and internal context change. Journal of Experimental Psychology:Learning, Memory, and Cognition, 40(1), 86-93.

Staddon, J. E. R. (2005). Interval timing:Memory, not a clock. Trends in Cognitive Sciences, 9(7), 312-314.

Szpunar, K. K., & Schacter, D. L. (2013). Get real:Effects of repeated simulation and emotion on the perceived plausibility of future experiences. Journal of Experimental Psychology:General, 142(2), 323-327.

Thoenes, S., & Oberfeld, D. (2017). Meta-analysis of time perception and temporal processing in schizophrenia:Differential effects on precision and accuracy. Clinical Psychology Review, 54, 44-64.

Tobin, S., Bisson, N., & Grondin, S. (2010). An ecological approach to prospective and retrospective timing of long durations:A study involving gamers. PLoS One, 5(2), e9271.

Vallesi, A., Arbula, S., & Bernardis, P. (2014). Functional dissociations in temporal preparation:Evidence from dual-task performance. Cognition, 130(2), 141-151.

Wearden, J. H. (2016). Retrospective timing and passage of time judgements. In J. H. Wearden (Ed.), The psychology of time perception (pp. 117-141). London:Palgrave Macmillan.

Weiler, J. A., Suchan, B., & Daum, I. (2010). Foreseeing the future:Occurrence probability of imagined future events modulates hippocampal activation. Hippocampus, 20(6), 685-690.

Wiener, M., Lohoff, F. W., & Coslett, H. B. (2011). Double dissociation of dopamine genes and timing in humans. Journal of Cognitive Neuroscience, 23(10), 2811-2821.

Wiener, M., Turkeltaub, P. E., & Coslett, H. B. (2010). Implicit timing activates the left inferior parietal cortex. Neuropsychologia, 48(13), 3967-3971.

Wittmann, M. (2013). The inner sense of time:How the brain creates a representation of duration. Nature Reviews Neuroscience, 14(3), 217-223.

Yamada, Y., & Kawabe, T. (2011). Emotion colors time perception unconsciously. Consciousness and Cognition, 20(4), 1835-1841.

Zakay, D., & Block, R. A. (2004). Prospective and retrospective duration judgments:An executive-control perspective. Acta Neurobiologiae Experimentalis, 64(3), 319-328.