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Modal Model of Memory

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Modal Model of Memory PSY 421 Fall 2004 Overview Methods of conducting memory experiments Typical memory findings or results Definitions with memory research ... – PowerPoint PPT presentation

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Title: Modal Model of Memory


1
Modal Model of Memory
  • PSY 421 Fall 2004

2
Overview
  • Methods of conducting memory experiments
  • Typical memory findings or results
  • Definitions with memory research a summary
  • Long-Term Memory and the Serial Position Effect
  • Problems for the Modal Model
  • Encoding and Retrieval

3
Memory Methodology
  • The following is the typical procedure for a
    memory experiment
  • Stimuli/items (letters, numbers, words, pictures)
    are presented with the instruction that subjects
    are to study these words for a later memory test
    (order of the items may be important)
  • A time period passes during which the subject
    must remember the stimuli and may be asked to
    also perform another task (counting backwards,
    viewing unrelated items, solving math problems)

4
Memory Methdology, continued
  • Subjects are asked to remember the stimuli that
    they studied
  • Free Recall test write down all the items from
    the study list that you remember
  • Cued Recall test here are some cues to help you
    remember the items from the study list
  • Serial Recall test remember the items from the
    study list in the order that you studied them
  • Recognition test here are some of the items you
    studied among other items called distractors
    chose the items that you studied (called targets)
  • Relearning number of trials to be able to
    remember all the items correctly (Ebbinghaus)
  • Reconstruction attempting to remember items and
    other elements associated with the items to
    "rebuild" the original event from memory
  • Performance is recorded as accuracy (number of
    items remember correctly), sensitivity (number of
    hits and false alarms from a recognition test),
    or speed (amount of time it takes the subject to
    remember one or all of the items)

5
Demos
6
Typical Memory Results
  • Free Recall subjects remember some but not all
    of the items that they studied (performance is
    better or worse depending upon the type of
    independent variable manipulated (IV))
  • Cued Recall subjects remember more items that
    were studied than if they did free recall (but
    performance depends on the IV)
  • Recognition easiest of all memory tests,
    subjects remember items well to the extent that
    the targets (studied items) vary from the
    distractors (non-studied items)
  • Order of memory when the order of the studied
    items is important, subjects typically remember
    the beginning and the end items better than the
    middle items primacy and recency effects

7
Similar Terminology in Memory
  • Sensory Memory
  • Iconic or Visual Sensory Memory
  • Echoic or Auditory Sensory Memory
  • Short-Term Memory or Primary Memory or Working
    Memory
  • Long-Term Memory or Secondary Memory
  • Memory Processes
  • Acquisition encoding learning input
  • Retention storage holding information
  • Retrieval remembering responding output
  • Memory Tests
  • Explicit Memory Tests Direct Memory tests
  • Implicit Memory Tests Indirect Memory tests

8
New Definitions
  • Long-Term Memory
  • Episodic Memory memory for events and
    experiences (including peripheral contextual
    info)
  • Semantic Memory memory for knowledge or meaning
    of information
  • Other Characteristics
  • Duration limitless
  • Type of information coding all modalities
  • Capacity - limitless
  • Serial Position Effect
  • Primacy memory for earlier items in a list
  • Recency memory for later items in a list
  • Encoding taking in information - acquisition

9
Serial Position Curve
10
Serial Position Effect
  • STM and LTM
  • Multiple-stores explanation for serial position
    effects (Waugh Norman, 1965)
  • Recency occurs because of rehearsal and the items
    at the end of the list are still in STM (dump of
    STM)
  • Primacy occurs because beginning items were
    rehearsed the longest and have already been
    transferred to LTM
  • STM and LTM are not different (Crowder, 1993
    Nairne, 1992)
  • Memory in the short-term is using memory for a
    short period of time memory in the long-term is
    using memory over a longer period of time just
    because we use our memories for different periods
    of time does not mean there are 2 different forms
    of memory
  • Primacy effects can still be shown without
    rehearsal
  • Recency effects can be found with information
    from LTM (presidents Roediger Crowder, 1976)

11
More Problems for the Modal Model
  • 1. The modal model predicts that if there is a
    delay between study and test and rehearsal is
    prevent with a distractor task, then recency will
    decrease b/c words that were in STM have faded
    away (or been forgotten) (Glanzer and Cunitz,
    1966).
  • Opposing Evidence (Bjork Whitten, 1974) - if a
    distractor activity is added after EVERY item,
    including the final item (called the continual
    distractor paradigm - subjects are continually
    unable to rehearse b/c of distraction), the
    recency effect COMES BACK, even though there was
    no rehearsal for any of the items. For more
    discussion of this topic - see pgs 72-76 of your
    memory text)
  • 2. The modal model claims that STM codes
    information on the basis of how it sounds and LTM
    codes information on the basis of its meaning
  • Opposing Evidence - there is evidence of
    acoustic interference in LTM (Dale McGlaughlin,
    1971) and evidence of semantic confusion errors
    (were items that mean the same thing are confused
    with each other) in STM (Shulman, 1970, 1972).
  • Opposing Evidence - as you will see in the
    discussion of levels of processing, different
    types of processing can occur in what is assumed
    to be STM (Craik Lockhart, 1972)
  • 3. The modal model assumes three separate storage
    units
  • Opposing Evidence - where does SM end, STM begin
    and LTM begin? There will always be contamination
    of one store with another. Since information has
    to travel from STM to LTM and from LTM to STM to
    be retrieved, how do we know if or what
    information is coming from LTM in retrieval?
    (Nairne, 1996).
  • 4. Primacy comes from rehearsing information into
    LTM and recency comes from dumping STM
  • Opposing Evidence - primacy can occur with no
    rehearsal (Greene, 1986 Neath Crowder, 1996)
  • Opposing Evidence - recency can occur even when
    there have been long delays between study and
    test (Greene, 1986 Nairne, Neath, Serra Byun,
    in press, Neath, 1993)

12
Encoding
  • How information gets into memory
  • Can vary depending upon the nature of retrieval
    (if known) encoding and retrieval do not do
    well independently of each other
  • Factors that affect encoding
  • Attention
  • Repetition multiple experiences with the
    item(s)
  • Rehearsal
  • Maintenance rehearsal simple repetition
  • Elaborative rehearsal thinking about the
    meaning of the item and associating the item to
    information already in memory
  • Levels of Processing Theory
  • Transfer-Appropriate Processing
  • Encoding Specificity Hypothesis

13
Levels of Processing Theory
  • Craik and Lockhart (1972) Hyde and Jenkins
    (1973)
  • Memory structure (SM-STM-LTM) not important for
    this theory
  • Type of processing is important
  • Shallow processing processing features or
    physical characteristics
  • Deep processing processing on the basis of
    meaning or associations
  • Results
  • Deep processing leads to better memory
    performance
  • Problems
  • Define "deep"
  • Only focuses on encoding, not retrieval or the
    interaction of the two

14
Transfer-Appropriate Processing
  • Considers both encoding and retrieval makes
    this different from Levels of Processing
  • Processing leads to better memory performance
    when the processing at retrieval (test) matches
    the processing used during encoding (study)
  • Morris, Bransford Franks (1977)
  • Study - Deep (sentence fit) vs shallow processing
    (rhyming)
  • Test standard recognition or rhyming
    recognition
  • Results
  • If subjects in the "deep" condition took the
    standard recognition test, they remembered more
    than subjects in the "shallow" condition (taking
    the standard recognition test)
  • If subjects in the "shallow" condition took the
    rhyming recognition test, they remembered more
    than subjects in the "deep" condition (taking the
    rhyming recognition test)

15
Encoding Specificity Hypothesis
  • Recollection of information depends on the
    interaction between properties of the encoding
    information and properties of the retrieval
    information
  • Endel Tulving developed ESP
  • Thomson and Tulving (1970)
  • Study targets were presented alone during study
    or were presented with a weak cue
  • Target flower weak cue fruit strong cue
    bloom
  • Test target words were presented alone, with a
    weak cue, or with a strong cue (never studied)
  • Results
  • If a target word was NOT paired with a cue at
    study, it was best remembered when it was paired
    with a strong cue
  • If a target word was paired with a weak cue at
    study, it was best remembered when it was paired
    with a weak cue at test.
  • Previously, it was thought that strong cues were
    best for improving memory performance. Thomson
    and Tulving showed that performance depended on
    if the weak cue was presented at study if it
    was, then performance was best when the weak cue
    was again paired with the target word

16
Context Effects in Memory
  • A change in performance when information is
    studied in one context and remembered in a
    different context
  • Environmental Context incidental aspects of the
    environment, not necessary for encoding or
    retrieving information
  • Semantic Context gives meaning to items (e.g.,
    bank money or river)
  • Example research
  • Abernathy (1940) classroom change
  • Smith (1979) classroom change
  • Light and Carter-Sobell (1970)

17
Context Dependent Memory Effects
  • Memory can be worse when tested in a new or
    different context relative to when context stays
    the same between study and test
  • Works for recall memory tests memory is worse
    with a change in context from study
  • Does not work for recognition memory tests
    performance is not different with a change in
    context
  • Explanations
  • In recall, you are recalling/remembering the item
    and all that is associated with it, which
    includes the context
  • In recognition, the item (target) is given back
    to you at test so you do not need additional
    information (like context) to help with
    remembering the item
  • How can you get context effects in recognition
    with response bias subjects tend to be more
    conservative in their responses with a change in
    context from study to test.

18
State Dependent Memory Effects
  • Psychological/emotional state or pharmacological
    state (not a US state)
  • Application the reason why we don't remember
    our dreams better is because when we are awake,
    we cannot capture the "state" that we were in
    while dreaming (Prince, 1910)
  • If you learn something while you are calm and are
    tested in a state of shock (e.g., earthquake)
    then you will have difficulty remembering what
    you have learned (Susokita, 1934)
  • Happy and neutral moods best performance if you
    match the moods between study and test (Bartlett
    Santrock, 1979)
  • Alcohol, marijuana, nicotine best performance
    if you match the pharmacological state between
    study and test
  • Performance is the absolute worst if you study in
    the pharmacological state and test in a sober
    state (cues are different) but not vice versa
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