Abstract
Working memory is the retention of a small amount of information in a readily accessible form. It facilitates planning, comprehension, reasoning, and problem solving. I examine the historical roots and conceptual development of the concept and the theoretical and practical implications of current debates about working memory mechanisms. Then, I explore the nature of cognitive developmental improvements in working memory, the role of working memory in learning, and some potential implications of working memory and its development for the education of children and adults. The use of working memory is quite ubiquitous in human thought, but the best way to improve education using what we know about working memory is still controversial. I hope to provide some directions for research and educational practice.
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References
Andrews, G., & Halford, G. S. (2002). A cognitive complexity metric applied to cognitive development. Cognitive Psychology, 45, 153–219.
Atkinson, R. C., & Shiffrin, R. M. (1968). Human memory: a proposed system and its control processes. In K. W. Spence & J. T. Spence (Eds.), The psychology of learning and motivation: advances in research and theory (Vol. 2, pp. 89–195). New York: Academic.
Baddeley, A. D. (1986). Working memory. Oxford Psychology Series #11. Oxford: Clarendon.
Baddeley, A. (2000). The episodic buffer: a new component of working memory? Trends in Cognitive Sciences, 4, 417–423.
Baddeley, A. D., Gathercole, S. E., & Papagno, C. (1998). The phonological loop as a language learning device. Psychological Review, 105, 158–173.
Barrouillet, P., Gavens, N., Vergauwe, E., Gaillard, V., & Camos, V. (2009). Working memory span development: a time-based resource-sharing model account. Developmental Psychology, 45, 477–490.
Baddeley, A. D., & Hitch, G. (1974). Working memory. In G. H. Bower (Ed.), The psychology of learning and motivation (Vol. 8, pp. 47–89). New York: Academic.
Baddeley, A., Papagno, C., & Vallar, G. (1988). When long-term learning depends on short-term storage. Journal of Memory and Language, 27, 586–595.
Barrouillet, P., Portrat, S., & Camos, V. (2011). On the law relating processing to storage in working memory. Psychological Review, 118, 175–192.
Bauer, P. J., & Fivush, R. (2013). Handbook on the development of children’s memory. New York: Wiley.
Bolton, T. L. (1892). The growth of memory in school children. American Journal of Psychology, 4, 362–380.
Borst, G., Niven, E., & Logie, R. H. (2012). Visual mental image generation does not overlap with visual short-term memory: a dual-task interference study. Memory & cognition, 40, 360–372.
Broadbent, D. E. (1958). Perception and communication. New York: Pergamon Press.
Brown, G. D. A., Neath, I., & Chater, N. (2007). A temporal ratio model of memory. Psychological Review, 114, 539–576.
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.
Camos, V., & Barrouillet, P. (2011). Developmental change in working memory strategies: from passive maintenance to active refreshing. Developmental Psychology, 47, 898–904.
Camos, V., Mora, G., & Oberauer, K. (2011). Adaptive choice between articulatory rehearsal and attentional refreshing in verbal working memory. Memory & Cognition, 39, 231–244.
Case, R., Kurland, D. M., & Goldberg, J. (1982). Operational efficiency and the growth of short-term memory span. Journal of Experimental Child Psychology, 33, 386–404.
Chein, J., & Morrison, A. (2010). Expanding the mind’s workspace: training and transfer effects with a complex working memory span task. Psychonomic Bulletin & Review, 17, 193–199.
Chen, Z., & Cowan, N. (2009). Core verbal working memory capacity: the limit in words retained without covert articulation. Quarterly Journal of Experimental Psychology, 62, 1420–1429.
Chen, Z., & Cowan, N. (2013). Working memory inefficiency: minimal information is utilized in visual recognition tasks. Journal of Experimental Psychology: Learning, Memory, & Cognition, 39, 1449–1462.
Chi, M. T. H. (1978). Knowledge structures and memory development. In R. Siegler (Ed.), Children’s thinking: what develops? Hillsdale, NJ: Erlbaum.
Clark, E. V., & Garnica, O. K. (1974). Is he coming or going? On the acquisition of deictic verbs. Journal of Verbal Learning and Verbal Behavior, 13, 559–572.
Cocchini, G., Logie, R. H., Della Sala, S., MacPherson, S. E., & Baddeley, A. D. (2002). Concurrent performance of two memory tasks: evidence for domain-specific working memory systems. Memory & Cognition, 30, 1086–1095.
Conrad, R. (1964). Acoustic confusion in immediate memory. British Journal of Psychology, 55, 75–84.
Courage, M. L., & Cowan, N. (Eds.). (2009). The development of memory in infancy and childhood. Hove, UK: Psychology Press.
Cowan, N. (1988). Evolving conceptions of memory storage, selective attention, and their mutual constraints within the human information processing system. Psychological Bulletin, 104, 163–191.
Cowan, N. (1992). Verbal memory span and the timing of spoken recall. Journal of Memory and Language, 31, 668–684.
Cowan, N. (1995). Attention and memory: an integrated framework. Oxford Psychology Series, no. 26. New York: Oxford University Press.
Cowan, N. (1999). An embedded-processes model of working memory. In A. Miyake & P. Shah (Eds.), Models of working memory: mechanisms of active maintenance and executive control (pp. 62–101). Cambridge, UK: Cambridge University Press.
Cowan, N. (2001). The magical number 4 in short-term memory: a reconsideration of mental storage capacity. Behavioral and Brain Sciences, 24, 87–185.
Cowan, N. (2005). Working memory capacity. Hove, East Sussex, UK: Psychology Press.
Cowan, N. (2010). The magical mystery four: how is working memory capacity limited, and why? Current Directions in Psychological Science, 19, 51–57.
Cowan, N. (2011). The focus of attention as observed in visual working memory tasks: making sense of competing claims. Neuropsychologia, 49, 1401–1406.
Cowan, N., AuBuchon, A. M., Gilchrist, A. L., Ricker, T. J., & Saults, J. S. (2011a). Age differences in visual working memory capacity: not based on encoding limitations. Developmental Science, 14, 1066–1074.
Cowan, N., Donnell, K., & Saults, J. S. (2013). A list-length constraint on incidental item-to-item associations. Psychonomic Bulletin & Review. doi:10.3758/s13423-013-0447-7.
Cowan, N., Li, D., Moffitt, A., Becker, T. M., Martin, E. A., Saults, J. S., et al. (2011b). A neural region of abstract working memory. Journal of Cognitive Neuroscience, 23, 2852–2863.
Cowan, N., & Morey, C. C. (2007). How can dual-task working memory retention limits be investigated? Psychological Science, 18, 686–688.
Cowan, N., Morey, C. C., AuBuchon, A. M., Zwilling, C. E., & Gilchrist, A. L. (2010). Seven-year-olds allocate attention like adults unless working memory is overloaded. Developmental Science, 13, 120–133.
Cowan, N., Nugent, L. D., Elliott, E. M., Ponomarev, I., & Saults, J. S. (1999). The role of attention in the development of short-term memory: age differences in the verbal span of apprehension. Child Development, 70, 1082–1097.
Cowan, N., Rouder, J. N., Blume, C. L., & Saults, J. S. (2012). Models of verbal working memory capacity: what does it take to make them work? Psychological Review, 119, 480–499.
Cowan, N., Saults, J. S., Winterowd, C., & Sherk, M. (1991). Enhancement of 4-year-old children’s memory span for phonologically similar and dissimilar word lists. Journal of Experimental Child Psychology, 51, 30–52.
Craik, F. I. M., & Watkins, M. J. (1973). The role of rehearsal in short-term memory. Journal of Verbal Learning and Verbal Behavior, 12, 599–607.
Daneman, M., & Carpenter, P. A. (1980). Individual differences in working memory and reading. Journal of Verbal Learning & Verbal Behavior, 19, 450–466.
Diamond, A., & Lee, K. (2011). Interventions shown to aid executive function development in children 4 to 12 years old. Science, 333, 959–964.
Ebbinghaus, H. (1885/1913). Memory: a contribution to experimental psychology. Translated by H.A. Ruger & C.E. Bussenius. New York: Teachers College, Columbia University (originally in German, Ueber das gedächtnis: Untersuchen zur experimentellen psychologie)
Engle, R. W., Tuholski, S. W., Laughlin, J. E., & Conway, A. R. A. (1999). Working memory, short term memory, and general fluid intelligence: a latent variable approach. Journal of Experimental Psychology: General, 128, 309–331.
Ericsson, K. A., Chase, W. G., & Faloon, S. (1980). Acquisition of a memory skill. Science, 208, 1181–1182.
Ericsson, K. A., Delaney, P. F., Weaver, G., & Mahadevan, R. (2004). Uncovering the structure of a memorist’s superior basic-memory capacity. Cognitive Psychology, 49, 191–237.
Ericsson, K. A., & Kintsch, W. (1995). Long-term working-memory. Psychological Review, 102, 211–245.
Farrell, S., & Lewandowsky, S. (2002). An endogenous distributed model of ordering in serial recall. Psychonomic Bulletin & Review, 9, 59–79.
Flavell, J. H., Beach, D. H., & Chinsky, J. M. (1966). Spontaneous verbal rehearsal in a memory task as a function of age. Child Development, 37, 283–299.
Fougnie, D., & Marois, R. (2011). What limits working memory capacity? Evidence for modality-specific sources to the simultaneous storage of visual and auditory arrays. Journal of Experimental Psychology: Learning, Memory, and Cognition, 37, 1329–1341.
Garcia, L., Nussbaum, M., & Preiss, D. D. (2011). Is the use of information and communication technology related to performance in working memory tasks? Evidence from seventh-grade students. Computers & Education, 57, 2068–2076.
Garrity, L. I. (1975). An electromyographical study of subvocal speech and recall in preschool children. Developmental Psychology, 11, 274–281.
Gathercole, S. E., & Baddeley, A. D. (1989). Evaluation of the role of phonological STM in the development of vocabulary in children: a longitudinal study. Journal of Memory and Language, 28, 200–213.
Gathercole, S. E., & Baddeley, A. D. (1990). Phonological memory deficits in language disordered children: is there a causal connection? Journal of Memory and Language, 29, 336–360.
Gathercole, S. E., Lamont, E., & Alloway, T. P. (2006). Working memory in the classroom. In S. J. Pickering (Ed.), Working memory and education (pp. 219–240). San Diego: Academic.
Gathercole, S. E., Pickering, S. J., Ambridge, B., & Wearing, H. (2004). The structure of working memory from 4 to 15 years of age. Developmental Psychology, 40, 177–190.
Geary, D. C. (2008). An evolutionarily informed education science. Educational Psychologist, 43, 179–195.
Gelman, R. (1982). Accessing one‐to‐one correspondence: still another paper about conservation. British Journal of Psychology, 73, 209–220.
Gilchrist, A. L., Cowan, N., & Naveh-Benjamin, M. (2009). Investigating the childhood development of working memory using sentences: new evidence for the growth of chunk capacity. Journal of Experimental Child Psychology, 104, 252–265.
Halford, G. S., Cowan, N., & Andrews, G. (2007). Separating cognitive capacity from knowledge: a new hypothesis. Trends in Cognitive Sciences, 11, 236–242.
Halford, G. S., Wilson, W. H., & Phillips, S. (1998). Processing capacity defined by relational complexity: implications for comparative, developmental, and cognitive psychology. Behavioral and Brain Sciences, 21, 803–865.
Hall, V. C. (2003). Educational psychology from 1890 to 1920. In B. J. Zimmerman & D. H. Schunk (Eds.), Educational psychology: a century of contributions. Mahwah, NJ: Erlbaum.
Halpern, D. F. (1998). Teaching critical thinking for transfer across domains: dispositions, skills, structure training, and metacognitive monitoring. American Psychologist, 53, 449–455.
Halpern, D. F., Millis, K., Graesser, A. C., Butler, H., Forsyth, C., & Cai, Z. (2012). Operation ARA: a computerized learning game that teaches critical thinking and scientific reasoning. Thinking Skills and Creativity, 7, 93–100.
Hebb, D. O. (1949). Organization of behavior. New York: Wiley.
Henry, L. A. (1991). The effects of word length and phonemic similarity in young children’s short-term memory. Quarterly Journal of Experimental Psychology, 43A, 35–52.
Henson, R. N. A. (1998). Short-term memory for serial order: the start–end model. Cognitive Psychology, 36, 73–137.
Hulme, C., & Tordoff, V. (1989). Working memory development: the effects of speech rate, word length, and acoustic similarity on serial recall. Journal of Experimental Child Psychology, 47, 72–87.
Jaeggi, S. M., & Buschkuehl, M. (2013). Training working memory. In T. P. Alloway & R. G. Alloway (Eds.), Working memory: the connected intelligence. New York: Psychology Press.
James, W. (1890). The principles of psychology. New York: Henry Holt.
Jarrold, C., & Citroën, R. (2013). Reevaluating key evidence for the development of rehearsal: phonological similarity effects in children are subject to proportional scaling artifacts. Developmental Psychology, 49, 837–847.
Jevons, W. S. (1871). The power of numerical discrimination. Nature, 3, 281–282.
Jolicoeur, P., & Dell’Acqua, R. (1998). The demonstration of short-term consolidation. Cognitive Psychology, 36, 138–202.
Kail, R. (1990). The development of memory in children (3rd ed.). New York: W.H. Freeman.
Kail, R., & Salthouse, T. A. (1994). Processing speed as a mental capacity. Acta Psychologica, 86, 199–255.
Kane, M. J., Brown, L. H., McVay, J. C., Silvia, P. J., Myin-Germeys, I., & Kwapil, T. R. (2007). For whom the mind wanders, and when: an experience–sampling study of working memory and executive control in daily life. Psychological Science, 18, 614–621.
Kane, M. J., & Engle, R. W. (2003). Working-memory capacity and the control of attention: the contributions of goal neglect, response competition, and task set to Stroop interference. Journal of Experimental Psychology: General, 132, 47–70.
Kane, M. J., Hambrick, D. Z., Tuholski, S. W., Wilhelm, O., Payne, T. W., & Engle, R. W. (2004). The generality of working memory capacity: a latent variable approach to verbal and visuospatial memory span and reasoning. Journal of Experimental Psychology: General, 133, 189–217.
Klingberg, T. (2010). Training and plasticity of working memory. Trends in Cognitive Sciences, 14, 317–324.
Kyllonen, P. C., & Christal, R. E. (1990). Reasoning ability is (little more than) working-memory capacity?! Intelligence, 14, 389–433.
Kyndt, E., Cascallar, E., & Dochy, F. (2012). Individual differences in working memory capacity and attention, and their relationship with students’ approaches to learning. Higher Education: The International Journal of Higher Education and Educational Planning, 64, 285–297.
Lewandowsky, S., Duncan, M., & Brown, G. D. A. (2004). Time does not cause forgetting in short-term serial recall. Psychonomic Bulletin & Review, 11, 771–790.
Locke, J. (1690). An essay concerning human understanding. London: Thomas Bassett.
Logie, R. H. (1996). The seven ages of working memory. In J. T. E. Richardson, R. W. Engle, L. Hasher, R. H. Logie, E. R. Stoltzfus, & R. T. Zacks (Eds.), Working memory and human cognition (pp. 31–65). New York: Oxford University Press.
Logie, R. H., & Van Der Meulen, M. (2009). Fragmenting and integrating visuospatial working memory. In J. R. Brockmole (Ed.), Representing the visual world in memory (pp. 1–32). Hove, UK: Psychology Press.
Luck, S. J., & Vogel, E. K. (1997). The capacity of visual working memory for features and conjunctions. Nature, 390, 279–281.
Mandler, G., & Shebo, B. J. (1982). Subitizing: an analysis of its component processes. Journal of Experimental Psychology: General, 111, 1–22.
Melby-Lervåg, M., & Hulme, C. (2013). Is working memory training effective? A meta-analytic review. Developmental Psychology, 49, 270–291.
Miller, G. A. (1956). The magical number seven, plus or minus two: some limits on our capacity for processing information. Psychological Review, 63, 81–97.
Miller, G. A., Galanter, E., & Pribram, K. H. (1960). Plans and the structure of behavior. New York: Holt.
Morey, C. C., & Bieler, M. (2013). Visual short-term memory always requires attention. Psychonomic Bulletin & Review, 20, 163–170.
Murdock, B. B. (1983). A distributed memory model for serial-order information. Psychological Review, 90, 316–338.
Murdock, B. B., & Walker, K. D. (1969). Modality effects in free recall. Journal of Verbal Leaning and Verbal Behavior, 8, 665–676.
Nelson, K. J. (1974). Variations in children’s concepts by age and category. Child Development, 45, 577–584.
Norman, D. A. (1968). Toward a theory of memory and attention. Psychological Review, 75(6), 522–536.
Oberauer, K., & Lewandowsky, S. (2008). Forgetting in immediate serial recall: decay, temporal distinctiveness, or interference? Psychological Review, 115, 544–576.
Oberauer, K., & Lewandowsky, S. (2011). Modeling working memory: a computational implementation of the time-based resource-sharing theory. Psychonomic Bulletin & Review, 18, 10–45.
Oberauer, K., Lewandowsky, S., Farrell, S., Jarrold, C., & Greaves, M. (2012). Modeling working memory: an interference model of complex span. Psychonomic Bulletin & Review, 19, 779–819.
Ornstein, P. A., & Naus, M. J. (1978). Rehearsal processes in children’s memory. In P. A. Ornstein (Ed.), Memory development in children (pp. 69–99). Hillsdale, NJ: Erlbaum.
Paas, F., & Sweller, J. (2012). An evolutionary upgrade of cognitive load theory: using the human motor system and collaboration to support the learning of complex cognitive tasks. Educational Psychology Review, 24, 27–45.
Pascual-Leone, J., & Johnson, J. (2011). A developmental theory of mental attention: its applications to measurement and task analysis. In P. Barrouillet & V. Gaillard (Eds.), Cognitive development and working memory: from neoPiagetian to cognitive approaches (pp. 13–46). Hove, UK: Psychology Press.
Pascual-Leone, J., & Smith, J. (1969). The encoding and decoding of symbols by children: a new experimental paradigm and a neo-Piagetian model. Journal of Experimental Child Psychology, 8, 328–355.
Penney, C. G. (1989). Modality effects and the structure of short-term verbal memory. Memory & Cognition, 17, 398–422.
Pickering, S. J. (2006). Working memory and education. San Diego: Academic.
Redick, T. S., Shipstead, Z., Harrison, T. L., Hicks, K. L., Fried, D. E., Hambrick, D. Z., et al. (2013). No evidence of intelligence improvement after working memory training: a randomized, placebo-controlled study. Journal of Experimental Psychology: General, 142, 359–379.
Ricker, T. J., & Cowan, N. (2010). Loss of visual working memory within seconds: the combined use of refreshable and non-refreshable features. Journal of Experimental Psychology: Learning, Memory, and Cognition, 36, 1355–1368.
Ricker, T.J., & Cowan, N. (2013). Differences between presentation methods in working memory procedures: a matter of working memory consolidation. Journal of Experimental Psychology: Learning, Memory, and Cognition. doi:10.1037/a0034301.
Rouder, J. N., Morey, R. D., Cowan, N., Zwilling, C. E., Morey, C. C., & Pratte, M. S. (2008). An assessment of fixed-capacity models of visual working memory. Proceedings of the National Academy of Sciences (PNAS), 105, 5975–5979.
Sabol, T. J., & Pianta, R. C. (2012). Patterns of school readiness forecast achievement and socioemotional development at the end of elementary school. Child Development, 83, 282–299.
Saltz, E., Soller, E., & Sigel, I. E. (1972). The development of natural language concepts. Child Development, 1972(43), 1191–1202.
Schüler, A., Scheiter, K., & Genuchten, E. (2011). The role of working memory in multimedia instruction: is working memory working during learning from text and pictures? Educational Psychology Review, 23, 389–411.
Shim, W., & Walczak, K. (2012). The impact of faculty teaching practices on the development of students’ critical thinking skills. International Journal of Teaching and Learning in Higher Education, 24, 16–30.
Shipstead, Z., Redick, T. S., & Engle, R. W. (2012). Is working memory training effective? Psychological Bulletin, 138, 628–654.
Slevc, L. (2011). Saying what’s on your mind: working memory effects on sentence production. Journal of Experimental Psychology: Learning, Memory, and Cognition, 37, 1503–1514.
Sokolov, E. N. (1963). Perception and the conditioned reflex. New York: Pergamon Press.
Stanovich, K. E., West, R. F., & Toplak, M. E. (2013). Myside bias, rational thinking, and intelligence. Current Directions in Psychological Science, 22, 259–264.
Süß, H. M., Oberauer, K., Wittmann, W. W., Wilhelm, O., & Schulze, R. (2002). Working-memory capacity explains reasoning ability—and a little bit more. Intelligence, 30, 261–288.
Sweller, J. (2011). Cognitive load theory. Psychology of Learning and Motivation, 55, 37–76.
Sweller, J., van Merrienboer, J. J. G., & Paas, F. G. W. C. (1998). Cognitive architecture and instructional design. Educational Psychology Review, 10, 251–296.
Tan, L., & Ward, G. (2000). A recency-based account of the primacy effect in free recall. Journal of Experimental Psychology: Learning, Memory, and Cognition, 26, 1589–1625.
Todd, J. J., & Marois, R. (2004). Capacity limit of visual short-term memory in human posterior parietal cortex. Nature, 428, 751–754.
Treisman, A. M. (1960). Contextual cues in selective listening. Quarterly Journal of Experimental Psychology, 12, 242–248.
Tricot, A., & Sweller, J. (2013). Domain-specific knowledge and why teaching generic skills does not work. Educational Psychology Review. doi:10.1007/s10648-013-9243-1.
Van Der Meulen, M., Logie, R. H., & Sala, S. D. (2009). Selective interference with image retention and generation: evidence for the workspace model. The Quarterly Journal of Experimental Psychology, 62, 1568–1580.
Vergauwe, E., Barrouillet, P., & Camos, V. (2010). Do mental processes share a domain-general resource? Psychological Science, 21, 384–390.
Vogel, E. K., McCollough, A. W., & Machizawa, M. G. (2005). Neural measures reveal individual differences in controlling access to working memory. Nature, 438, 500–503.
Wason, P. C., & Shapiro, D. (1971). Natural and contrived experience in a reasoning problem. Quarterly Journal of Experimental Psychology, 23, 63–71.
Wilding, J. (2001). Over the top: are there exceptions to the basic capacity limit? Behavioral and Brain Sciences, 24, 152–153.
Wilhelm, O., & Engle, R. W. (Eds.). (2005). Handbook of understanding and measuring intelligence. London: Sage.
Wundt, W. (1894/1998). Lectures on human and animal psychology. Translated from the second German edition by J.E. Creighton & E.B. Titchener. Bristol, UK: Thoemmes Press.
Xu, Y., & Chun, M. M. (2006). Dissociable neural mechanisms supporting visual short-term memory for objects. Nature, 440, 91–95.
Zhang, W., & Luck, S. J. (2009). Sudden death and gradual decay in visual working memory. Psychological Science, 20, 423–428.
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This work was completed with support from NIH grant R01-HD21338.
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Cowan, N. Working Memory Underpins Cognitive Development, Learning, and Education. Educ Psychol Rev 26, 197–223 (2014). https://doi.org/10.1007/s10648-013-9246-y
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DOI: https://doi.org/10.1007/s10648-013-9246-y