fbpx
Wikipedia

Interference theory

December 18, 2023

The interference theory is a theory regarding human memory. Interference occurs in learning. The notion is that memories encoded in long-term memory (LTM) are forgotten and cannot be retrieved into short-term memory (STM) because either memory could interfere with the other.[1] There is an immense number of encoded memories within the storage of LTM. The challenge for memory retrieval is recalling the specific memory and working in the temporary workspace provided in STM.[1] Retaining information regarding the relevant time of encoding memories into LTM influences interference strength.[1] There are two types of interference effects: proactive and retroactive interference.

History edit

John A. Bergström is credited with conducting the first study regarding interference in 1892. His experiment was similar to the Stroop task and required subjects to sort two decks of cards with words into two piles. When the location was changed for the second pile, sorting was slower, demonstrating that the first set of sorting rules interfered with learning the new set.[2] German psychologists continued in the field with Georg Elias Müller and Pilzecker in 1900 studying retroactive interference. To the confusion of Americans at a later date, Müller used "associative Hemmung" (inhibition) as a blanket term for retroactive and proactive inhibition.[2]

The next major advancement came from American psychologist Benton J. Underwood in 1957. Underwood revisited the classic Ebbinghaus learning curve and found that most of the forgetting was due to interference from previously learned materials.[3]

In 1924, John G. Jenkins and Karl Dallenbach showed that everyday experiences can interfere with memory, employing an experiment that showed that retention was better throughout sleep than over the same amount of time devoted to the activity.[4] The United States again made headway in 1932 with John A. McGeoch suggesting that decay theory should be replaced by an interference theory.[4] The most recent major paradigm shift came when Underwood proposed that proactive inhibition is more important or meaningful than retroactive inhibition in accounting for forgetting.[5]

Proactive interference edit

Proactive interference is the interference of older memories with the retrieval of newer memories.[1] Of the two effects of interference theory, proactive interference is the less common and less problematic type of interference compared to retroactive interference.[1] Previously, it had been hypothesized that forgetting working memories would be nonexistent if not for proactive interference.[6]

Context edit

Proactive interference build-up occurs with memories being learned in similar contexts. A common example is observing previous motor abilities from one skill interfering with a new set of motor abilities being learned in another skill from the initial.[1] Proactive interference is also associated with poorer list discrimination, which occurs when participants are asked to judge whether an item has appeared on a previously learned list.[7] If the items or pairs to be learned are conceptually related to one another, then proactive interference has a greater effect.[8] Delos Wickens discovered that proactive interference build-up is released when there is a change to the category of items being learned, leading to increased processing in STM.[9] Presenting new skills later in practice can considerably reduce proactive interference desirable for participants to have the best opportunity to encode fresh new memories into LTM.[1]

 
Prefrontal cortex

Brain structures edit

The leading experimental technique for studying proactive interference in the brain is the “recent-probes” task. Initially, this is when participants must commit a set of items to memory. They then ask them to recall a specific item. Assessing them is shown by a probe.[10] Thus, using recent-probes task and fMRIs, the brain mechanisms involved in resolving proactive interference identify as the ventrolateral prefrontal cortex and the left anterior prefrontal cortex.[11]

Research edit

With lists edit

Researchers have studied the joint influence of proactive and retroactive interference using a list of items to be remembered. As expected, the recall was hampered by increasing the number of items in a given list.[12] Proactive interference also affected learning when dealing with multiple lists. Researchers had participants learn a list of ten paired adjectives.[13] The experimenters would consider a list to be learned if the participant could correctly recall eight of the ten items. After two days, participants could recall close to 70% of the items. However, those asked to memorize a new list the day after learning the first one had a recall of only 40%. Those who learned a third list recalled 25% of the items. Therefore, proactive interference affected the correct recall of the last list learned, because of the previous one, or two. In terms of forgetting, the effect of proactive interference was supported by further studies using different methods.[14] The effect of proactive interference was reduced when the test was immediate and when the new target list was different from the previously learned lists.

Span performance edit

Span performance refers to working memory capacity. It is hypothesized that span performance is limited in language comprehension, problem-solving, and memory.[15] Proactive Interference affects susceptibility to span performance limitations, as span performance in later experimental trials were worse than performance in earlier trials.[clarification needed][15][16] With single tasks, proactive interference had less effect on participants with high working memory spans than those with low ones. With dual tasks, both types were similarly susceptible.

To differ, others have tried to investigate the relation of proactive interference when cued to forget. Turvey and Wittlinger designed an experiment to examine the effects of cues such as "not to remember" and "not to recall" with currently learned material. While "not to remember" had a significant effect in reducing proactive interference, cued to "not to recall" previously encoded and stored information did not significantly reduce the effect. Therefore, these associated cues do not directly control the potential effect of proactive interference on short-term memory span.[clarification needed][17]

Proactive interference has shown an effect during the learning phase in terms of stimuli at the acquisition and retrieval stages with behavioral tasks for humans, as found by Castro, Ortega, and Matute.[18] With 106 participants, they investigated two main questions: if two cues are learned as predictors of the same outcome (one after the other), would the second-cue outcome association be retarded? And secondly, once the second association is fully learned, will there still be an effect on subsequent trials? The research, as predicted, showed retardation and impairment in associations, due to the effect of Proactive Interference.

Retroactive interference edit

Retroactive interference, also known as Retroactive inhibition, is the interference of newer memories with the retrieval of older memories.[1] In other words, subsequently learned memories directly contributes to the forgetting of previously learned memories. The effect of retroactive interference takes place when any type of skill has not been rehearsed over long periods.[1] Of the two effects of interference theory, retroactive interference is considered the more common and more problematic type of interference compared to proactive interference.[1]

RI is a classic paradigm that was first officially termed by Muller.[19] These memory research pioneers demonstrated that filling the retention interval (defined as the amount of time that occurs between the initial learning stage and the memory recall stage) with tasks and material caused significant interference effects with the primary learned items.

As compared to proactive interference, retroactive interference may have larger effects because there is not only competition involved but also unlearning.[20]

Iconic research edit

Modified (free) recall edit

Briggs's (1954) study modeled McGeoch's work on interference by setting the stage for a classic design of retroactive interference. In his study, participants were asked to learn 12 paired associates to a criterion of 100%. To ensure parsimony, these pairs can be labeled as A1-B1-, A2-B2-...A I -B I (also called AB/AC paradigm). Briggs used a "modified free recall" technique by asking participants to recall an item when cued with B I . Over multiple anticipation trials, participants learned B I items through the prompt of B I items. After perfecting A I - B I learning, participants were given a new list of paired associates to learn; however B I items were replaced with C I items (now given a list of A1-C1-, A2-C2-...A I -C I ). As the learning of A I -C I pairs increased, the learning of A I -B I pairs decreased. Eventually recalling the C I items exceeded the recall of the B I items, representing the phenomenon of retroactive interference. A significant part of Briggs's (1954) study was that once participants were tested after a delay of 24 hours the Bi responses spontaneously recovered and exceeded the recall of the Ci items. Briggs explained the spontaneous recovery illustration as an account of A I -B I items competing with A I -C I items or, as McGeoch would define it: "a resultant [of] momentary dominance".[21]

Modified modified free recall edit

J.M. Barnes and B.J. Underwood (1959) expanded Briggs's (1954) study by implementing a similar procedure. The main difference in this study, however, was that, unlike Briggs's (1954) "modified free recall" (MFR) task where participants gave one-item responses, Barnes and Underwood asked participants to give both List 1 and List 2 responses to each cued recall task. Participants’ ability to recall both items was termed the "modified modified free recall" (MMFR) technique. Equivocally to Briggs's (1954) results, RI occurred when C I recalled responses gradually came to exceed B I responses. Barnes and Underwood argued that because there was "unlimited recall time" to produce multiple-item responses, the fact that A I -C I responses still trumped A I -B I responses represented an account of unlearning.[22]

Notable research concepts edit

Forgetting edit

Since German psychologist H. Ebbinghaus (1885, 1913) made the first scientific studies on forgetting in the late nineteenth century, further research on the rate of forgetting presented information was found to be steep.[1] While a variety of factors play a role in affecting the rate of forgetting, the general conclusion made is that 70% of originally recalled information is initially forgotten in 24 hours after a session of practice, followed by 80% of information forgotten within 48 hours.[1] Afterwards, forgetting diminishes at a gradual rate, which leaves about 5% to 10% of retained information available for learners to access from practice until the next session.[1] Despite the numbers, retroactive interference can be reduced significantly by implementing over-learning practice schedules, periodic refresh sessions when practicing skills, and skill rehearsal time for the inactive periods of practicing.[1] Continuous skills are more resistant to the rate of forgetting compared to discrete skills, which indicates that the types of skills being practiced and retroactive interference significantly interact with one another.[1]

Theories edit

The phenomenon of retroactive interference is highly significant in the study of memory as it has sparked a historical and ongoing debate in regards to whether the process of forgetting is due to the interference of other competing stimuli, or rather the unlearning of the forgotten material. The important conclusion one may gain from RI is that "forgetting is not simply a failure or weakness of the memory system" (Bjork, 1992), but rather an integral part of our stored knowledge repertoire. Although modern cognitive researchers continue to debate the actual causes of forgetting (e.g., competition vs. unlearning), retroactive interference implies a general understanding that additional underlying processes play a role in memory.

Competition edit

A standard explanation for the cause of RI is Competition. New associations compete with older associations and the more recent association would win out making it impossible to remember earlier associations. Spontaneous Recovery in MFR supports the claim of competition since after a rest period participants spontaneously remembered original pair associations that they were not able to remember right after the second test.[21]

Associative unlearning edit

The associative unlearning hypothesis explains RI by saying that new associations replace the old associations in memory causing the participant to forget the initial associations. Barnes and Underwood argued that A I -C I responses still outnumber A I -B I responses after the delay period supports the Associative Unlearning Hypothesis over Competition.[22]

Brain structures edit

Retroactive Interference has been localized to the left anterior ventral prefrontal cortex by magnetoencephalography (MEG) studies investigating Retroactive Interference and working memory in elderly adults.[23] The study found that adults 55–67 years of age showed less magnetic activity in their prefrontal cortices than the control group. Executive control mechanisms are located in the frontal cortex and deficits in working memory show changes in the functioning of this brain area.[23]

Research edit

Pitch perception edit

Retroactive Interference has also been investigated using pitch perception as the learning medium.[24] The researcher found that the presentation of subsequent stimuli in succession causes a decrease in recalled accuracy.[24] Massaro found that the presentation of successive auditory tones, confused perceptual short-term memory, causing Retroactive Interference as the new tone inhibits the retrieval of previously heard tones.[24]

Motor movement edit

Wohldmann, Healey, and Bourne found that Retroactive Interference also affects the retention of motor movements.[25] Researchers found that retroactive interference affects the performance of old motor movements when newly acquired motor movements are practiced.[25] Physical practice of newly executed motor movements decreased the retention and recall of previously learned movements.[25] Despite the retroactive interference noted by Wohldmann et al., researchers noted that mental practice decreased the amount of retroactive interference, suggesting that mental practice is more flexible and durable over time.[25] This study of the superiority effect of physical practice is similar to the Word Superiority Effect made famous by Cattell.[26]

Word tasks edit

Retroactive Interference increases when the items are similar, therefore increasing association between them as shown by spreading activation.[27] Barnes and Underwood found that when participants in the experimental condition were presented with two similar word lists, the recollection of the first-word list decreased with the presentation of the second-word list.[27] This finding contrasts the control condition as they had little Retroactive Inference when asked to recall the first-word list after a period of unrelated activity.[27]

Output interference edit

Output Interference occurs when the initial act of recalling specific information interferes with the retrieval of the original information.[28] An example scenario in which Output Interference might occur would be if one had created a list of items to purchase at a grocery store, but then, neglected to take the list when leaving home. The act of remembering a couple of items on that list decreases the probability of remembering the other items on that list.

Research edit

Short-term memory edit

Henry L. Roediger III and Schmidt found that the act of retrieval can serve as the source of the failure to remember, using multiple experiments that tested the recall of categorized and paired associative lists.[29] Three experiments were carried out where subjects were first presented with category lists, and then, asked to recall the items in the list after being shown the category name as a cue.[29] The further the test position from the category resulted in a decline of the recall of words. A fourth experiment revealed that only recent items were present in output interference in paired associative lists.[29]

 
Hippocampus highlighted in blue
 
Amygdala highlighted in red

Long-term memory edit

Smith found that if categories with corresponding items were successfully recalled, a systematic decline would occur when recalling the items in a category across the output sequence.[30] He conducted multiple experiments to determine the input conditioned necessary to produce Output Interference.[30] In his first experiment word recall per category was greater at 60 sec than 30 sec when taking the last input category out to prevent recency effect.[30] In his second experiment he changed the instructions, words used, and nature of the retention test, and showed with the recognition procedure, there was Output Interference but the effect was limited to the first three output positions.[30] Even if retrieving items is necessary for a recall, it is not crucial to performance in a recognition tack.[30] Recall of the organized information from long-term memory hurt the following item recalled.[30] In long-term memory, Smith suggests that Output Interference has effects on extra-core material, which is represented as contextual information, rather than the core material, which is highly available as a result of organization.[30]

Effects of age edit

In both short-term memory and long-term memory Smith measured output interference in three age groups (aged 20–39, 40–59, 60–80 years).[31] The results of recall performance revealed significant differences due to age where the older group recalled fewer items than the middle group who recalled fewer items than the youngest group.[31] Overall Smith concluded that memory decline appears with increased age with long-term memory forgetting rather than short-term memory forgetting and short-term memory was unaffected by age. However, output interference was unable to explain the memory deficit seen in older subjects.[31]

Recent research of adults free recall and cognitive triage displayed similar findings of recall performance being poorer in older adults compared to younger adults.[32] Although it was also indicated that older adults had an increased susceptibility to output interference compared to younger adults and the difference increased as additional items were recalled.[32]

Similar theories edit

Decay theory edit

Decay theory outlines that memories weaken over time despite consolidation and storage.[33] This is to say that although you remember a specific detail, over time you may have greater difficulty retrieving the detail you encoded. It has been suggested that the time interval between encoding and retrieval determines the accuracy of recall.[34]

A practical example of decay theory is seen in the financial sector. If you open a bank account and do not deposit or withdraw money from the account, after some time, the bank will render the account dormant. The owner of the account, then, has to reopen the account for it to remain active. The bank account (the memory) is rendered dormant (the memory weakened) over time if there is no activity on the account (if the memory is not retrieved after some time).

Similarities edit

Decay theory is similar to interference theory in the way that old memories are lost over time. Memories are lost in Decay Theory by the passing of time. In Interference Theory, memories are lost due to newly acquired memories. Both Decay and Interference Theories are involved in psychological theories of forgetting.

Differences edit

Decay and interference theory differ in that Interference Theory has a second stimulus that impedes the retrieval of the first stimulus. Decay Theory is caused by time itself. Decay Theory is a passive method of forgetting as no interference is produced.[35] Interference Theory is an active process because the act of learning new information directly impedes the recollection of previously stored information.

Dual task interference edit

Dual-task interference is a kind of interference that occurs when two tasks are attempted simultaneously. Harold Pashler wrote a paper summing up the theoretical approaches to dual-task interference.[36] The basis of his research looked at when one attempts two or more tasks at the same time, why in some cases is one successful in completing their task and in other cases not.[36]

Capacity sharing edit

Pashler proposed that the brain contains one mental entity where all tasks must be carried out.[36] A real-life example of this could be going to the dentist; the only place to have cavities filled is at a dentist's office. When the brain is attempting to complete two tasks, both tasks are present in the same mind area and compete for processing ability and speed.[36] This relates to interference theory as the tasks compete. Interference theory says that the learning of new information decreases the retrieval of older information, and this is true for dual-task interference. The dominant task of the two inhibits the other task from completion. It is presumed that the dominant task would be a new task as a previously accomplished task would already be stored in memory. The new task would, then, be completed successfully as more mental effort is required to complete a novel task, and the previously completed task would not be completed as the new task dominated the mental capacity. Just as Interference Theory states, the completion of new tasks inhibits the completion of previously completed tasks due to capacity sharing.

Cross talk models edit

Cross-talk is the communication between sensory inputs, processing, and the thoughts of the individual.[36] The theory is that if two processes are being activated, and they are not similar in any way (making cookies and going on vacation), the brain will be confused as separate cognitive areas are being activated, and there is conflicting communication between the two.[36] Contrastingly, if the two processes are similar (making cookies and pouring milk), there will be less crosstalk and more productive and uninterrupted cognitive processing.[36]

Crosstalk is used by engineers to discuss the degradation of communication channels due to context dependence.[36]

Navon and Miller claim that Dual-Task Interference is caused by an outcome conflict, which is a result of one task producing, "outputs, throughputs, or side effects that are harmful to the processing of the [another task]".[37] This is the concept of Interference Theory. The thoughts, outputs, and side effects of one task either affect the previous or subsequent recall.

Neurobiology edit

 
MRI of a human brain

Event-related fMRI studies edit

 
Caudate Nucleus highlighted in red

Stroop and Simon task edit

The performance of Stroop and Simon tasks were monitored on 10 healthy young adults using magnetic resonance image (MRI) scanning.[38] Functional images were acquired at specific time intervals during each subject's scan.[38] Brain activation during the Stroop and Simon task was remarkably similar including anterior cingulate, supplementary motor cortex, visual association cortex, inferior temporal cortex, inferior parietal cortex, inferior frontal cortex, dorsolateral prefrontal cortex, and caudate nuclei.[38] Interference effects in the Stroop and Simon tasks activate similar brain regions at similar time distributions.[38]

Application edit

Advertising edit

It has been demonstrated that recall will be lower when consumers have afterward seen an ad for a competing brand in the same product class. Exposure to later similar advertisements does not cause interference for consumers when brands are rated on purchasing likelihood. This shows that information processing objective can moderate the effects of interference of competitive advertising. Competitive brand advertising not only interferes with consumer recall of advertising in the past but also interferes with learning new distinctive brand information in the future.[39]

Reducing competitive ad interference edit

Repetition improves brand name recall when presented alone. When competitive advertising was presented, it was shown that repetition provided no improvement in brand name recall over a single exposure. The competitive ads interfered with the added learning from repetition. However, when the target brand name was shown using varying ad executions interference was reduced. Presenting ads in multi-modalities (visual, auditory) will reduce possible interference because there are more associations or paths to cue recall than if only one modality had been used. This is the principle of multimedia learning. Also, interference is increased when competing ads are presented in the same modality. Therefore, by presenting ads in multiple modalities, the chance that the target brand has unique cues is increased.[40]

See also edit

References edit

  1. ^ a b c d e f g h i j k l m n o Edwards, W. H. (2010). Motor Learning and Control: From Theory to Practice. Belmont, CA: Cengage Learning.
  2. ^ a b Rieber, Robert W.; Salzinger, Kurt D., eds. (1998). Psychology theoretical-historical perspectives (2nd ed.). Washington, DC: American Psychological Association. ISBN 978-1-55798-524-8.
  3. ^ Underwood, B. J. (1957). Interference and forgetting. Psychological Review, 64(1), 49.
  4. ^ a b Hilgard, Ernest R. (1987). Psychology in America: a historical survey. San Diego: Harcourt Brace Jovanovich. ISBN 978-0155392021.
  5. ^ Neel, Ann (1977). Theories of Psychology: a handbook (Revised and enlarged ed.). Cambridge: Schenkman Publishing Company. ISBN 9780470989685.
  6. ^ Keppel, Geoffrey; Underwood, Benton J. (1 October 1962). "Proactive inhibition in short-term retention of single items". Journal of Verbal Learning and Verbal Behavior. 1 (3): 153–161. doi:10.1016/S0022-5371(62)80023-1.
  7. ^ Postman, Leo; Keppel, Geoffrey (1 January 1977). "Conditions of cumulative proactive inhibition". Journal of Experimental Psychology: General. 106 (4): 376–403. doi:10.1037/0096-3445.106.4.376.
  8. ^ Underwood, Benton J. (1 January 1969). "Attributes of memory". Psychological Review. 76 (6): 559–573. doi:10.1037/h0028143.
  9. ^ Wickens, D.; Moody, M.; Shearer, P. (1976). "Lack of Memory for Unattended Items in Dichotic Listening". Journal of Experimental Psychology. 2 (6): 712–719. doi:10.1037/0278-7393.2.6.712. PMID 1010994.
  10. ^ Jonides, J.; Nee, D.E. (2006). "Brain mechanisms of proactive interference in working memory". Neuroscience. 139 (1): 181–193. doi:10.1016/j.neuroscience.2005.06.042. PMID 16337090. S2CID 18746818.
  11. ^ Nee, DE; Jonides, J; Berman, MG (December 2007). "Neural mechanisms of proactive interference-resolution". NeuroImage. 38 (4): 740–51. doi:10.1016/j.neuroimage.2007.07.066. PMC 2206737. PMID 17904389.
  12. ^ Murdock, Bennet B. (1 November 1963). "Short-term memory and paired-associate learning". Journal of Verbal Learning and Verbal Behavior. 2 (4): 320–328. doi:10.1016/S0022-5371(63)80100-0.
  13. ^ Greenberg, R.; Underwood, B.J. (August 1950). "Retention as a function of stage of practice". Journal of Experimental Psychology. 40 (4): 452–7. doi:10.1037/h0062147. PMID 15436941.
  14. ^ Underwood, Benton J. (1 January 1957). "Interference and forgetting". Psychological Review. 64 (1): 49–60. doi:10.1037/h0044616. PMID 13408394.
  15. ^ a b May, CP; Hasher, L; Kane, MJ (September 1999). "The role of interference in memory span" (PDF). Memory and Cognition. 27 (5): 759–67. doi:10.3758/bf03198529. PMID 10540805.
  16. ^ Kane, Michael J.; Engle, Randall W. (1 January 2000). "Working-memory capacity, proactive interference, and divided attention: Limits on long-term memory retrieval" (PDF). Journal of Experimental Psychology: Learning, Memory, and Cognition. 26 (2): 336–358. doi:10.1037/0278-7393.26.2.336. PMID 10764100.
  17. ^ Turvey, M. T.; Wittlinger, Roy P. (1 January 1969). "Attenuation of proactive interference in short-term memory as a function of cueing to forget". Journal of Experimental Psychology. 80 (2, Pt.1): 295–298. doi:10.1037/h0027283.
  18. ^ Castro, Leyre; Ortega, Nuria; Matute, Helena (2002). "Proactive interference in human predictive learning". International Journal of Comparative Psychology. 15: 55–68. CiteSeerX 10.1.1.149.8082. doi:10.46867/C4DG6B. S2CID 3908660.
  19. ^ Muller, G. E.; Pilzecker, A. (1990). "Experimental contributions to memory theory". Zeitschrift für Psychologie Eganzungsband. 1: 1–300.
  20. ^ Melton, A.W.; Lackum, W. J. von (1941). "Retroactive and proactive inhibition in retention: evidence for a two-factor theory of retroactive inhibition". American Journal of Psychology. 54 (2): 157–173. doi:10.2307/1416789. JSTOR 1416789.
  21. ^ a b Briggs, G. E. (1954). "Acquisition, extinction, and recovery functions in retroactive inhibition". Journal of Experimental Psychology. 47 (5): 285–293. doi:10.1037/h0060251. PMID 13163344.
  22. ^ a b Barnes, J. M; Underwood, B. J. (1959). "Fate of first-list associations in transfer theory". Journal of Experimental Psychology. 58 (2): 97–105. doi:10.1037/h0047507. PMID 13796886.
  23. ^ a b Solesio, E.; Lorenzo-López, L.; Campo, P.; López-Frutos, J.M.; Ruiz-Vargas, J.M.; Maestú, F. (2009). "Retroactive interference in normal aging: A magnetoencephalography study". Neuroscience Letters. 456 (2): 85–88. doi:10.1016/j.neulet.2009.03.087. PMID 19429139. S2CID 6152036.
  24. ^ a b c Massaro, D.W. (1970). "Retroactive Interference in Short Term Memory for Pitch". Journal of Experimental Psychology. 83 (1): 32–39. doi:10.1037/h0028566. PMID 5436482.
  25. ^ a b c d Wohldmann, E.L.; Healy, A.F.; Bourne, Jr. (2008). "A mental practice superiority effect: Less retroactive interference and more transfer than physical practice". Journal of Experimental Psychology: Learning, Memory, and Cognition. 34 (4): 823–833. doi:10.1037/0278-7393.34.4.823. PMID 18605871.
  26. ^ Cattell, J. M. (1886). "The time it takes to see and name objects". Mind. 11 (41): 63–65. doi:10.1093/mind/os-XI.41.63.
  27. ^ a b c Barnes, J.M.; Underwood, B.J. (1959). "Fate of first list association in transfer theory". Journal of Experimental Psychology. 58 (2): 97–105. doi:10.1037/h0047507. PMID 13796886.
  28. ^ Tulving, E.; Arbuckle, T.Y. (1966). "Input and output interference in short-term associative memory". Journal of Experimental Psychology. 72 (1): 145–150. doi:10.1037/h0023344. PMID 5967720.
  29. ^ a b c Roediger, H.L.; III; Schmidt, S.R. (1980). "Output interference in the recall of categorized and paired associative lists". Journal of Experimental Psychology: Human Learning and Memory. 6: 91–105. doi:10.1037/0278-7393.6.1.91. S2CID 39396769.
  30. ^ a b c d e f g Smith, A.D. (1971). "Output interference and organized recall from long-term memory". Journal of Verbal Learning and Verbal Behavior. 10 (4): 400–408. doi:10.1016/s0022-5371(71)80039-7.
  31. ^ a b c Smith, A.D. (1975). "Aging and Interference with Memory". Journal of Gerontology. 30 (3): 319–325. doi:10.1093/geronj/30.3.319. PMID 1120895.
  32. ^ a b Marche, T.A.; Howe, M.L.; Lane, D.G.; Owre, K.P.; Briere, J.L. (2009). "Invariance of Cognitive Triage in the Development of Recall in Adulthood" (PDF). Memory. 17 (5): 518–527. doi:10.1080/09658210902939355. PMID 19468958. S2CID 13770995.
  33. ^ Baddeley, A., Eysenck, M.W. & Anderson, A.C. (2009). Memory. New York, NY: Psychology Press
  34. ^ Brown, J (1958). "Some Test of the Decay Theory of Immediate Memory". Quarterly Journal of Experimental Psychology. 10: 12–21. doi:10.1080/17470215808416249. S2CID 144071312.
  35. ^ Grossberg, S. (1987) The Adaptive Brain: Vision, Speech, Language and Motor Control. Amsterdam, Netherlands: Elsevier
  36. ^ a b c d e f g h Pashler, H. (1994). "Dual-Task Interference in Simple Tasks: Data and Theory". Psychological Bulletin. 116 (2): 220–244. CiteSeerX 10.1.1.324.4916. doi:10.1037/0033-2909.116.2.220. PMID 7972591.
  37. ^ Navon, D; Miller, J.O. (1987). (PDF). Journal of Experimental Psychology: Human Perception and Performance. 13 (3): 438–448. doi:10.1037/0096-1523.13.3.435. PMID 2958592. S2CID 31522771. Archived from the original (PDF) on 2020-02-20.
  38. ^ a b c d Peterson, B.S.; Kane, M.J.; Alexander, G.M.; Lacadie, C.; Skudlarski, P.; Leung, H.C.; Mat, J.; Gore, J.C. (2002). "An event-related functional MRI study comparing interference effects in the Simon and Stroop tasks". Cognitive Brain Research. 13 (3): 427–440. doi:10.1016/s0926-6410(02)00054-x. PMID 11919006.
  39. ^ Burke, Raymond; Skrull, Thomas (1988). "Competitive Interference and Consumer Memory for Advertising". Journal of Consumer Research. 15: 55–68. doi:10.1086/209145.
  40. ^ Unnava, H. Rao (1994). "Reducing Competitive Ad Interference". Journal of Marketing Research. 31 (3): 403–411. doi:10.2307/3152227. JSTOR 3152227.
  • Barnes, J.M.; Underwood, B.J. (1959). "Fate" of first-list associations in transfer theory". Journal of Experimental Psychology. 58 (2): 97–105. doi:10.1037/h0047507. PMID 13796886.
  • Bjork, R. A. (1992). Interference and memory. In L. R. Squire (Ed.), Encyclopedia of learning and memory (pp. 283–288). New York: Macmillan.
  • Briggs, G.E. (1954). "Acquisition, extinction, and recovery functions in retroactive inhibition". Journal of Experimental Psychology. 47 (5): 285–293. doi:10.1037/h0060251. PMID 13163344.
  • McGeoch, J.A. (1932). "Forgetting and the law of disuse". Psychological Review. 39 (4): 352–370. doi:10.1037/h0069819.
  • Melton, A.W.; Irwin, J.M. (1940). "The influence of degree of interpolated learning on retroactive inhibition and the overt transfer of specific responses". The American Journal of Psychology. 53 (2): 611–641. doi:10.2307/1417415. JSTOR 1417415.
  • Müller, G.E.; Pilzecker, A. (1900). "Experimentelle beiträge zur lehre von gedächtnis". Zeitschrift für Psychologie. 1: 1–300.
  • Salon, Heather (2011). "Dave Farrow: mind over memory". {{cite journal}}: Cite journal requires |journal= (help)
  • Underwood, B.J. (1948). "'Spontaneous recovery' of verbal associations". Journal of Experimental Psychology. 38 (4): 429–439. doi:10.1037/h0059565. PMID 18874601.

December 18, 2023
interference, theory, this, article, multiple, issues, please, help, improve, discuss, these, issues, talk, page, learn, when, remove, these, template, messages, this, article, technical, most, readers, understand, please, help, improve, make, understandable, . This article has multiple issues Please help improve it or discuss these issues on the talk page Learn how and when to remove these template messages This article may be too technical for most readers to understand Please help improve it to make it understandable to non experts without removing the technical details November 2015 Learn how and when to remove this template message This article s tone or style may not reflect the encyclopedic tone used on Wikipedia See Wikipedia s guide to writing better articles for suggestions November 2015 Learn how and when to remove this template message Learn how and when to remove this template message The interference theory is a theory regarding human memory Interference occurs in learning The notion is that memories encoded in long term memory LTM are forgotten and cannot be retrieved into short term memory STM because either memory could interfere with the other 1 There is an immense number of encoded memories within the storage of LTM The challenge for memory retrieval is recalling the specific memory and working in the temporary workspace provided in STM 1 Retaining information regarding the relevant time of encoding memories into LTM influences interference strength 1 There are two types of interference effects proactive and retroactive interference Contents 1 History 2 Proactive interference 2 1 Context 2 2 Brain structures 2 3 Research 2 3 1 With lists 2 3 2 Span performance 3 Retroactive interference 3 1 Iconic research 3 1 1 Modified free recall 3 1 2 Modified modified free recall 3 2 Notable research concepts 3 2 1 Forgetting 3 3 Theories 3 3 1 Competition 3 3 2 Associative unlearning 3 4 Brain structures 3 5 Research 3 5 1 Pitch perception 3 5 2 Motor movement 3 5 3 Word tasks 4 Output interference 4 1 Research 4 1 1 Short term memory 4 1 2 Long term memory 4 1 3 Effects of age 5 Similar theories 5 1 Decay theory 5 1 1 Similarities 5 1 2 Differences 5 2 Dual task interference 5 2 1 Capacity sharing 5 2 2 Cross talk models 6 Neurobiology 6 1 Event related fMRI studies 6 1 1 Stroop and Simon task 7 Application 7 1 Advertising 7 1 1 Reducing competitive ad interference 8 See also 9 ReferencesHistory editJohn A Bergstrom is credited with conducting the first study regarding interference in 1892 His experiment was similar to the Stroop task and required subjects to sort two decks of cards with words into two piles When the location was changed for the second pile sorting was slower demonstrating that the first set of sorting rules interfered with learning the new set 2 German psychologists continued in the field with Georg Elias Muller and Pilzecker in 1900 studying retroactive interference To the confusion of Americans at a later date Muller used associative Hemmung inhibition as a blanket term for retroactive and proactive inhibition 2 The next major advancement came from American psychologist Benton J Underwood in 1957 Underwood revisited the classic Ebbinghaus learning curve and found that most of the forgetting was due to interference from previously learned materials 3 In 1924 John G Jenkins and Karl Dallenbach showed that everyday experiences can interfere with memory employing an experiment that showed that retention was better throughout sleep than over the same amount of time devoted to the activity 4 The United States again made headway in 1932 with John A McGeoch suggesting that decay theory should be replaced by an interference theory 4 The most recent major paradigm shift came when Underwood proposed that proactive inhibition is more important or meaningful than retroactive inhibition in accounting for forgetting 5 Proactive interference editProactive interference is the interference of older memories with the retrieval of newer memories 1 Of the two effects of interference theory proactive interference is the less common and less problematic type of interference compared to retroactive interference 1 Previously it had been hypothesized that forgetting working memories would be nonexistent if not for proactive interference 6 Context edit Proactive interference build up occurs with memories being learned in similar contexts A common example is observing previous motor abilities from one skill interfering with a new set of motor abilities being learned in another skill from the initial 1 Proactive interference is also associated with poorer list discrimination which occurs when participants are asked to judge whether an item has appeared on a previously learned list 7 If the items or pairs to be learned are conceptually related to one another then proactive interference has a greater effect 8 Delos Wickens discovered that proactive interference build up is released when there is a change to the category of items being learned leading to increased processing in STM 9 Presenting new skills later in practice can considerably reduce proactive interference desirable for participants to have the best opportunity to encode fresh new memories into LTM 1 nbsp Prefrontal cortexBrain structures edit The leading experimental technique for studying proactive interference in the brain is the recent probes task Initially this is when participants must commit a set of items to memory They then ask them to recall a specific item Assessing them is shown by a probe 10 Thus using recent probes task and fMRIs the brain mechanisms involved in resolving proactive interference identify as the ventrolateral prefrontal cortex and the left anterior prefrontal cortex 11 Research edit With lists edit Researchers have studied the joint influence of proactive and retroactive interference using a list of items to be remembered As expected the recall was hampered by increasing the number of items in a given list 12 Proactive interference also affected learning when dealing with multiple lists Researchers had participants learn a list of ten paired adjectives 13 The experimenters would consider a list to be learned if the participant could correctly recall eight of the ten items After two days participants could recall close to 70 of the items However those asked to memorize a new list the day after learning the first one had a recall of only 40 Those who learned a third list recalled 25 of the items Therefore proactive interference affected the correct recall of the last list learned because of the previous one or two In terms of forgetting the effect of proactive interference was supported by further studies using different methods 14 The effect of proactive interference was reduced when the test was immediate and when the new target list was different from the previously learned lists Span performance edit Span performance refers to working memory capacity It is hypothesized that span performance is limited in language comprehension problem solving and memory 15 Proactive Interference affects susceptibility to span performance limitations as span performance in later experimental trials were worse than performance in earlier trials clarification needed 15 16 With single tasks proactive interference had less effect on participants with high working memory spans than those with low ones With dual tasks both types were similarly susceptible To differ others have tried to investigate the relation of proactive interference when cued to forget Turvey and Wittlinger designed an experiment to examine the effects of cues such as not to remember and not to recall with currently learned material While not to remember had a significant effect in reducing proactive interference cued to not to recall previously encoded and stored information did not significantly reduce the effect Therefore these associated cues do not directly control the potential effect of proactive interference on short term memory span clarification needed 17 Proactive interference has shown an effect during the learning phase in terms of stimuli at the acquisition and retrieval stages with behavioral tasks for humans as found by Castro Ortega and Matute 18 With 106 participants they investigated two main questions if two cues are learned as predictors of the same outcome one after the other would the second cue outcome association be retarded And secondly once the second association is fully learned will there still be an effect on subsequent trials The research as predicted showed retardation and impairment in associations due to the effect of Proactive Interference Retroactive interference editRetroactive interference also known as Retroactive inhibition is the interference of newer memories with the retrieval of older memories 1 In other words subsequently learned memories directly contributes to the forgetting of previously learned memories The effect of retroactive interference takes place when any type of skill has not been rehearsed over long periods 1 Of the two effects of interference theory retroactive interference is considered the more common and more problematic type of interference compared to proactive interference 1 RI is a classic paradigm that was first officially termed by Muller 19 These memory research pioneers demonstrated that filling the retention interval defined as the amount of time that occurs between the initial learning stage and the memory recall stage with tasks and material caused significant interference effects with the primary learned items As compared to proactive interference retroactive interference may have larger effects because there is not only competition involved but also unlearning 20 Iconic research edit Modified free recall edit Briggs s 1954 study modeled McGeoch s work on interference by setting the stage for a classic design of retroactive interference In his study participants were asked to learn 12 paired associates to a criterion of 100 To ensure parsimony these pairs can be labeled as A1 B1 A2 B2 AI BI also called AB AC paradigm Briggs used a modified free recall technique by asking participants to recall an item when cued with BI Over multiple anticipation trials participants learned BI items through the prompt of BI items After perfecting AI BI learning participants were given a new list of paired associates to learn however BI items were replaced with CI items now given a list of A1 C1 A2 C2 AI CI As the learning of AI CI pairs increased the learning of AI BI pairs decreased Eventually recalling the CI items exceeded the recall of the BI items representing the phenomenon of retroactive interference A significant part of Briggs s 1954 study was that once participants were tested after a delay of 24 hours the Bi responses spontaneously recovered and exceeded the recall of the Ci items Briggs explained the spontaneous recovery illustration as an account of AI BI items competing with AI CI items or as McGeoch would define it a resultant of momentary dominance 21 Modified modified free recall edit J M Barnes and B J Underwood 1959 expanded Briggs s 1954 study by implementing a similar procedure The main difference in this study however was that unlike Briggs s 1954 modified free recall MFR task where participants gave one item responses Barnes and Underwood asked participants to give both List 1 and List 2 responses to each cued recall task Participants ability to recall both items was termed the modified modified free recall MMFR technique Equivocally to Briggs s 1954 results RI occurred when CI recalled responses gradually came to exceed BI responses Barnes and Underwood argued that because there was unlimited recall time to produce multiple item responses the fact that AI CI responses still trumped AI BI responses represented an account of unlearning 22 Notable research concepts edit Forgetting edit Since German psychologist H Ebbinghaus 1885 1913 made the first scientific studies on forgetting in the late nineteenth century further research on the rate of forgetting presented information was found to be steep 1 While a variety of factors play a role in affecting the rate of forgetting the general conclusion made is that 70 of originally recalled information is initially forgotten in 24 hours after a session of practice followed by 80 of information forgotten within 48 hours 1 Afterwards forgetting diminishes at a gradual rate which leaves about 5 to 10 of retained information available for learners to access from practice until the next session 1 Despite the numbers retroactive interference can be reduced significantly by implementing over learning practice schedules periodic refresh sessions when practicing skills and skill rehearsal time for the inactive periods of practicing 1 Continuous skills are more resistant to the rate of forgetting compared to discrete skills which indicates that the types of skills being practiced and retroactive interference significantly interact with one another 1 Theories edit The phenomenon of retroactive interference is highly significant in the study of memory as it has sparked a historical and ongoing debate in regards to whether the process of forgetting is due to the interference of other competing stimuli or rather the unlearning of the forgotten material The important conclusion one may gain from RI is that forgetting is not simply a failure or weakness of the memory system Bjork 1992 but rather an integral part of our stored knowledge repertoire Although modern cognitive researchers continue to debate the actual causes of forgetting e g competition vs unlearning retroactive interference implies a general understanding that additional underlying processes play a role in memory Competition edit A standard explanation for the cause of RI is Competition New associations compete with older associations and the more recent association would win out making it impossible to remember earlier associations Spontaneous Recovery in MFR supports the claim of competition since after a rest period participants spontaneously remembered original pair associations that they were not able to remember right after the second test 21 Associative unlearning edit The associative unlearning hypothesis explains RI by saying that new associations replace the old associations in memory causing the participant to forget the initial associations Barnes and Underwood argued that AI CI responses still outnumber AI BI responses after the delay period supports the Associative Unlearning Hypothesis over Competition 22 Brain structures edit Retroactive Interference has been localized to the left anterior ventral prefrontal cortex by magnetoencephalography MEG studies investigating Retroactive Interference and working memory in elderly adults 23 The study found that adults 55 67 years of age showed less magnetic activity in their prefrontal cortices than the control group Executive control mechanisms are located in the frontal cortex and deficits in working memory show changes in the functioning of this brain area 23 Research edit Pitch perception edit Retroactive Interference has also been investigated using pitch perception as the learning medium 24 The researcher found that the presentation of subsequent stimuli in succession causes a decrease in recalled accuracy 24 Massaro found that the presentation of successive auditory tones confused perceptual short term memory causing Retroactive Interference as the new tone inhibits the retrieval of previously heard tones 24 Motor movement edit Wohldmann Healey and Bourne found that Retroactive Interference also affects the retention of motor movements 25 Researchers found that retroactive interference affects the performance of old motor movements when newly acquired motor movements are practiced 25 Physical practice of newly executed motor movements decreased the retention and recall of previously learned movements 25 Despite the retroactive interference noted by Wohldmann et al researchers noted that mental practice decreased the amount of retroactive interference suggesting that mental practice is more flexible and durable over time 25 This study of the superiority effect of physical practice is similar to the Word Superiority Effect made famous by Cattell 26 Word tasks edit Retroactive Interference increases when the items are similar therefore increasing association between them as shown by spreading activation 27 Barnes and Underwood found that when participants in the experimental condition were presented with two similar word lists the recollection of the first word list decreased with the presentation of the second word list 27 This finding contrasts the control condition as they had little Retroactive Inference when asked to recall the first word list after a period of unrelated activity 27 Output interference editOutput Interference occurs when the initial act of recalling specific information interferes with the retrieval of the original information 28 An example scenario in which Output Interference might occur would be if one had created a list of items to purchase at a grocery store but then neglected to take the list when leaving home The act of remembering a couple of items on that list decreases the probability of remembering the other items on that list Research edit Short term memory edit Henry L Roediger III and Schmidt found that the act of retrieval can serve as the source of the failure to remember using multiple experiments that tested the recall of categorized and paired associative lists 29 Three experiments were carried out where subjects were first presented with category lists and then asked to recall the items in the list after being shown the category name as a cue 29 The further the test position from the category resulted in a decline of the recall of words A fourth experiment revealed that only recent items were present in output interference in paired associative lists 29 nbsp Hippocampus highlighted in blue nbsp Amygdala highlighted in redLong term memory edit Smith found that if categories with corresponding items were successfully recalled a systematic decline would occur when recalling the items in a category across the output sequence 30 He conducted multiple experiments to determine the input conditioned necessary to produce Output Interference 30 In his first experiment word recall per category was greater at 60 sec than 30 sec when taking the last input category out to prevent recency effect 30 In his second experiment he changed the instructions words used and nature of the retention test and showed with the recognition procedure there was Output Interference but the effect was limited to the first three output positions 30 Even if retrieving items is necessary for a recall it is not crucial to performance in a recognition tack 30 Recall of the organized information from long term memory hurt the following item recalled 30 In long term memory Smith suggests that Output Interference has effects on extra core material which is represented as contextual information rather than the core material which is highly available as a result of organization 30 Effects of age edit In both short term memory and long term memory Smith measured output interference in three age groups aged 20 39 40 59 60 80 years 31 The results of recall performance revealed significant differences due to age where the older group recalled fewer items than the middle group who recalled fewer items than the youngest group 31 Overall Smith concluded that memory decline appears with increased age with long term memory forgetting rather than short term memory forgetting and short term memory was unaffected by age However output interference was unable to explain the memory deficit seen in older subjects 31 Recent research of adults free recall and cognitive triage displayed similar findings of recall performance being poorer in older adults compared to younger adults 32 Although it was also indicated that older adults had an increased susceptibility to output interference compared to younger adults and the difference increased as additional items were recalled 32 Similar theories editDecay theory edit Decay theory outlines that memories weaken over time despite consolidation and storage 33 This is to say that although you remember a specific detail over time you may have greater difficulty retrieving the detail you encoded It has been suggested that the time interval between encoding and retrieval determines the accuracy of recall 34 A practical example of decay theory is seen in the financial sector If you open a bank account and do not deposit or withdraw money from the account after some time the bank will render the account dormant The owner of the account then has to reopen the account for it to remain active The bank account the memory is rendered dormant the memory weakened over time if there is no activity on the account if the memory is not retrieved after some time Similarities edit Decay theory is similar to interference theory in the way that old memories are lost over time Memories are lost in Decay Theory by the passing of time In Interference Theory memories are lost due to newly acquired memories Both Decay and Interference Theories are involved in psychological theories of forgetting Differences edit Decay and interference theory differ in that Interference Theory has a second stimulus that impedes the retrieval of the first stimulus Decay Theory is caused by time itself Decay Theory is a passive method of forgetting as no interference is produced 35 Interference Theory is an active process because the act of learning new information directly impedes the recollection of previously stored information Dual task interference edit Dual task interference is a kind of interference that occurs when two tasks are attempted simultaneously Harold Pashler wrote a paper summing up the theoretical approaches to dual task interference 36 The basis of his research looked at when one attempts two or more tasks at the same time why in some cases is one successful in completing their task and in other cases not 36 Capacity sharing edit Pashler proposed that the brain contains one mental entity where all tasks must be carried out 36 A real life example of this could be going to the dentist the only place to have cavities filled is at a dentist s office When the brain is attempting to complete two tasks both tasks are present in the same mind area and compete for processing ability and speed 36 This relates to interference theory as the tasks compete Interference theory says that the learning of new information decreases the retrieval of older information and this is true for dual task interference The dominant task of the two inhibits the other task from completion It is presumed that the dominant task would be a new task as a previously accomplished task would already be stored in memory The new task would then be completed successfully as more mental effort is required to complete a novel task and the previously completed task would not be completed as the new task dominated the mental capacity Just as Interference Theory states the completion of new tasks inhibits the completion of previously completed tasks due to capacity sharing Cross talk models edit Cross talk is the communication between sensory inputs processing and the thoughts of the individual 36 The theory is that if two processes are being activated and they are not similar in any way making cookies and going on vacation the brain will be confused as separate cognitive areas are being activated and there is conflicting communication between the two 36 Contrastingly if the two processes are similar making cookies and pouring milk there will be less crosstalk and more productive and uninterrupted cognitive processing 36 Crosstalk is used by engineers to discuss the degradation of communication channels due to context dependence 36 Navon and Miller claim that Dual Task Interference is caused by an outcome conflict which is a result of one task producing outputs throughputs or side effects that are harmful to the processing of the another task 37 This is the concept of Interference Theory The thoughts outputs and side effects of one task either affect the previous or subsequent recall Neurobiology edit nbsp MRI of a human brainEvent related fMRI studies edit nbsp Caudate Nucleus highlighted in redStroop and Simon task edit The performance of Stroop and Simon tasks were monitored on 10 healthy young adults using magnetic resonance image MRI scanning 38 Functional images were acquired at specific time intervals during each subject s scan 38 Brain activation during the Stroop and Simon task was remarkably similar including anterior cingulate supplementary motor cortex visual association cortex inferior temporal cortex inferior parietal cortex inferior frontal cortex dorsolateral prefrontal cortex and caudate nuclei 38 Interference effects in the Stroop and Simon tasks activate similar brain regions at similar time distributions 38 Application editAdvertising edit It has been demonstrated that recall will be lower when consumers have afterward seen an ad for a competing brand in the same product class Exposure to later similar advertisements does not cause interference for consumers when brands are rated on purchasing likelihood This shows that information processing objective can moderate the effects of interference of competitive advertising Competitive brand advertising not only interferes with consumer recall of advertising in the past but also interferes with learning new distinctive brand information in the future 39 Reducing competitive ad interference edit Repetition improves brand name recall when presented alone When competitive advertising was presented it was shown that repetition provided no improvement in brand name recall over a single exposure The competitive ads interfered with the added learning from repetition However when the target brand name was shown using varying ad executions interference was reduced Presenting ads in multi modalities visual auditory will reduce possible interference because there are more associations or paths to cue recall than if only one modality had been used This is the principle of multimedia learning Also interference is increased when competing ads are presented in the same modality Therefore by presenting ads in multiple modalities the chance that the target brand has unique cues is increased 40 See also editNeuroimaging Working memory Memory inhibition Memory conformity Einstellung effect Language transfer interference between languages Forgetting curve Between systems memory interference modelReferences edit a b c d e f g h i j k l m n o Edwards W H 2010 Motor Learning and Control From Theory to Practice Belmont CA Cengage Learning a b Rieber Robert W Salzinger Kurt D eds 1998 Psychology theoretical historical perspectives 2nd ed Washington DC American Psychological Association ISBN 978 1 55798 524 8 Underwood B J 1957 Interference and forgetting Psychological Review 64 1 49 a b Hilgard Ernest R 1987 Psychology in America a historical survey San Diego Harcourt Brace Jovanovich ISBN 978 0155392021 Neel Ann 1977 Theories of Psychology a handbook Revised and enlarged ed Cambridge Schenkman Publishing Company ISBN 9780470989685 Keppel Geoffrey Underwood Benton J 1 October 1962 Proactive inhibition in short term retention of single items Journal of Verbal Learning and Verbal Behavior 1 3 153 161 doi 10 1016 S0022 5371 62 80023 1 Postman Leo Keppel Geoffrey 1 January 1977 Conditions of cumulative proactive inhibition Journal of Experimental Psychology General 106 4 376 403 doi 10 1037 0096 3445 106 4 376 Underwood Benton J 1 January 1969 Attributes of memory Psychological Review 76 6 559 573 doi 10 1037 h0028143 Wickens D Moody M Shearer P 1976 Lack of Memory for Unattended Items in Dichotic Listening Journal of Experimental Psychology 2 6 712 719 doi 10 1037 0278 7393 2 6 712 PMID 1010994 Jonides J Nee D E 2006 Brain mechanisms of proactive interference in working memory Neuroscience 139 1 181 193 doi 10 1016 j neuroscience 2005 06 042 PMID 16337090 S2CID 18746818 Nee DE Jonides J Berman MG December 2007 Neural mechanisms of proactive interference resolution NeuroImage 38 4 740 51 doi 10 1016 j neuroimage 2007 07 066 PMC 2206737 PMID 17904389 Murdock Bennet B 1 November 1963 Short term memory and paired associate learning Journal of Verbal Learning and Verbal Behavior 2 4 320 328 doi 10 1016 S0022 5371 63 80100 0 Greenberg R Underwood B J August 1950 Retention as a function of stage of practice Journal of Experimental Psychology 40 4 452 7 doi 10 1037 h0062147 PMID 15436941 Underwood Benton J 1 January 1957 Interference and forgetting Psychological Review 64 1 49 60 doi 10 1037 h0044616 PMID 13408394 a b May CP Hasher L Kane MJ September 1999 The role of interference in memory span PDF Memory and Cognition 27 5 759 67 doi 10 3758 bf03198529 PMID 10540805 Kane Michael J Engle Randall W 1 January 2000 Working memory capacity proactive interference and divided attention Limits on long term memory retrieval PDF Journal of Experimental Psychology Learning Memory and Cognition 26 2 336 358 doi 10 1037 0278 7393 26 2 336 PMID 10764100 Turvey M T Wittlinger Roy P 1 January 1969 Attenuation of proactive interference in short term memory as a function of cueing to forget Journal of Experimental Psychology 80 2 Pt 1 295 298 doi 10 1037 h0027283 Castro Leyre Ortega Nuria Matute Helena 2002 Proactive interference in human predictive learning International Journal of Comparative Psychology 15 55 68 CiteSeerX 10 1 1 149 8082 doi 10 46867 C4DG6B S2CID 3908660 Muller G E Pilzecker A 1990 Experimental contributions to memory theory Zeitschrift fur Psychologie Eganzungsband 1 1 300 Melton A W Lackum W J von 1941 Retroactive and proactive inhibition in retention evidence for a two factor theory of retroactive inhibition American Journal of Psychology 54 2 157 173 doi 10 2307 1416789 JSTOR 1416789 a b Briggs G E 1954 Acquisition extinction and recovery functions in retroactive inhibition Journal of Experimental Psychology 47 5 285 293 doi 10 1037 h0060251 PMID 13163344 a b Barnes J M Underwood B J 1959 Fate of first list associations in transfer theory Journal of Experimental Psychology 58 2 97 105 doi 10 1037 h0047507 PMID 13796886 a b Solesio E Lorenzo Lopez L Campo P Lopez Frutos J M Ruiz Vargas J M Maestu F 2009 Retroactive interference in normal aging A magnetoencephalography study Neuroscience Letters 456 2 85 88 doi 10 1016 j neulet 2009 03 087 PMID 19429139 S2CID 6152036 a b c Massaro D W 1970 Retroactive Interference in Short Term Memory for Pitch Journal of Experimental Psychology 83 1 32 39 doi 10 1037 h0028566 PMID 5436482 a b c d Wohldmann E L Healy A F Bourne Jr 2008 A mental practice superiority effect Less retroactive interference and more transfer than physical practice Journal of Experimental Psychology Learning Memory and Cognition 34 4 823 833 doi 10 1037 0278 7393 34 4 823 PMID 18605871 Cattell J M 1886 The time it takes to see and name objects Mind 11 41 63 65 doi 10 1093 mind os XI 41 63 a b c Barnes J M Underwood B J 1959 Fate of first list association in transfer theory Journal of Experimental Psychology 58 2 97 105 doi 10 1037 h0047507 PMID 13796886 Tulving E Arbuckle T Y 1966 Input and output interference in short term associative memory Journal of Experimental Psychology 72 1 145 150 doi 10 1037 h0023344 PMID 5967720 a b c Roediger H L III Schmidt S R 1980 Output interference in the recall of categorized and paired associative lists Journal of Experimental Psychology Human Learning and Memory 6 91 105 doi 10 1037 0278 7393 6 1 91 S2CID 39396769 a b c d e f g Smith A D 1971 Output interference and organized recall from long term memory Journal of Verbal Learning and Verbal Behavior 10 4 400 408 doi 10 1016 s0022 5371 71 80039 7 a b c Smith A D 1975 Aging and Interference with Memory Journal of Gerontology 30 3 319 325 doi 10 1093 geronj 30 3 319 PMID 1120895 a b Marche T A Howe M L Lane D G Owre K P Briere J L 2009 Invariance of Cognitive Triage in the Development of Recall in Adulthood PDF Memory 17 5 518 527 doi 10 1080 09658210902939355 PMID 19468958 S2CID 13770995 Baddeley A Eysenck M W amp Anderson A C 2009 Memory New York NY Psychology Press Brown J 1958 Some Test of the Decay Theory of Immediate Memory Quarterly Journal of Experimental Psychology 10 12 21 doi 10 1080 17470215808416249 S2CID 144071312 Grossberg S 1987 The Adaptive Brain Vision Speech Language and Motor Control Amsterdam Netherlands Elsevier a b c d e f g h Pashler H 1994 Dual Task Interference in Simple Tasks Data and Theory Psychological Bulletin 116 2 220 244 CiteSeerX 10 1 1 324 4916 doi 10 1037 0033 2909 116 2 220 PMID 7972591 Navon D Miller J O 1987 Role of outcome conflict in dual task interference PDF Journal of Experimental Psychology Human Perception and Performance 13 3 438 448 doi 10 1037 0096 1523 13 3 435 PMID 2958592 S2CID 31522771 Archived from the original PDF on 2020 02 20 a b c d Peterson B S Kane M J Alexander G M Lacadie C Skudlarski P Leung H C Mat J Gore J C 2002 An event related functional MRI study comparing interference effects in the Simon and Stroop tasks Cognitive Brain Research 13 3 427 440 doi 10 1016 s0926 6410 02 00054 x PMID 11919006 Burke Raymond Skrull Thomas 1988 Competitive Interference and Consumer Memory for Advertising Journal of Consumer Research 15 55 68 doi 10 1086 209145 Unnava H Rao 1994 Reducing Competitive Ad Interference Journal of Marketing Research 31 3 403 411 doi 10 2307 3152227 JSTOR 3152227 Barnes J M Underwood B J 1959 Fate of first list associations in transfer theory Journal of Experimental Psychology 58 2 97 105 doi 10 1037 h0047507 PMID 13796886 Bjork R A 1992 Interference and memory In L R Squire Ed Encyclopedia of learning and memory pp 283 288 New York Macmillan Briggs G E 1954 Acquisition extinction and recovery functions in retroactive inhibition Journal of Experimental Psychology 47 5 285 293 doi 10 1037 h0060251 PMID 13163344 McGeoch J A 1932 Forgetting and the law of disuse Psychological Review 39 4 352 370 doi 10 1037 h0069819 Melton A W Irwin J M 1940 The influence of degree of interpolated learning on retroactive inhibition and the overt transfer of specific responses The American Journal of Psychology 53 2 611 641 doi 10 2307 1417415 JSTOR 1417415 Muller G E Pilzecker A 1900 Experimentelle beitrage zur lehre von gedachtnis Zeitschrift fur Psychologie 1 1 300 Salon Heather 2011 Dave Farrow mind over memory a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help Underwood B J 1948 Spontaneous recovery of verbal associations Journal of Experimental Psychology 38 4 429 439 doi 10 1037 h0059565 PMID 18874601 Retrieved from https en wikipedia org w index php title Interference theory amp oldid 1186701329, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.