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Chapter5

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This chapter discusses models and research methods related to memory. It describes the processes of encoding, storage, and retrieval in memory. It also discusses different types of memory tests like recall and recognition tasks. The chapter reviews research on sensory memory, short-term memory, and long-term memory. It also summarizes several influential models of memory including Atkinson and Shiffrin's multi-store model, Craik and Lockhart's levels of processing model, Baddeley's working memory model, and Tulving's multiple memory systems model.

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Chapter 5: Memory: Models and Research Methods
Memory Is … The mechanism we use to create, maintain and retrieve information about the past
Processes in Memory Encoding Processes used to store information in memory Storage Processes used to maintain information in memory Retrieval Processes used to get information back out of memory
Methods Used to Study Memory Which type of memory test would you rather have? An essay or a multiple choice exam? The difference between these two types of tests captures the difference between a recall task and a recognition test
Recall Tasks Free Recall Recall all the words you can from the list you saw previously Cued Recall Recall everything you can that is associated with the Civil War Participants are given a cue to facilitate recall Serial Recall Recall the names of all previous presidents in the order they were elected Need to recall order as well as item names
Recognition Tasks Circle all the words you previously studied Indicate which pictures you saw yesterday The participant selects from a list of items they have previously seen
Implicit or Explicit Memory Tasks Explicit memory tasks Involves conscious recollection Participant knows they are trying to retrieve information from their memory Implicit memory tasks Require participants to complete a task The completion of the task indirectly indicates memory
Implicit Memory Tasks Participants are exposed to a word list Tiger Lion Zebra Panda Leopard Elephant After a delay… Participants then complete word puzzles, they are not aware they are a type of memory test Word fragment Completion: C_E_TA_ E_E_ _A_ N_ _ E _ R A Word Stem Completion: Mon _____ Pan_____
Models of Memory Represent ways that memory has been conceptualized Atkinson & Shiffrin’s 3 Stage Model of Memory Craik & Lockhart’s Level of Processing Model Baddeley’s Working Memory Model Tulving’s Multiple Memory Systems Model McClelland & Rumelhart’s Connectionist Model
Traditional Model of Memory Atkinson & Shiffrin (1968) 3 Stage Model Information Processing Model Stimuli Sensory registers Short Term Memory (STM) Long Term Memory (LTM)
Sperling (1960) Iconic Memory Research Whole report procedure Flash a matrix of letters for 50 milliseconds Identify as many letters as possible Participants typically remembered 4 letters Partial Report Procedure Flash a matrix of letters for 50 milliseconds Participants are told to report bottom row Participants were able to report any row requested
Sperling Sensory Memory Demonstration A matrix of 12 letters and numbers will be briefly flashed on the next few slides As soon as you see the information, write down everything you can remember in its proper location
X X X X X X X X X X X X Whole Report Here’s where the letters and numbers will appear-- Keep your eyes on the “X” on the next slide
B 5 Q T 2 H S 9 O 4 M Y X
B 5 Q T 2 H S 9 O 4 M Y
X X X X X X X X X X X X Partial Report – No Delay For the next demonstration, report only the top, middle, or bottom row. The row to report will be identified by markers IMMEDIATELY after you see the letters.
X 2 V 9 R Q M 7 L > K H 5 F < > <
2 V 9 R Q M 7 L > K H 5 F <
Averbach & Coriell (1961) Iconic Memory Research G E U L M F S X W P M B D H J Y - Showed matrix for 50 msec - Place a small mark above a letter at different delays Results indicated that as many as 12 letters could be stored in sensory memory Backward visual masking was also discovered with this technique
Sensory Stores Iconic store or Visual sensory register Holds visual information for 250 msec longer Information held is pre-categorical Capacity – up to 12 items Information fades quickly Econ or Auditory sensory register Holds auditory information for a 2-3 seconds longer to enable processing
Short-Term Memory Attention Attend to information in the sensory store, it moves to STM Rehearsal Repeat the information to keep maintained in STM Retrieval Access memory in LTM and place in STM Short Term Memory (STM) Attention Storage & Retrieval Rehearsal
Research on Short-Term Memory Miller (1956) Examined memory capacity 7+/- 2 items or “chunks” Chunking -- organize the input into larger units 1 9 8 0 1 9 9 8 2 0 0 3 - Exceeds capacity 1980 1998 2003 - Reorganize by chunking. Birth-year H.S graduation College Graduation
Long-Term Memory Capacity Thus far limitless Duration Potentially permanent Long Term Memory (LTM)
Bahrick’s Research on Very Long Term Memory High school year books containing all of the names and photos of the students were used to assess memory 392 ex-high school students (17-74) took 4 different memory tests: Free recall of the names A photo recognition test where they were asked to identify former classmates A name recognition test A name and photo matching test For some of the participants, it was as long as 48 years since they graduated from High school
Bahrick et. al., (1975) Results 90% accuracy in face and name recognition after 34 years 80% accuracy for name recognition after 48 years 40% accuracy for face recognition after 48 years 60% accuracy for free recall after 15 years 30% accuracy for free recall after 30 years
Levels of Processing Model of Memory Craik & Lockhart (1972) Different ways to process information lead to different strengths of memories Deep processing leads to better memory; elaborating according to meaning leads to a strong memory Shallow processing emphasizes the physical features of the stimulus; the memory trace is fragile and quickly decays Distinguished between maintenance rehearsal and elaborative rehearsal
Support for Levels of Processing Craik & Watkins (1973) Participants listened to lists of words Task was to recall the last word in the list which began with a particular letter The number of intervening words between words beginning with the target letter was varied
Craik & Watkins (1973) Results Recall of words was independent of the length of time (the number of intervening words) it was maintained in STM Conclusion: Maintenance rehearsal did not automatically lead to LTM Levels-of-Processing Interpretation: Students rehearsed the words without elaborating on the meaning of the words, only concentrating on the initial consonant sound—rehearsing at a shallow level
Support for Levels of Processing Craik & Tulving (1975) Participants studied a list in 3 different ways Structural: Is the word in capital letters? Phonemic: Does the word rhyme with dog? Semantic: Does the word fit in this sentence? The ______ is delicious. A recognition test was given to see which type of processing led to the best memory
Craik & Tulving (1975) Results
Criticisms of LOP Model Circular definition of levels Transfer appropriate processing effect Morris, Bransford, and Franks (1977) Two processing tasks: semantic vs. rhyme Two types of tests: standard yes/no recognition vs. rhyme test   Memory performance also depends on the match between encoding processes and type of test 0.49 0.62 Rhyme 0.31 0.83 Semantic Rhyme Recognition Encoding Task  
Baddeleys’ Working Memory Model Central Executive Visuo-spatial Sketch Pad Episodic Buffer Phonological Store Articulatory Loop Visual Scribe
Working Memory Model Articulatory Loop Used to maintain information for a short time and for acoustic rehearsal Visuo-spatial Sketch Pad Used for maintaining and processing visuo-spatial information Episodic Buffer Used for storage of a multimodal code, holding an integrated episode between systems using different codes
Working Memory Model Central Executive Focuses attention on relevant items and inhibiting irrelevant ones Plans sequence of tasks to accomplish goals, schedules processes in complex tasks, often switches attention between different parts Updates and checks content to determine next step in sequence of parts
Working Memory Model Support Baddeley (1986) Participants studied two different list types 1 syllable: wit, sum, harm, bay, top 5 syllables: university, opportunity, aluminum, constitutional, auditorium Reading rate seemed to determine recall performance Supports conceptualization of an articulatory loop
Working Memory Model Support Visuo-spatial Sketch Pad Dual-task paradigm Sketchpad can be disrupted by requiring participants to tap repeatedly a specified pattern of keys or locations while using imagery at the same time
Multiple-Memory Systems Model Tulving (1972) Semantic Memory General knowledge Facts, definitions, historical dates Episodic Memory Event memories (first kiss, 6 th birthday) Procedural Memory Memories on how to do something (skiing, biking, tying your shoe)
Multiple-Memory Systems Model Support Nyberg, Cabeza, & Tulving (1996) PET technology to look at episodic and semantic memory Asked people to engage in semantic or episodic memory tasks while being monitored by PET   Results  Left (hemisphere) frontal lobe differentially active in encoding (both) and in semantic memory retrieval Right (hemisphere) frontal lobe differentially active in retrieval of episodic memory
Connectionist Perspective Parallel distributed processing model Memory uses a network Meaning comes from patterns of activation across the entire network Spreading Activation Network Model Supported by priming effects
Koriat & Goldsmith (1996) Suggest a change in the metaphors used to conceptualize memory Propose a correspondence metaphor Emphasize function of memory Emphasize how memory works in real world
Exceptional Memory Case studies of mnemonists Studies of skilled memory
Case Studies S. (Luria, 1968) Long strings of words Remembered over 15-18 years Rajan Mahadevan Can recite pi to 31,811 places No forgetting on matrices up to 20x20 digits
Deficient Memory Amnesias Retrograde Amnesia Loss of memory for events that occurred before the trauma Infantile Amnesia Inability to recall events of young childhood Antereograde Amnesia No memory for events that occur after the trauma
Amnesia Studies Study antereograde amnesiacs using implicit and explicit memory tests Amnesiacs show normal priming (implicit), but poor recognition memory (explicit) They did not remember having seen the word list, but completed the word fragments at the same rate as normals
Alzheimer’s Disease Leads to memory loss and dementia in older population Atrophy of the cortical tissue Alzheimer brains shows abnormal fibers that appear to be tangles of brain tissue and senile plaques (patches of degenerative nerve endings) The resulting damage of these conditions may lead to disruption of impulses in neurons Over the age of 65 are labeled ‘late onset’ ‘ Early onset’ is rare but can affect those in their mid 30's and in middle age
Alzheimer’s Disease Symptoms (Gradual, Continuous & Irreversible) Memory loss Problems doing familiar tasks Problems with language Trouble knowing the time, date, or place Poor or decreased judgment Problems with abstract thinking Misplacing things often, such as keys Changes in mood and behavior Changes in personality These symptoms could be an early sign of Alzheimer's when it affects daily life
Hippocampus and Memory Hippocampus Critical for integration and consolidation Essential for declarative memory Without the hippocampus only the learning of skills and habits, simple conditioning, and the phenomenon of priming can occur

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Chapter5

  • 1. Chapter 5: Memory: Models and Research Methods
  • 2. Memory Is … The mechanism we use to create, maintain and retrieve information about the past
  • 3. Processes in Memory Encoding Processes used to store information in memory Storage Processes used to maintain information in memory Retrieval Processes used to get information back out of memory
  • 4. Methods Used to Study Memory Which type of memory test would you rather have? An essay or a multiple choice exam? The difference between these two types of tests captures the difference between a recall task and a recognition test
  • 5. Recall Tasks Free Recall Recall all the words you can from the list you saw previously Cued Recall Recall everything you can that is associated with the Civil War Participants are given a cue to facilitate recall Serial Recall Recall the names of all previous presidents in the order they were elected Need to recall order as well as item names
  • 6. Recognition Tasks Circle all the words you previously studied Indicate which pictures you saw yesterday The participant selects from a list of items they have previously seen
  • 7. Implicit or Explicit Memory Tasks Explicit memory tasks Involves conscious recollection Participant knows they are trying to retrieve information from their memory Implicit memory tasks Require participants to complete a task The completion of the task indirectly indicates memory
  • 8. Implicit Memory Tasks Participants are exposed to a word list Tiger Lion Zebra Panda Leopard Elephant After a delay… Participants then complete word puzzles, they are not aware they are a type of memory test Word fragment Completion: C_E_TA_ E_E_ _A_ N_ _ E _ R A Word Stem Completion: Mon _____ Pan_____
  • 9. Models of Memory Represent ways that memory has been conceptualized Atkinson & Shiffrin’s 3 Stage Model of Memory Craik & Lockhart’s Level of Processing Model Baddeley’s Working Memory Model Tulving’s Multiple Memory Systems Model McClelland & Rumelhart’s Connectionist Model
  • 10. Traditional Model of Memory Atkinson & Shiffrin (1968) 3 Stage Model Information Processing Model Stimuli Sensory registers Short Term Memory (STM) Long Term Memory (LTM)
  • 11. Sperling (1960) Iconic Memory Research Whole report procedure Flash a matrix of letters for 50 milliseconds Identify as many letters as possible Participants typically remembered 4 letters Partial Report Procedure Flash a matrix of letters for 50 milliseconds Participants are told to report bottom row Participants were able to report any row requested
  • 12. Sperling Sensory Memory Demonstration A matrix of 12 letters and numbers will be briefly flashed on the next few slides As soon as you see the information, write down everything you can remember in its proper location
  • 13. X X X X X X X X X X X X Whole Report Here’s where the letters and numbers will appear-- Keep your eyes on the “X” on the next slide
  • 14. B 5 Q T 2 H S 9 O 4 M Y X
  • 15. B 5 Q T 2 H S 9 O 4 M Y
  • 16. X X X X X X X X X X X X Partial Report – No Delay For the next demonstration, report only the top, middle, or bottom row. The row to report will be identified by markers IMMEDIATELY after you see the letters.
  • 17. X 2 V 9 R Q M 7 L > K H 5 F < > <
  • 18. 2 V 9 R Q M 7 L > K H 5 F <
  • 19. Averbach & Coriell (1961) Iconic Memory Research G E U L M F S X W P M B D H J Y - Showed matrix for 50 msec - Place a small mark above a letter at different delays Results indicated that as many as 12 letters could be stored in sensory memory Backward visual masking was also discovered with this technique
  • 20. Sensory Stores Iconic store or Visual sensory register Holds visual information for 250 msec longer Information held is pre-categorical Capacity – up to 12 items Information fades quickly Econ or Auditory sensory register Holds auditory information for a 2-3 seconds longer to enable processing
  • 21. Short-Term Memory Attention Attend to information in the sensory store, it moves to STM Rehearsal Repeat the information to keep maintained in STM Retrieval Access memory in LTM and place in STM Short Term Memory (STM) Attention Storage & Retrieval Rehearsal
  • 22. Research on Short-Term Memory Miller (1956) Examined memory capacity 7+/- 2 items or “chunks” Chunking -- organize the input into larger units 1 9 8 0 1 9 9 8 2 0 0 3 - Exceeds capacity 1980 1998 2003 - Reorganize by chunking. Birth-year H.S graduation College Graduation
  • 23. Long-Term Memory Capacity Thus far limitless Duration Potentially permanent Long Term Memory (LTM)
  • 24. Bahrick’s Research on Very Long Term Memory High school year books containing all of the names and photos of the students were used to assess memory 392 ex-high school students (17-74) took 4 different memory tests: Free recall of the names A photo recognition test where they were asked to identify former classmates A name recognition test A name and photo matching test For some of the participants, it was as long as 48 years since they graduated from High school
  • 25. Bahrick et. al., (1975) Results 90% accuracy in face and name recognition after 34 years 80% accuracy for name recognition after 48 years 40% accuracy for face recognition after 48 years 60% accuracy for free recall after 15 years 30% accuracy for free recall after 30 years
  • 26. Levels of Processing Model of Memory Craik & Lockhart (1972) Different ways to process information lead to different strengths of memories Deep processing leads to better memory; elaborating according to meaning leads to a strong memory Shallow processing emphasizes the physical features of the stimulus; the memory trace is fragile and quickly decays Distinguished between maintenance rehearsal and elaborative rehearsal
  • 27. Support for Levels of Processing Craik & Watkins (1973) Participants listened to lists of words Task was to recall the last word in the list which began with a particular letter The number of intervening words between words beginning with the target letter was varied
  • 28. Craik & Watkins (1973) Results Recall of words was independent of the length of time (the number of intervening words) it was maintained in STM Conclusion: Maintenance rehearsal did not automatically lead to LTM Levels-of-Processing Interpretation: Students rehearsed the words without elaborating on the meaning of the words, only concentrating on the initial consonant sound—rehearsing at a shallow level
  • 29. Support for Levels of Processing Craik & Tulving (1975) Participants studied a list in 3 different ways Structural: Is the word in capital letters? Phonemic: Does the word rhyme with dog? Semantic: Does the word fit in this sentence? The ______ is delicious. A recognition test was given to see which type of processing led to the best memory
  • 30. Craik & Tulving (1975) Results
  • 31. Criticisms of LOP Model Circular definition of levels Transfer appropriate processing effect Morris, Bransford, and Franks (1977) Two processing tasks: semantic vs. rhyme Two types of tests: standard yes/no recognition vs. rhyme test   Memory performance also depends on the match between encoding processes and type of test 0.49 0.62 Rhyme 0.31 0.83 Semantic Rhyme Recognition Encoding Task  
  • 32. Baddeleys’ Working Memory Model Central Executive Visuo-spatial Sketch Pad Episodic Buffer Phonological Store Articulatory Loop Visual Scribe
  • 33. Working Memory Model Articulatory Loop Used to maintain information for a short time and for acoustic rehearsal Visuo-spatial Sketch Pad Used for maintaining and processing visuo-spatial information Episodic Buffer Used for storage of a multimodal code, holding an integrated episode between systems using different codes
  • 34. Working Memory Model Central Executive Focuses attention on relevant items and inhibiting irrelevant ones Plans sequence of tasks to accomplish goals, schedules processes in complex tasks, often switches attention between different parts Updates and checks content to determine next step in sequence of parts
  • 35. Working Memory Model Support Baddeley (1986) Participants studied two different list types 1 syllable: wit, sum, harm, bay, top 5 syllables: university, opportunity, aluminum, constitutional, auditorium Reading rate seemed to determine recall performance Supports conceptualization of an articulatory loop
  • 36. Working Memory Model Support Visuo-spatial Sketch Pad Dual-task paradigm Sketchpad can be disrupted by requiring participants to tap repeatedly a specified pattern of keys or locations while using imagery at the same time
  • 37. Multiple-Memory Systems Model Tulving (1972) Semantic Memory General knowledge Facts, definitions, historical dates Episodic Memory Event memories (first kiss, 6 th birthday) Procedural Memory Memories on how to do something (skiing, biking, tying your shoe)
  • 38. Multiple-Memory Systems Model Support Nyberg, Cabeza, & Tulving (1996) PET technology to look at episodic and semantic memory Asked people to engage in semantic or episodic memory tasks while being monitored by PET   Results  Left (hemisphere) frontal lobe differentially active in encoding (both) and in semantic memory retrieval Right (hemisphere) frontal lobe differentially active in retrieval of episodic memory
  • 39. Connectionist Perspective Parallel distributed processing model Memory uses a network Meaning comes from patterns of activation across the entire network Spreading Activation Network Model Supported by priming effects
  • 40. Koriat & Goldsmith (1996) Suggest a change in the metaphors used to conceptualize memory Propose a correspondence metaphor Emphasize function of memory Emphasize how memory works in real world
  • 41. Exceptional Memory Case studies of mnemonists Studies of skilled memory
  • 42. Case Studies S. (Luria, 1968) Long strings of words Remembered over 15-18 years Rajan Mahadevan Can recite pi to 31,811 places No forgetting on matrices up to 20x20 digits
  • 43. Deficient Memory Amnesias Retrograde Amnesia Loss of memory for events that occurred before the trauma Infantile Amnesia Inability to recall events of young childhood Antereograde Amnesia No memory for events that occur after the trauma
  • 44. Amnesia Studies Study antereograde amnesiacs using implicit and explicit memory tests Amnesiacs show normal priming (implicit), but poor recognition memory (explicit) They did not remember having seen the word list, but completed the word fragments at the same rate as normals
  • 45. Alzheimer’s Disease Leads to memory loss and dementia in older population Atrophy of the cortical tissue Alzheimer brains shows abnormal fibers that appear to be tangles of brain tissue and senile plaques (patches of degenerative nerve endings) The resulting damage of these conditions may lead to disruption of impulses in neurons Over the age of 65 are labeled ‘late onset’ ‘ Early onset’ is rare but can affect those in their mid 30's and in middle age
  • 46. Alzheimer’s Disease Symptoms (Gradual, Continuous & Irreversible) Memory loss Problems doing familiar tasks Problems with language Trouble knowing the time, date, or place Poor or decreased judgment Problems with abstract thinking Misplacing things often, such as keys Changes in mood and behavior Changes in personality These symptoms could be an early sign of Alzheimer's when it affects daily life
  • 47. Hippocampus and Memory Hippocampus Critical for integration and consolidation Essential for declarative memory Without the hippocampus only the learning of skills and habits, simple conditioning, and the phenomenon of priming can occur