Short Term & Working Memory 2024 PDF

Summary

This document provides lecture notes on short-term and working memory, including discussions of models, capacity, and processes. The notes cover topics like the Atkinson-Shiffrin model and Baddeley's working memory model. They're suitable for undergraduate psychology courses.

Full Transcript

SHORT TERM & WORKING MEMORY
PSYC 3310 MEMORY & COGNITION
FALL 2024
 ANNOUNCEMENTS

Exam 1 grades released!
Journal Article Assignment #1 due 10/3 at 5:00
PM
Short-term & Working Memory Lecture
PollEverywhere
Quiz #4 on Thursday, 10/3

PSYC 3310 MEMORY & COGNITION
QUESTIONS TO CONSIDER

Why can we remember a telephone number long enough to
place a call, but then we forget it almost immediately?
What are the limits of short-term memory and how can we get
around them?
How is memory involved in processes such as doing a math
problem?

PSYC 3310 MEMORY & COGNITION
WHAT IS MEMORY?

Memory: processes involved in retaining, retrieving, and using
information about stimuli, images, events, ideas, and skills
after the original information is no longer present

Active any time some past experience has an impact on how you
think or behave now or in the future

PSYC 3310 MEMORY & COGNITION
THE MODAL MODEL OF MEMORY

Atkinson and Shiffrin (1968)

PSYC 3310 MEMORY & COGNITION
THE MODAL MODEL OF MEMORY
Atkinson and Shiffrin (1968)
Three different types of memory:
1. Sensory Memory – Initial stage that holds all incoming information
(large capacity) for seconds or fractions of a second (very short
duration)
2. Short-term Memory – Holds five to nine items (small capacity) for
about 15 to 30 seconds (short-ish duration).
3. Long-term Memory – Can hold a large amount of information for years

PSYC 3310 MEMORY & COGNITION
THE MODAL MODEL OF MEMORY

Atkinson and Shiffrin (1968)
Control processes: active processes that can be controlled by
the person
Rehearsal
Strategies used to make a stimulus more memorable
Strategies of attention that help you focus on specific stimuli

Example: looking up an
address
PSYC 3310 MEMORY & COGNITION
THE MODAL MODEL OF MEMORY
What happens in different parts of Rachel’s memory as she is

(a, b) looking up the phone number

(c) calling the pizza shop

(d) memorizing the number (ENCODING)

(e) she retrieves the number from long-term memory to order pizza again.
(RETRIEVAL) The parts of the modal model that are outlined in red indicate
which processes are activated for each action that Rachel takes.

Goldstein, Cognitive Psychology, 5 th Edition. © 2019 Cengage. All Rights Reserved. May not be scanned, copied or
duplicated, or posted to a publicly accessible website, in whole or in part.
PSYC 3310 MEMORY & COGNITION
SENSORY MEMORY

Sensory Memory: The retention, for brief periods of
time, of the effects of sensory stimulation.
Holds large amount of information for a short period of time
Information decays very quickly
Collects information
Holds information for initial processing
Fills in the blank
Persistence of vision: retention of the perception of light
Sparkler’s trail of light
Frames in film

PSYC 3310 MEMORY & COGNITION
SENSORY MEMORY

Sperling, 1960 X M L T
Measuring the capacity and duration of sensory memory A F N B
C D Z P
Array of letters flashed quickly on a screen (50/1000 second)
Participants asked to report what they saw
Whole report method: participants asked to report as many as could be seen
Average of 4.5 out of 12 letters (37.5%)
Partial report method: participants heard tone that told them which row of letters
to report (tone presented immediately after the letters were turned off)
– Average of 3.3 out of 4 letters (82%)
– This was true of all the rows
Delayed partial report method: presentation of tone delayed for a fraction of a
second after the letters were extinguished
– Performance decreases rapidly
PSYC 3310 MEMORY & COGNITION
 SENSORY MEMORY

The decrease in performance is due to the rapid decay of sensory mem
PSYC 3310 MEMORY & COGNITION
SENSORY MEMORY

Iconic memory: Brief sensory memory of the things
that we see
Responsible for persistence of vision
Echoic memory: Brief sensory memory of the things
that we hear
Responsible for persistence of sound

PSYC 3310 MEMORY & COGNITION
THE MODAL MODEL OF MEMORY

Atkinson and Shiffrin (1968)
Three different types of memory:
1. Sensory Memory – Initial stage that holds all incoming information
(large capacity) for seconds or fractions of a second (very short
duration)
2. Short-term Memory – Holds five to nine items (small capacity) for
about 15 to 30 seconds (short-ish duration).
3. Long-term Memory – Can hold a large amount of information for
years

PSYC 3310 MEMORY & COGNITION
SHORT-TERM MEMORY

Includes both new information received from the sensory stores and
information recalled from long-term memory
Stores small amounts of information for a brief duration
How brief?
Peterson & Peterson (1959)
They would say some letters and then a number.
The participant had to remember the letters and when they said the
number, repeat it and begin counting backwards by 3s from that
number. Until they hear: RECALL RECALL = stop counting and say the
three letters
For example:
Experimenter: “ABC 309”
Participant: “309, 306, 303….”
Experimenter: “RECALL”
Participant: “ABC” PSYC 3310 MEMORY & COGNITION
SHORT-TERM MEMORY

After three seconds of counting, participants performed at 80%
After18 seconds of counting, participants performed at 10%
This reduction in performance is explained by the existence of
decay, which is the vanishing of a memory trace due to the
passage of time and exposure to competing stimuli
Short-term memory,
when rehearsal is
prevented, is about
15-30 seconds

PSYC 3310 MEMORY & COGNITION
SHORT-TERM MEMORY

5 6 8 2
1 6 9 4 0
3 5 8 1 8 2
2 1 2 5 3 7 4 “Magical number 7
0 8 9 8 3 7 16 (+/-2)”
*there has been a lot of
3 5 2 8 5 9 458 debate about this…some
suggest it may be closer to
6 4 5 9 8 2 9861 4-5 depending on the
person and the content*
PSYC 3310 MEMORY & COGNITION
SHORT-TERM MEMORY

Capacity of short-term memory
Digit span: how many digits a person can remember
Typical STM capacity is: ~5-9 items
But what is an item?
1492200119651066
1492 2001 1965 1066

Chunking: small/individual units can be combined into larger
meaningful units
Chunk is a collection of elements strongly associated with one another
but weakly associated with elements in other chunks
PSYC 3310 MEMORY & COGNITION
SHORT-TERM MEMORY

Ericsson et al., (1980)
Trained a college student with average memory ability to use
chunking
S.F. had an initial digit span of 7
After 230 one-hour training sessions, S.F. could remember up to 79
digits
Chunking them into meaningful units
Running times (e.g., 3.492 = 3 minutes and 49.2 seconds, near world record
mile time)
893 became 89.3 = very old man

Chunking enables the limited STM capacity system to deal with large
amount of information necessary in everyday tasks we perform
PSYC 3310 MEMORY & COGNITION
THE MODAL MODEL OF MEMORY

Atkinson and Shiffrin (1968)
Three different types of memory:
1. Sensory Memory – Initial stage that holds all incoming information
(large capacity) for seconds or fractions of a second (very short
duration)
2. Short-term Memory – Holds five to nine items (small capacity) for
about 15 to 30 seconds (short-ish duration).
3. Long-term Memory – Can hold a large amount of information for
years

PSYC 3310 MEMORY & COGNITION
WORKING MEMORY

Similar concept to short-term memory
Baddeley and Hitch (1974)
Working memory (WM): limited capacity system for temporary
storage and manipulation of information for complex tasks such as
comprehension, learning, and reasoning
Working memory differs from STM
STM holds information for a brief period of time
WM is concerned with the processing and manipulation of information
that occurs during complex cognition
E.g., do long division in our head; calculate a tip, spell a word, keep a
conversation going

PSYC 3310 MEMORY & COGNITION
 WORKING MEMORY

Baddeley and Hitch (1974)
Working memory must be dynamic and consist of multiple
components that can function separately

PSYC 3310 MEMORY & COGNITION
 WORKING MEMORY: PHONOLOGICAL LOOP

Baddeley and Hitch (1974)

Phonological Store Articulatory rehearsal process
Rehearsal: actively maintaining
Limited capacity and holds
items in WM by repeating them
information for only a few over and over
seconds Rehearsal that can keep items in
Articulatory rehearsal keeps the phonological store from
decaying
things in this storage space

PSYC 3310 MEMORY & COGNITION
 WORKING MEMORY: VISUOSPATIAL SKETCH PAD

Baddeley and Hitch (1974)
Holds visual and spatial information
Visual information = what objects look like
Spatial information = relationship between
objects
Involved in visual imagery
creation of visual images in the mind in the
absence of a physical visual stimulus
Also involved in mental rotation tasks

PSYC 3310 MEMORY & COGNITION
WORKING MEMORY

WM is set up to process different types of information
simultaneously
e.g., do a mental rotation task while listening to a conversation
WM has trouble when similar types of information are
presented at the same time

PSYC 3310 MEMORY & COGNITION
 WORKING MEMORY: CENTRAL EXECUTIVE

Baddeley and Hitch (1974)
Attention controller
Focus, divide, switch attention
Controls suppression of irrelevant
information
Perseveration: repeatedly
performing the same action or
though even if it is not achieving
the desired goal
patients with frontal lobe damage
have difficulty controlling their
attention (inhibiting), task switching

PSYC 3310 MEMORY & COGNITION
WORKING MEMORY: EPISODIC BUFFER

Backup store that communicates with LTM and WM components
Hold information longer and has greater capacity than phonological loop
or visuospatial sketch pad

PSYC 3310 MEMORY & COGNITION
WORKING MEMORY & THE BRAIN

Frontal cortex is involved in WM and attention
Prefrontal cortex responsible for processing
incoming visual and auditory information
Monkeys without a prefrontal cortex have difficulty
holding information in working memory
Delayed-response task
“out of sight out of
mind”

PSYC 3310 MEMORY & COGNITION
 WORKING MEMORY & THE BRAIN

unahashi et al. (1989)
Single cell recordings from monkey’s prefrontal cortex during a delay-response
Neurons responded when
stimulus was flashed in a
particular location and during
delay
Information remains available
via these neurons for as long
as they continue firing

PSYC 3310 MEMORY & COGNITION