Abstract
How do people report the contents of short-term memory when information about order must be retained but items can be retrieved in any order? We report an experiment using an unconstrained reconstruction task in which people can report list items in any order but must place them in their correct serial positions. We found (1) a tendency to report recent items first in immediate but not in delayed reconstruction, (2) a tendency to recall temporally isolated items first, (3) a preference for forward recall order, and (4) a preference for output orders that minimize the length of the path that must be traversed through memory space during retrieval. The results constrain most current models of short-term memory in which retrieval is ballistic and is assumed to run to completion autonomously once initiated.
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References
Beaman, C. P. (2002). Inverting the modality effect in serial recall. Quarterly Journal of Experimental Psychology, 55A, 371–389.
Bousfield, W. A. (1953). The occurrence of clustering in the recall of randomly arranged associates. Journal of General Psychology, 49, 229–240.
Brainard, D. H. (1997). The Psychophysics Toolbox. Spatial Vision, 10, 433–436.
Brown, G. D. A., Chater, N., & Neath, I. (2008). Serial and free recall: Common effects and common mechanisms? A reply to Murdock (2008). Psychological Review, 115, 781–785.
Brown, G. D. A., Neath, I., & Chater, N. (2007). A temporal ratio model of memory. Psychological Review, 114, 539–576.
Brown, G. D. A., Preece, T., & Hulme, C. (2000). Oscillator-based memory for serial order. Psychological Review, 107, 127–181.
Burgess, N., & Hitch, G. J. (1999). Memory for serial order: A network model of the phonological loop and its timing. Psychological Review, 106, 551–581.
Cowan, N., Saults, J. S., Elliott, E. M., & Moreno, M. V. (2002). Deconfounding serial recall. Journal of Memory & Language, 46, 153–177.
Crowder, R. G. (1976). Principles of learning and memory. Hillsdale, NJ: Erlbaum.
Davelaar, E. J., Goshen-Gottstein, Y., Ashkenazi, A., Haarmann, H. J., & Usher, M. (2005). The demise of short-term memory revisited: Empirical and computational investigations of recency effects. Psychological Review, 112, 3–42.
Farrell, S., & Lewandowsky, S. (2002). An endogenous distributed model of ordering in serial recall. Psychonomic Bulletin & Review, 9, 59–79.
Farrell, S., & Lewandowsky, S. (2008). Empirical and theoretical limits on lag-recency in free recall. Psychonomic Bulletin & Review, 15, 1236–1250.
Fitts, P. M. (1954). The information capacity of the human movement system in controlling the amplitude of movement. Journal of Experimental Psychology, 47, 381–391.
Henson, R. N. A. (1998). Short-term memory for serial order: The Start-End model. Cognitive Psychology, 36, 73–137.
Hintzman, D. L., Block, R. A., & Inskeep, N. R. (1972). Memory for mode of input. Journal of Verbal Learning & Verbal Behavior, 11, 741–749.
Howard, M. W., & Kahana, M. J. (2002). A distributed representation of temporal context. Journal of Mathematical Psychology, 46, 269–299.
Kahana, M. J. (1996). Associative retrieval processes in free recall. Memory & Cognition, 24, 103–109.
Kahana, M. J., & Caplan, J. B. (2002). Associative asymmetry in probed recall of serial lists. Memory & Cognition, 30, 841–849.
Lewandowsky, S. (1986). Priming in recognition memory for categorized lists. Journal of Experimental Psychology: Learning, Memory, & Cognition, 12, 562–574.
Lewandowsky, S. (1999). Redintegration and response suppression in serial recall: A dynamic network model. International Journal of Psychology, 34, 434–446.
Lewandowsky, S., & Farrell, S. (2008). Short-term memory: New data and a model. In B. H. Ross (Ed.), The psychology of learning and motivation (Vol. 49, pp. 1–48). London: Elsevier.
Lewandowsky, S., & Murdock, B. B. (1989). Memory for serial order. Psychological Review, 96, 25–57.
Lewandowsky, S., Nimmo, L. M., & Brown, G. D. A. (2008). When temporal isolation benefits memory for serial order. Journal of Memory & Language, 58, 415–428.
Luce, R. D., Nosofsky, R. M., Green, D. M., & Smith, A. F. (1982). The bow and sequential effects in absolute identification. Perception & Psychophysics, 32, 397–408.
McKoon, G., & Ratcliff, R. (1980). Priming in item recognition: The organization of propositions in memory for text. Journal of Verbal Learning & Verbal Behavior, 19, 369–386.
Nairne, J. S. (1992). The loss of positional certainty in long-term memory. Psychological Science, 3, 199–202.
Nairne, J. S., Ceo, D. A., & Reysen, M. B. (2007). The mnemonic effects of recall on immediate retention. Memory & Cognition, 35, 191–199.
Oberauer, K. (2003). Understanding serial position curves in shortterm recognition and recall. Journal of Memory & Language, 49, 469–483.
Page, M. P. A., & Norris, D. (1998). The primacy model: A new model of immediate serial recall. Psychological Review, 105, 761–781.
Pelli, D. G. (1997). The video toolbox software for visual psychophysics: Transforming numbers into movies. Spatial Vision, 10, 437–442.
Petzold, P., & Haubensak, G. (2001). Higher order sequential effects in psychophysical judgments. Perception & Psychophysics, 63, 969–978.
Raaijmakers, J. G. W., & Shiffrin, R. M. (1981). Search of associative memory. Psychological Review, 88, 93–134.
Romney, A. K., Brewer, D. D., & Batchelder, W. H. (1993). Predicting clustering from semantic structure. Psychological Science, 4, 28–34.
Schwartz, G., Howard, M. W., Jing, B., & Kahana, M. J. (2005). Shadows of the past: Temporal retrieval effects in recognition memory. Psychological Science, 16, 898–904.
Tan, L., & Ward, G. (2007). Output order in immediate serial recall. Memory & Cognition, 35, 1093–1106.
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Preparation of this article was facilitated by a Discovery Grant from the Australian Research Council and an Australian Professorial Fellowship to S.L., by a Linkage International Grant from the Australian Research Council to S.L. and G.D.A.B., and by ESRC Grant RES000231038 to G.D.A.B.
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Lewandowsky, S., Brown, G.D.A. & Thomas, J.L. Traveling economically through memory space: Characterizing output order in memory for serial order. Memory & Cognition 37, 181–193 (2009). https://doi.org/10.3758/MC.37.2.181
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DOI: https://doi.org/10.3758/MC.37.2.181