PSY20007 Week 6 Attention - Part 3 & 4 PDF

Summary

This document contains lecture notes on attention, focusing on structural and capacity theories. It discusses learning objectives, debates about selective attention, and examines the costs of divided attention. The materials are suitable for an undergraduate psychology course.

Full Transcript

Attention III.
Structural and Capacity Theories
Readings
Goldstein, ch. 4, pp. 99, 105, 106, 112-118
Norman, ch. 4 “A Capacity Model of Attention”
Styles, ch. 7 “Divided Attention”
 Learning Objectives

Global Learning Objective

Understand and explain the main theories, concepts, and findings in selective attention
research from the the 1950s until the present


Understand and explain the complementary relationship between theories and experiments
in attention research and the way each drives development of the other
 Learning Objectives
Today’s Learning Objectives

Explain why Moray (1970) believed his divided attention experiment was inconsistent
with both late and early selection

Describe the difference between structural and capacity theories of attention

Explain what is meant by an Attention Operating Characteristic and how capacity
theories predict "graceful degradation" of performance when attention is divided

Describe the strengths and weaknesses of capacity theories

Describe Posner's "spotlight of attention" metaphor and how its predictions are tested in
cuing experiments

Describe three kinds of evidence for the existence of two different attentional control
systems

Explain what is meant by "inhibition of return" and its significance for attentional
control
 Early vs. Late Selection Debate (1960s)

 Developments from Filter Theory (Broadbent, 1958)
Attention viewed as a selective filter to protect a limited-capacity
system from overload
Argument about what gets through the filter and where the filter
is located
 Summary of Evidence

 Early Selection Theory

 Filter before LTM
 Evidence:
 reduced detection accuracy on unattended channel (Treisman &
Geffen, 1967)
 Late Selection Theory

 Filter after entry to LTM
 Evidence:
Semantic activation on unattended channel (McKay, 1973; Von
Wright, Anderson & Stenman, 1975)
 Early Selection Reply
 Late Selection

 Semantic activation on unattended channel shown by indirect means
 Early Selection

 Doesn't deny weak activation of semantic material on unattended
channel. Indirect measures don't show it occurs to the same degree
 ES: Weak semantic activation on unattended channel; LS: brief semantic
activation on unattended channel. Really possible to distinguish?
 Some phenomena not predicted by either?

 Shadowing tasks investigate attentional filtering (try to exclude
distracting material). Can study divided attention instead.
 How well can we distribute attention across multiple channels?
Cost of Divided Attention (Moray, 1970)
Auditory signal detection: Pure
tone stimuli.

Selective: Monitor for targets on
one channel only

Exclusive OR (XOR):
Monitor both channels, no
simultaneous targets
Cost of Divided Attention (Moray, 1970)

 Inclusive OR (IOR): Monitor
both channels, simultaneous
targets possible
 Compare simultaneous targets
(AND trials) and
nonsimultaneous (OR trials)
 Moderate cost of divided
attention (OR < SEL)
 Large cost of simultaneous
detection (AND < OR)
Implications of Moray Study
 Early Selection:

 Predicts OR < SEL because there is
attenuation with divided attention
 Doesn't predict AND < OR because
attenuation shouldn't depend on
identity of stimulus
 (Target/nontarget distinction made
in limited-capacity system, so if
filtering occurs before this,
distinction shouldn't matter)
Implications of Moray Study
 Late Selection:

 Predicts AND < OR because two
simultaneous targets will both be
selected by “pertinence” and
compete to get through filter
 Doesn't predict OR < SEL because
if there aren't two targets, expect no
competition
 So not consistent with either early
or late selection?
 Maybe need a new kind of theory?
 Structural and Capacity Theories (The 70’s View)

 Two ways in which attention can limit performance:

 Structural (Bottleneck) Theories

 Some neural structures can only deal with one stimulus at a time
 Competition produces processing “bottleneck” (filter theory)
 (ES: bottleneck getting into LTM; LS bottleneck getting out)
 Capacity (Resource) Theories:

 Information processing is mental work
 Work requires activation of neural structure
 Limited capacity to activate structure
 Capacity Theory (Kahneman, 1973)

 Reduction of capacity produces deficit in divided attention tasks

 Differs from structural theories because capacity can be allocated flexibly
to simultaneous tasks
 Interfering Effects of Divided Attention

Strayer and Johnston (2001): Talking on a mobile phone interferes
with driving (sharing capacity reduces accuracy and increases RT)
100 ms @ 60 km/h ~ 1.7 m
 Dual Task Performance (Li et al., 2002)

Attention demanding central task (letters same or different?)
Easy or hard peripheral task (animal present? “Phase” of disk?)
Difficult task much more affected by central load
Capacity Theory Explains “Inattentional Blindness”

Cartwright-Finch & Lavie (2007) – which arm of flashed cross
is longer?
Clearly visible square not detected
Demanding central task uses all available capacity
Study Capacity by Dual Task Trade-Offs

 Attention operating
characteristic (AOC)
 Vary proportion of attention
allocated to two tasks in dual
task paradigm
 “Graceful degradation” of
performance as available
capacity is reduced
 Shape of trade-off curve tells
us about capacity demands
of tasks
Auditory and Visual Dual Tasks
Bonnel & Hafter (1998)

 Easy auditory and visual tasks
(detecting spot of light or tone) –
triangles
 Difficult auditory and visual tasks
(discriminating increases from
decreases in intensity of spot or
tone
 Difficult task trades off, easy one
doesn’t
 Different capacity demands
 Pros and Cons of Capacity Theory (With Hindsight)

 Value of capacity theory is new experiments it led to
 Emphasises divided attention, flexibility of attentional control
Shortcoming is its vagueness (can always come up with a capacity
explanation)
 Can make capacity theories mathematically precise using decision-
making theories
 Attention IV.
The Control of Visual Attention

Styles, ch. 4 “The Nature of Visual Attention” pp. 61-70
Styles, ch. 5 “Visual Attention” pp. 74-77
Goldstein, pp. 94-100
 Attentional Orienting (1980s)

First work on attention looked at auditory system (stereo tape
recorders developed before visual displays)
Also problem of eye movements:
 Natural environment: movement in peripheral vision produces
saccadic eye movement, greater visual acuity in foveal vision
 Not interested in this!
“Covert” attention – movement independent of eye movements
Attention shifts precede eye movements and can occur without
them
Shifts of attention called attentional orienting
 Posner: The “Spotlight of Attention”

 Shifts of attention likened to
moving spotlight
 Selective enhancement for stimuli
“illuminated by the beam”
 Expresses selective, limited-
capacity idea in spatial terms
 Studying the Spotlight of Attention

 Spatial Cuing Paradigm (Posner)

 Attract attention to A, present
stimulus at A or B, compare
performance
Spatial Cuing Paradigm

Fixation Field
(maintain central fixation
throughout trial)
 Spatial Cuing Paradigm

Cue Field
Wait for specified SOA
(stimulus onset
asynchrony) 100-300
ms

 (Saccades take about 200 ms. Need to monitor eye
movements at long SOAs, not necessary at short SOAs)
Spatial Cuing Paradigm (Detection Target)

Present stimulus
Measure detection RT
Cued (valid) trial:
stimulus occurs at
attended location
Spatial Cuing Paradigm

Miscued (invalid) trial:
stimulus occurs at other
location (with low
probability)
Spatial Cuing Paradigm

Stimulus Field
Uninformative cue
(50% left, 50% right)
Baseline to compare
valid and invalid
 Attentional Costs and Benefits
Posner, Nissen, & Ogden (1978)

Benefits:
 Faster RT with valid
cue
Costs:
 Slower RT with invalid
cued
Very flexible: can be used
with RT or accuracy, and to
compare all kinds of
stimuli
 Causes of Cuing Effects

Costs and benefits can be due to:
Switching Time
Time to move the spotlight
 Costs of disengaging from wrong location, benefit from
engaging at correct location before stimulus
Unequal Capacity Allocation
 RT depends on capacity allocated to location
 Neutral: capacity spread across locations; focused:
capacity concentrated on one location
Hard to test between these alternatives
 Attentional Orienting

 Natural environment: Shifts in attention can be top-down (decide to shift
attention) or bottom-up (something captures attention)
 Need both kinds of systems to function

 Clinical patients show deficits of both kinds: failure to focus attention,
failure to disengage attention
 Two attentional control systems?
How Many Orienting Systems?

Endogenous
 (voluntary)
Exogenous
 (reflexive)
Two systems engaged by
different kinds of cues
One is cognitive (need to
interpret); other direct, spatial
(no need to interpret)
Have different properties
 Evidence for Separate Orienting Systems, I

Different time course of central and peripheral cuing
Peripheral effect peaks rapidly, central effect peaks slowly
 Evidence for Separate Orienting Systems, II

Different effects of load (Jonides, 1981)
Voluntary orienting slowed by memory load; reflexive orienting is not
Consistent with different capacity demands of two systems
 Evidence for Separate Orienting Systems, III

Inhibition of Return:
 Found only with peripheral cues, not with central cues
 What's the Purpose of Inhibition of Return?

 Ecological argument: Allows efficient search of complex environment.

 Prevents repeated search of same location. Don't need to maintain a
“mental map” of locations that have been searched
 Attentional Orienting Experiments

 Multiple sources of evidence for two systems:

 Effects of SOA and cue type: Reflexive system is faster, more
transient; voluntary is slower, more sustained
 Affected differently by load: Suggests voluntary system is under more
cognitive control
 Reflexive shows inhibition of return, voluntary doesn't. Suggests
reflexive controlled by different processes
 Combination of bottom-up and top-down control

 Need to be able to focus attention, exclude irrelevant stimuli; also to
respond to unexpected threats