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n-back

August 29, 2023

The n-back task is a continuous performance task that is commonly used as an assessment in psychology and cognitive neuroscience to measure a part of working memory and working memory capacity.[1] The n-back was introduced by Wayne Kirchner in 1958.[2] N-Back games are purported to be a training method to improve working memory and working memory capacity and also increase fluid intelligence, although evidence for such effects are lacking. [3]

The task Edit

The subject is presented with a sequence of stimuli, and the task consists of indicating when the current stimulus matches the one from n steps earlier in the sequence. The load factor n can be adjusted to make the task more or less difficult.

To clarify, the visual n-back test is similar to the classic memory game of Concentration. However, instead of different items that are in a fixed location on the game board, there is only one item, that appears in different positions on the game board during each turn. "1-N" means that you have to remember the position of the item, one turn back. "2-N" means that you have to remember the position of the item two turns back, and so on.

For example, an auditory three-back test could consist of the experimenter reading the following list of letters to the test subject:

T L H C H O C Q L C K L H C Q T R R K C H R

The subject is supposed to indicate when the letters marked in bold are read, because those correspond to the letters that were read three steps earlier.

The n-back task captures the active part of working memory. When n equals 2 or more, it is not enough to simply keep a representation of recently presented items in mind; the working memory buffer also needs to be updated continuously to keep track of what the current stimulus must be compared to. To accomplish this task, the subject needs to both maintain and manipulate information in working memory.[1]

Dual n-back Edit

The dual-task n-back task is a variation that was proposed by Susanne Jaeggi et al. in 2003.[4] In the dual-task paradigm, two independent sequences are presented simultaneously, typically using different modalities of stimuli, such as one auditory and one visual.

Several smart phone apps and online implementations of the dual n-back task exist.[5]

Applications Edit

Assessment Edit

The n-back task was developed by Wayne Kirchner for his research into short-term memory; he used it to assess age differences in memory tasks of "rapidly changing information".[2]

Construct validity Edit

There is some question about the construct validity of the n-back task. While the task has strong face validity and is now in widespread use as a measure of working memory in clinical and experimental settings, there are few studies which explore the convergent validity of the n-back task with other measures of working memory.[6] Those studies have largely revealed weak or modest correlations between individuals' performance on the n-back task and performance on other standard, accepted assessments of working memory.[6][7]

There are two main hypotheses for this weak correlation between the n-back task and other working memory assessments. One proposal is that the n-back task assesses different "sub-components" of working memory than do other assessments. A more critical explanation is that rather than primarily assessing working memory, performance on the n-back task depends on "familiarity- and recognition-based discrimination processes," whereas valid assessments of working memory demand "active recall."[7] Whatever the cause of the performance differences between the n-back and other assessments of working memory, some researchers stress the need for further exploration of the construct validity of the n-back task.[6]

Performance on the n-back task seems to be more closely correlated with performance on measures of fluid intelligence than it is with performance on other measures of working memory (which is also correlated with performance on measures of fluid intelligence).[7] In the same vein, training on the n-back task appears to improve performance on subsequent fluid intelligence assessments, especially when the training is at a higher n-value.[7]

Treatment Edit

A 2008 research paper claimed that practicing a dual n-back task can increase fluid intelligence (Gf), as measured in several different standard tests.[8] This finding received some attention from popular media, including an article in Wired.[9] However, a subsequent criticism of the paper's methodology questioned the experiment's validity and took issue with the lack of uniformity in the tests used to evaluate the control and test groups.[10] For example, the progressive nature of Raven's Advanced Progressive Matrices (APM) test may have been compromised by modifications of time restrictions (i.e., 10 minutes were allowed to complete a normally 45-minute test). The authors of the original paper later addressed this criticism by citing research indicating that scores in timed administrations of the APM are predictive of scores in untimed administrations.[11]

The 2008 study was replicated in 2010 with results indicating that practicing single n-back may be almost equal to dual n-back in increasing the score on tests measuring Gf (fluid intelligence). The single n-back test used was the visual test, leaving out the audio test.[11] In 2011, the same authors showed long-lasting transfer effect in some conditions.[12]

Two studies published in 2012 failed to reproduce the effect of dual n-back training on fluid intelligence. These studies found that the effects of training did not transfer to any other cognitive ability tests.[13][14] In 2014, a meta-analysis of twenty studies showed that n-back training has small but significant effect on Gf and improve it on average for an equivalent of 3–4 points of IQ.[15] In January 2015, this meta-analysis was the subject of a critical review due to small-study effects.[16]

A more recent and extended meta-analysis in January 2017[17] also found that n-back training produces a medium improvement in unrelated n-back training tasks, but a small improvement in unrelated working memory (WM) tasks:

The present meta-analysis on the efficacy of n-back training shows medium transfer effects to untrained versions of the trained n-back tasks and small transfer effects to other WM tasks, cognitive control, and Gf [fluid intelligence]. Our results suggest that previous meta-analyses investigating the effects of WM training have overestimated the transfer effects to WM by including untrained variants of the training tasks in their WM transfer domain. Consequently, transfer of n-back training is more task-specific than has previously been suggested.

The question of whether n-back training produces real-world improvements to working memory remains controversial.[18] New research seems to show transfer effects to other cognitive tasks.[19]

Use in tutoring and rehabilitation Edit

The n-back is now in use outside experimental, clinical, and medical settings. Tutoring companies utilize versions of the task (in conjunction with other cognitive tasks) to allegedly improve the fluid intelligence of their clients.[20] Tutoring companies and psychologists also utilize the task to improve the focus of individuals with ADHD[20] and to rehabilitate sufferers of traumatic brain injury;[21] experiments have found evidence that practice with the task helps these individuals focus for up to eight months following training.[21] However, much debate remains about whether training on the n-back and similar tasks can improve performance in the long run or whether the effects of training are transient,[20][21] and if the effects of training n-back generalize to general cognitive processing, for instance, to fluid intelligence.[22] Despite the claims of commercial providers, there are some researchers who question whether the results of memory training are transferable. Researchers from the University of Oslo published results of the meta-analytical review analyzing various studies on memory training techniques (including n-back) and concluded that "training programs give only near-transfer effects, and there is no convincing evidence that even such near-transfer effects are durable."[23]

Neurobiology of n-back task Edit

Meta-analysis of 24 n-back neuroimaging studies have shown that during this task the following brain regions are consistently activated: lateral premotor cortex; dorsal cingulate and medial premotor cortex; dorsolateral and ventrolateral prefrontal cortex; frontal poles; and medial and lateral posterior parietal cortex.[24]

See also Edit

References Edit

  1. ^ a b Gazzaniga, Michael S.; Ivry, Richard B.; Mangun, George R. (2009). Cognitive Neuroscience: The Biology of the Mind (2nd ed.).
  2. ^ a b Kirchner, W. K. (1958). "Age differences in short-term retention of rapidly changing information". Journal of Experimental Psychology. 55 (4): 352–358. doi:10.1037/h0043688. PMID 13539317.
  3. ^ Lawlor-Savage, L.; Goghari, V. M. (2016). "Dual N-Back Working Memory Training in Healthy Adults: A Randomized Comparison to Processing Speed Training". PLOS ONE. 11 (4): e0151817. Bibcode:2016PLoSO..1151817L. doi:10.1371/journal.pone.0151817. PMC 4820261. PMID 27043141.
  4. ^ Jaeggi, Susanne M; Seewer, Ria; Nirkko, Arto C; Eckstein, Doris; Schroth, Gerhard; Groner, Rudolf; Gutbrod, Klemens (June 2003). "Does excessive memory load attenuate activation in the prefrontal cortex? Load-dependent processing in single and dual tasks: functional magnetic resonance imaging study". NeuroImage. 19 (2): 210–225. doi:10.1016/S1053-8119(03)00098-3. PMID 12814572. S2CID 13807924.
  5. ^ Roizen, Michael; Oz, Mehmet (2018-01-12). "Playing brain games may help sharpen your skills". Houston Chronicle. Hearst. Retrieved 10 November 2018.
  6. ^ a b c Kane, Michael J.; Conway, Andrew R. A.; Miura, Timothy K.; Colflesh, Gregory J. H. (May 2007). "Working memory, attention control, and the n-back task: A question of construct validity" (PDF). Journal of Experimental Psychology: Learning, Memory, and Cognition. 33 (3): 615–622. doi:10.1037/0278-7393.33.3.615. PMID 17470009.
  7. ^ a b c d Jaeggi, S.M., Buschkuehl, M., Perrig, W.J., & Meier, B. (2010). "The concurrent validity of the N-back task as a working memory measure". Memory. 18 (4): 394–412. doi:10.1080/09658211003702171. PMID 20408039. S2CID 42767249.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  8. ^ Jaeggi, Susanne M.; Buschkuehl, Martin; Jonides, John; Perrig, Walter J. (13 May 2008). "Improving fluid intelligence with training on working memory". Proceedings of the National Academy of Sciences of the United States of America. 105 (19): 6829–6833. Bibcode:2008PNAS..105.6829J. doi:10.1073/pnas.0801268105. PMC 2383929. PMID 18443283.
  9. ^ Alexis Madrigal, Forget Brain Age: Researchers Develop Software That Makes You Smarter, Wired, April 2008
  10. ^ Moody, D. E. (2009). "Can intelligence be increased by training on a task of working memory?". Intelligence. 37 (4): 327–328. doi:10.1016/j.intell.2009.04.005.
  11. ^ a b Jaeggi, Susanne M.; Studer-Luethi, Barbara; Buschkuehl, Martin; Su, Yi-Fen; Jonides, John; Perrig, Walter J. (2010). "The relationship between n-back performance and matrix reasoning -- implications for training and transfer". Intelligence. 38 (6): 625–635. doi:10.1016/j.intell.2010.09.001.
  12. ^ Jaeggi, S. M.; Buschkuehl, M.; Jonides, J.; Shah, P. (21 June 2011). "Short- and long-term benefits of cognitive training". Proceedings of the National Academy of Sciences. 108 (25): 10081–10086. Bibcode:2011PNAS..10810081J. doi:10.1073/pnas.1103228108. PMC 3121868. PMID 21670271.
  13. ^ Redick, T. S.; Shipstead, Z.; Harrison, T. L.; Hicks, K. L.; Fried, D. E.; Hambrick, D. Z.; Kane, M. J.; Engle, R. W. (2012). "No Evidence of Intelligence Improvement After Working Memory Training: A Randomized, Placebo-Controlled Study". Journal of Experimental Psychology: General. 142 (2): 359–379. doi:10.1037/a0029082. PMID 22708717. S2CID 15117431.
  14. ^ Chooi, W. T.; Thompson, L. A. (2012). "Working memory training does not improve intelligence in healthy young adults". Intelligence. 40 (6): 531–542. doi:10.1016/j.intell.2012.07.004.
  15. ^ Au, Jacky; Sheehan, Ellen; Tsai, Nancy; Duncan, Greg J.; Buschkuehl, Martin; Jaeggi, Susanne M. (April 2015). "Improving fluid intelligence with training on working memory: a meta-analysis". Psychonomic Bulletin & Review. 22 (2): 366–377. doi:10.3758/s13423-014-0699-x. PMID 25102926. S2CID 10433282.
  16. ^ Bogg, Tim; Lasecki, Leanne (22 January 2015). "Reliable gains? Evidence for substantially underpowered designs in studies of working memory training transfer to fluid intelligence". Frontiers in Psychology. 5: 1589. doi:10.3389/fpsyg.2014.01589. PMC 4010796. PMID 25657629.
  17. ^ Soveri, Anna; Antfolk, Jan; Karlsson, Linda; Salo, Benny; Laine, Matti (1 August 2017). "Working memory training revisited: A multi-level meta-analysis of n-back training studies". Psychonomic Bulletin & Review. 24 (4): 1077–1096. doi:10.3758/s13423-016-1217-0. PMID 28116702.
  18. ^ Soveri, Anna; Antfolk, Jan; Karlsson, Linda; Salo, Benny; Laine, Matti (1 August 2017). "Working memory training revisited: A multi-level meta-analysis of n-back training studies". Psychonomic Bulletin & Review. 24 (4): 1077–1096. doi:10.3758/s13423-016-1217-0. PMID 28116702.
  19. ^ Li, Wenjuan; Zhang, Qiuzhu; Qiao, Hongying; Jin, Donggang; Ngetich, Ronald K.; Zhang, Junjun; Jin, Zhenlan; Li, Ling (4 February 2021). "Dual n-back working memory training evinces superior transfer effects compared to the method of loci". Scientific Reports. 11 (1): 3072. Bibcode:2021NatSR..11.3072L. doi:10.1038/s41598-021-82663-w. PMC 7862396. PMID 33542383.
  20. ^ a b c Hurley, Dan (2012-10-31). "The Brain Trainers". The New York Times. Retrieved 9 November 2012.
  21. ^ a b c Hurley, Dan (2012-04-18). "Can You Make Yourself Smarter?". The New York Times. Retrieved 9 November 2012.
  22. ^ Daniel Willingham (2012-06-19). "New study: Fluid intelligence not trainable". Retrieved 2013-04-22.
  23. ^ Monica Melby-Lervåg & Charles Hulme (2013). "Is Working Memory Training Effective? A Meta-Analytic Review" (PDF). Developmental Psychology. 49 (2): 270–291. doi:10.1037/a0028228. PMID 22612437. S2CID 12370312.
  24. ^ Owen, Adrian M.; McMillan, Kathryn M.; Laird, Angela R.; Bullmore, Ed (2005). "N-back working memory paradigm: A meta-analysis of normative functional neuroimaging studies". Human Brain Mapping. 25 (1): 46–59. doi:10.1002/hbm.20131. PMC 6871745. PMID 15846822.

External links Edit

  • N-back FAQ

August 29, 2023
back, task, continuous, performance, task, that, commonly, used, assessment, psychology, cognitive, neuroscience, measure, part, working, memory, working, memory, capacity, introduced, wayne, kirchner, 1958, back, games, purported, training, method, improve, w. The n back task is a continuous performance task that is commonly used as an assessment in psychology and cognitive neuroscience to measure a part of working memory and working memory capacity 1 The n back was introduced by Wayne Kirchner in 1958 2 N Back games are purported to be a training method to improve working memory and working memory capacity and also increase fluid intelligence although evidence for such effects are lacking 3 Contents 1 The task 1 1 Dual n back 2 Applications 2 1 Assessment 2 1 1 Construct validity 2 2 Treatment 2 2 1 Use in tutoring and rehabilitation 3 Neurobiology of n back task 4 See also 5 References 6 External linksThe task EditThe subject is presented with a sequence of stimuli and the task consists of indicating when the current stimulus matches the one from n steps earlier in the sequence The load factor n can be adjusted to make the task more or less difficult To clarify the visual n back test is similar to the classic memory game of Concentration However instead of different items that are in a fixed location on the game board there is only one item that appears in different positions on the game board during each turn 1 N means that you have to remember the position of the item one turn back 2 N means that you have to remember the position of the item two turns back and so on For example an auditory three back test could consist of the experimenter reading the following list of letters to the test subject T L H C H O C Q L C K L H C Q T R R K C H RThe subject is supposed to indicate when the letters marked in bold are read because those correspond to the letters that were read three steps earlier The n back task captures the active part of working memory When n equals 2 or more it is not enough to simply keep a representation of recently presented items in mind the working memory buffer also needs to be updated continuously to keep track of what the current stimulus must be compared to To accomplish this task the subject needs to both maintain and manipulate information in working memory 1 Dual n back Edit The dual task n back task is a variation that was proposed by Susanne Jaeggi et al in 2003 4 In the dual task paradigm two independent sequences are presented simultaneously typically using different modalities of stimuli such as one auditory and one visual Several smart phone apps and online implementations of the dual n back task exist 5 Applications EditAssessment Edit The n back task was developed by Wayne Kirchner for his research into short term memory he used it to assess age differences in memory tasks of rapidly changing information 2 Construct validity Edit There is some question about the construct validity of the n back task While the task has strong face validity and is now in widespread use as a measure of working memory in clinical and experimental settings there are few studies which explore the convergent validity of the n back task with other measures of working memory 6 Those studies have largely revealed weak or modest correlations between individuals performance on the n back task and performance on other standard accepted assessments of working memory 6 7 There are two main hypotheses for this weak correlation between the n back task and other working memory assessments One proposal is that the n back task assesses different sub components of working memory than do other assessments A more critical explanation is that rather than primarily assessing working memory performance on the n back task depends on familiarity and recognition based discrimination processes whereas valid assessments of working memory demand active recall 7 Whatever the cause of the performance differences between the n back and other assessments of working memory some researchers stress the need for further exploration of the construct validity of the n back task 6 Performance on the n back task seems to be more closely correlated with performance on measures of fluid intelligence than it is with performance on other measures of working memory which is also correlated with performance on measures of fluid intelligence 7 In the same vein training on the n back task appears to improve performance on subsequent fluid intelligence assessments especially when the training is at a higher n value 7 Treatment Edit A 2008 research paper claimed that practicing a dual n back task can increase fluid intelligence Gf as measured in several different standard tests 8 This finding received some attention from popular media including an article in Wired 9 However a subsequent criticism of the paper s methodology questioned the experiment s validity and took issue with the lack of uniformity in the tests used to evaluate the control and test groups 10 For example the progressive nature of Raven s Advanced Progressive Matrices APM test may have been compromised by modifications of time restrictions i e 10 minutes were allowed to complete a normally 45 minute test The authors of the original paper later addressed this criticism by citing research indicating that scores in timed administrations of the APM are predictive of scores in untimed administrations 11 The 2008 study was replicated in 2010 with results indicating that practicing single n back may be almost equal to dual n back in increasing the score on tests measuring Gf fluid intelligence The single n back test used was the visual test leaving out the audio test 11 In 2011 the same authors showed long lasting transfer effect in some conditions 12 Two studies published in 2012 failed to reproduce the effect of dual n back training on fluid intelligence These studies found that the effects of training did not transfer to any other cognitive ability tests 13 14 In 2014 a meta analysis of twenty studies showed that n back training has small but significant effect on Gf and improve it on average for an equivalent of 3 4 points of IQ 15 In January 2015 this meta analysis was the subject of a critical review due to small study effects 16 A more recent and extended meta analysis in January 2017 17 also found that n back training produces a medium improvement in unrelated n back training tasks but a small improvement in unrelated working memory WM tasks The present meta analysis on the efficacy of n back training shows medium transfer effects to untrained versions of the trained n back tasks and small transfer effects to other WM tasks cognitive control and Gf fluid intelligence Our results suggest that previous meta analyses investigating the effects of WM training have overestimated the transfer effects to WM by including untrained variants of the training tasks in their WM transfer domain Consequently transfer of n back training is more task specific than has previously been suggested The question of whether n back training produces real world improvements to working memory remains controversial 18 New research seems to show transfer effects to other cognitive tasks 19 Use in tutoring and rehabilitation Edit The n back is now in use outside experimental clinical and medical settings Tutoring companies utilize versions of the task in conjunction with other cognitive tasks to allegedly improve the fluid intelligence of their clients 20 Tutoring companies and psychologists also utilize the task to improve the focus of individuals with ADHD 20 and to rehabilitate sufferers of traumatic brain injury 21 experiments have found evidence that practice with the task helps these individuals focus for up to eight months following training 21 However much debate remains about whether training on the n back and similar tasks can improve performance in the long run or whether the effects of training are transient 20 21 and if the effects of training n back generalize to general cognitive processing for instance to fluid intelligence 22 Despite the claims of commercial providers there are some researchers who question whether the results of memory training are transferable Researchers from the University of Oslo published results of the meta analytical review analyzing various studies on memory training techniques including n back and concluded that training programs give only near transfer effects and there is no convincing evidence that even such near transfer effects are durable 23 Neurobiology of n back task EditMeta analysis of 24 n back neuroimaging studies have shown that during this task the following brain regions are consistently activated lateral premotor cortex dorsal cingulate and medial premotor cortex dorsolateral and ventrolateral prefrontal cortex frontal poles and medial and lateral posterior parietal cortex 24 See also EditEvidence based educationReferences Edit a b Gazzaniga Michael S Ivry Richard B Mangun George R 2009 Cognitive Neuroscience The Biology of the Mind 2nd ed a b Kirchner W K 1958 Age differences in short term retention of rapidly changing information Journal of Experimental Psychology 55 4 352 358 doi 10 1037 h0043688 PMID 13539317 Lawlor Savage L Goghari V M 2016 Dual N Back Working Memory Training in Healthy Adults A Randomized Comparison to Processing Speed Training PLOS ONE 11 4 e0151817 Bibcode 2016PLoSO 1151817L doi 10 1371 journal pone 0151817 PMC 4820261 PMID 27043141 Jaeggi Susanne M Seewer Ria Nirkko Arto C Eckstein Doris Schroth Gerhard Groner Rudolf Gutbrod Klemens June 2003 Does excessive memory load attenuate activation in the prefrontal cortex Load dependent processing in single and dual tasks functional magnetic resonance imaging study NeuroImage 19 2 210 225 doi 10 1016 S1053 8119 03 00098 3 PMID 12814572 S2CID 13807924 Roizen Michael Oz Mehmet 2018 01 12 Playing brain games may help sharpen your skills Houston Chronicle Hearst Retrieved 10 November 2018 a b c Kane Michael J Conway Andrew R A Miura Timothy K Colflesh Gregory J H May 2007 Working memory attention control and the n back task A question of construct validity PDF Journal of Experimental Psychology Learning Memory and Cognition 33 3 615 622 doi 10 1037 0278 7393 33 3 615 PMID 17470009 a b c d Jaeggi S M Buschkuehl M Perrig W J amp Meier B 2010 The concurrent validity of the N back task as a working memory measure Memory 18 4 394 412 doi 10 1080 09658211003702171 PMID 20408039 S2CID 42767249 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Jaeggi Susanne M Buschkuehl Martin Jonides John Perrig Walter J 13 May 2008 Improving fluid intelligence with training on working memory Proceedings of the National Academy of Sciences of the United States of America 105 19 6829 6833 Bibcode 2008PNAS 105 6829J doi 10 1073 pnas 0801268105 PMC 2383929 PMID 18443283 Alexis Madrigal ForgetBrain Age Researchers Develop Software That Makes You Smarter Wired April 2008 Moody D E 2009 Can intelligence be increased by training on a task of working memory Intelligence 37 4 327 328 doi 10 1016 j intell 2009 04 005 a b Jaeggi Susanne M Studer Luethi Barbara Buschkuehl Martin Su Yi Fen Jonides John Perrig Walter J 2010 The relationship between n back performance and matrix reasoning implications for training and transfer Intelligence 38 6 625 635 doi 10 1016 j intell 2010 09 001 Jaeggi S M Buschkuehl M Jonides J Shah P 21 June 2011 Short and long term benefits of cognitive training Proceedings of the National Academy of Sciences 108 25 10081 10086 Bibcode 2011PNAS 10810081J doi 10 1073 pnas 1103228108 PMC 3121868 PMID 21670271 Redick T S Shipstead Z Harrison T L Hicks K L Fried D E Hambrick D Z Kane M J Engle R W 2012 No Evidence of Intelligence Improvement After Working Memory Training A Randomized Placebo Controlled Study Journal of Experimental Psychology General 142 2 359 379 doi 10 1037 a0029082 PMID 22708717 S2CID 15117431 Chooi W T Thompson L A 2012 Working memory training does not improve intelligence in healthy young adults Intelligence 40 6 531 542 doi 10 1016 j intell 2012 07 004 Au Jacky Sheehan Ellen Tsai Nancy Duncan Greg J Buschkuehl Martin Jaeggi Susanne M April 2015 Improving fluid intelligence with training on working memory a meta analysis Psychonomic Bulletin amp Review 22 2 366 377 doi 10 3758 s13423 014 0699 x PMID 25102926 S2CID 10433282 Bogg Tim Lasecki Leanne 22 January 2015 Reliable gains Evidence for substantially underpowered designs in studies of working memory training transfer to fluid intelligence Frontiers in Psychology 5 1589 doi 10 3389 fpsyg 2014 01589 PMC 4010796 PMID 25657629 Soveri Anna Antfolk Jan Karlsson Linda Salo Benny Laine Matti 1 August 2017 Working memory training revisited A multi level meta analysis of n back training studies Psychonomic Bulletin amp Review 24 4 1077 1096 doi 10 3758 s13423 016 1217 0 PMID 28116702 Soveri Anna Antfolk Jan Karlsson Linda Salo Benny Laine Matti 1 August 2017 Working memory training revisited A multi level meta analysis of n back training studies Psychonomic Bulletin amp Review 24 4 1077 1096 doi 10 3758 s13423 016 1217 0 PMID 28116702 Li Wenjuan Zhang Qiuzhu Qiao Hongying Jin Donggang Ngetich Ronald K Zhang Junjun Jin Zhenlan Li Ling 4 February 2021 Dual n back working memory training evinces superior transfer effects compared to the method of loci Scientific Reports 11 1 3072 Bibcode 2021NatSR 11 3072L doi 10 1038 s41598 021 82663 w PMC 7862396 PMID 33542383 a b c Hurley Dan 2012 10 31 The Brain Trainers The New York Times Retrieved 9 November 2012 a b c Hurley Dan 2012 04 18 Can You Make Yourself Smarter The New York Times Retrieved 9 November 2012 Daniel Willingham 2012 06 19 New study Fluid intelligence not trainable Retrieved 2013 04 22 Monica Melby Lervag amp Charles Hulme 2013 Is Working Memory Training Effective A Meta Analytic Review PDF Developmental Psychology 49 2 270 291 doi 10 1037 a0028228 PMID 22612437 S2CID 12370312 Owen Adrian M McMillan Kathryn M Laird Angela R Bullmore Ed 2005 N back working memory paradigm A meta analysis of normative functional neuroimaging studies Human Brain Mapping 25 1 46 59 doi 10 1002 hbm 20131 PMC 6871745 PMID 15846822 External links EditN back FAQ Retrieved from https en wikipedia org w index php title N back amp oldid 1167964024, wikipedia, wiki, book, books, library,

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