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Encoding in Long-Term Memory
EXP 4404 - Psychology of Learning
Chapter 9
Levels of Processing
Z Craik & Lockhart (1972)
Z Proposed that memory retention varied with
the type of encoding (or depth of processing)
rather than with the amount of rehearsal in
STM
Intentional Versus Incidental Learning
Z Does the intention to learn influence the quality of
encoding or duration of memories?
Z Intentional Learning Tasks
Š the participant knows that memory will be tested
Š an effort is made to learn the material (intention to learn)
Z Incidental Learning Tasks
Š the participant is asked to do the task for some bogus
purpose (e.g., develop norms for stimuli)
Š assume task is done with no intention to learn the material
Š memory test given at the end of the task is a surprise
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Effects of Intention to Learn
Z Comparisons of intentional and incidental
learning tasks suggest that the intention to
learn has no effect on memory quality
Z Memory quality is affected by the quality of the
processing task performed
Z When we intend to learn material, we tend to
select processing tasks that produce better
memory performance
Š Metacognition : our understanding of the relation
between processing tasks and memory performance
Types of Rehearsal
Z Maintenance Rehearsal
Z Elaborative Rehearsal
ZLevels of Processing
Š shallow processing
• focus on sensory qualities only
Š intermediate processing
• e.g., phonological recoding of a visual stimulus
Š deep or semantic processing
• focus on the meaning and associations with prior
knowledge
Effects of Orienting Tasks on Memory
Z Incidental Memory Task
Z Subjects answered 3 types of questions:
Š Shallow Processing: Physical aspects of the stimulus
• Is the word typed in capital letters?
Š Intermediate Processing: Phonemic processing
• Does the word rhyme with weight?
Š Deep Processing: Processing the meaning of the
word (Semantic Processing)
• Does the word fit in the sentence: “He met a
_____ on the street?”
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Memory Performance as a Function of
Orienting Task
Percent Correct Recognition
90
80
70
60
50
40
30
20
10
0
Shallow
Intermediate
Deep
Orienting Task
yes
no
Current Status of the Levels-of-Processing
Approach
Z The problem of defining processing depth
Š Baddeley argues that the definition of processing
depth is circular
• depth is defined in terms of its effect on memory
performance (which is what it is intended to
explain)
Š Differences between memory for “yes” and “no”
responses indicate that the semantic depth definition
does not explain all memory performance
Transfer-Appropriate Processing
Z Sometimes deep / semantic processing does
not produce the best performance on a memory
task
Z If the memory task requires retention of
superficial characteristics (e.g., recall all of the
words printed in red ink), a task that orients the
person to sensory characteristics will produce
better performance
Z Need a “fit” between the demands of the
memory task and the type of processing
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Other Encoding Influences on Memory Performance
Z Distinctiveness
Š Unusual or distinctive items are remembered better
Š Encoding that makes an item distinctive from other items
will improve memory for that item
Š Von Restorff effect (Isolation effects)
• the distinctive (or isolated) item “stands out” and is
remembered better than other list items
Z Effort of Processing - Some Tasks Require More Effort
Š semantic processing
Š generating an item from memory yourself (versus simply
reading the item)
Š putting a definition of a new term in your own words
requires more effort than memorizing a glossary definition
Generation Effects
Slamecka & Graf (1978)
Z Generate Condition
Š What is a synonym for SEA that begins with O?
• OCEAN
Š What is a word that rhymes with SAVE and begins with
C?
• CAVE
Z Read Condition
Š SEA - OCEAN
Š SAVE - CAVE
Z Test
Š SEA - ???
Š SAVE - ???
Studies of Encoding - Historical Work
Z Ebbinghaus’ work on the learning of new material
(1885)
Š first application of experimental techniques to the study
of learning in humans
Z Development of meaningless syllables to control
for the effects of prior knowledge
Š trigrams - CCC or CVC
Z Spacing effects during learning
Z How new associations are formed during learning
Z Loss of memories over time (forgetting)
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Massed versus Distributed Practice
Z Distributed practice produces memories that
are retained for long durations
Z Massed practice produces memories that are
retained well over short intervals (a few days)
but are not retained well for longer durations
Z Effects of massed vs. distributed practice
depend on the timing of the retention test
Š immediate tests (1 or 2 days) show better
performance with massed practice
Š delayed tests (2 weeks or longer) show better
performance with distributed practice
Expanding Rehearsal
Z Combines the benefits of massed and distributed
practice
Z Initial practice is massed
Š this massed practice establishes a memory trace
Z Later practice increases the spacing between
repeated practice trials
Š items that have not been learned continue to be
practiced at short intervals
Š items that are better learned are practiced with
increasingly longer times between repeated practice
Z Similarity between retrieval-practice effects
Š retrieval trials both test quality of learning and serve as
an additional practice trial
Effects of Organization
Z Organizing material requires that we attend to the
meaning of the material
Š organization is a form of deep processing
Z Value of Organization
Š new material can be fitted into the existing organization
Š organization allows material to be grouped (chunked)
into related clusters of information
Š the organizational structure can serve as a retrieval
mechanism
Z Subjectivity of Organization
Š waiters and bartenders develop unique systems for
organizing and remembering orders without writing them
down
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Role of Imagery
Z Paivio (1971) Dual Coding Hypothesis
Z Proposed two long-term memory systems
Š Verbal Memory - material stored as a verbal code
Š Imaginal Memory - material stored as a visual image
Z Evidence to support the use of imagery codes
in memory
Š superior memory for pictorial information (Standing,
Conezio, & Haber, 1970)
Š value of imagery in mnemonic techniques
Mnemonic Devices
Z Method of Loci
Š memorize a walk through a familiar place
Š visit specific locations (loci) in the same sequence on
the imaginary walk
Š associate new information with each location on the
walk
Š take the walk and retrieve each thing to be
remembered as you visit each location
Z Common technique used by poets, storytellers,
and orators in ancient times
Other Mnemonic Devices
Z Pegword Technique
Š like method of loci, but an ordered list of words is
used instead of a series of physical locations
Š importance of the use of imagery to connect new
information to the peg words
Z Keyword Technique
Š used mainly in learning foreign language vocabulary
Š create a visual image that is associated to the sound
of the word in the new language
Š connect this image to the meaning of the word in
English
Š works best for short-term retention only
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Pegwords for Encoding & Recall
Z One is a BUN
Z Two is a SHOE
Z Three is a TREE
Z Four is a DOOR
Z Five is a HIVE
Z Six is STICKS
Z Seven is HEAVEN
Z Eight is a GATE
Z Nine is a LINE
Z Ten is a HEN
Role of Imagery & Bizarreness
Z Must images be Bizarre to be useful as mnemonic
devices?
Z Wollen, Weber, & Lowry (1972)
Š
Š
Š
Š
Š
presented 4 types of images to use as mnemonic aids
2 separate images that were not bizarre
2 separate images that were bizarre
2 interacting images that were not bizarre
2 interacting images that were bizarre
Z Interacting images (those that form a unit or
chunk) improved memory
Z Bizarreness alone did not improve the ability to
recall
What Do Mnemonic Devices Tell Us About
“Ordinary” Learning & Remembering?
Z Importance of organization
Z Importance of deep, meaningful encoding
Z Mnemonic associations are self-generated
Z Interactive images illustrate the value of
chunking
Z Encoding includes association with a reliable
retrieval cue that will be available at test
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What can we learn about memory by
studying mnemonic devices?
Z Increase the number of retrieval cues
Š Use Elaborate Processing
Š Use Multiple Processing Strategies
Z Increase trace strength in memory
Š Deeper processing produces stronger memories
Š Practice increases the strength of memory traces
Z Select & Encode retrieval cues that are reliable for
you
Š Relate information to prior knowledge
Š Self-test the reliability of your retrieval cues
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