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HTA As a Framework for Task Analysis

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Title: HTA As a Framework for Task Analysis


1
HTA As a Framework for Task Analysis
  • A. Shepherd 1998
  • Brenda Crook

2
2 Themes
  • Justification of HTA as a framework for analyzing
    tasks rather than method for modeling behavior
  • Treatment of cognitive task elements within this
    framework

3
Hierarchical Task Analysis (HTA)
  • Process of exploring tasks through a hierarchy of
    goals and plans
  • Task problem facing an operator
  • Goal what a person is expected to do
  • Plans conditions when subordinate goals should
    be carried out
  • Distinguishes between the task and the behavior
    recruited to carry out the task

4
HTA
  • Task Analysis identifies strategies by which the
    operator can be facilitated to solve the problem
  • Influenced by Systems Thinking
  • System any complex of inter-related parts
  • Characteristics
  • Functions purpose the system serves in broad
    context
  • System components/sub-components and their
    interaction
  • Hierarchical description of structure of
    components

5
HTA Systems Thinking Influence
  • Hierarchical System Description Can Be
  • Just a description of system at some level of
    detail
  • To imply degree of control in which higher levels
    in the hierarchy influence behavior of lower
    levels
  • HTA supports Systems-Influenced model of human
    behavior through
  • Concepts of Feedback and Control
  • Pursuit of Goal through adaptive behavior
  • Control of Behavior through Feedback

6
HTA Feedback and Control
  • Miller et al (1960) proposed TOTE
  • Describes relationship between action and
    feedback in controlling performance
  • T Operator Tests environment against specified
    criterion
  • O if test is mismatch, Operates to affect
    change
  • T Tests again to check if discrepancy still
    exists
  • E Exits if match accomplished
  • O Operates again if match not accomplished

7
HTA Feedback and Control
  • Annett and Duncan (1967) proposed IAF
  • Feedback and control in approach to task analysis
  • I Input
  • A Action
  • F Feedback
  • Failure to carry out an operation successfully
    will be due to failure of handling I A or F

8
HTA Production Systems
  • TOTE and IAF can be compared to production
    systems used in cognitive modeling
  • Production condition-action statement
  • Condition T (in TOTE) or I or F (in IAF)
  • Action O (in TOTE) or A (in IAF)
  • Production is triggered when circumstances match
    condition
  • When a condition consistently matches a
    specified pattern, the action should follow
  • Feedback different set of conditions warrants a
    different action
  • Connection between task analysis and cognitive
    modeling

9
HTA Analytical Strategy vs Model
  • Systematic examination of tasks to establish
    hypotheses to enable goals to be attained
  • HTA as model of behavior suggests
  • Everyone organizes task data the same way
  • Utilization information in pursuit of goals is
    consistent across all circumstances
  • Doesnt address changes in mental organization of
    task information as more or less skill is achieved

10
HTA Strategic Framework
  • 9 Elements
  • Relies upon other methods and perspectives to
    enable completion
  • Systematic strategy important particularly in
    large multiple-activity tasks
  • Hierarchical representation of task
  • Ensures fit of task and behavior to system goals
  • Identifies adjustments to task or task affordance
    to support behavior capabilities
  • Identifies modifications in behavior to meet task
    demands

11
HTA Strategic Framework
  • Setting Goals
  • Identify main work goal associated with problem
  • Observing Constraints
  • Constraints associated with goal attainment
  • Can be environmental, management, design
  • Calculating Criticality
  • Importance of goal and reliability of execution
  • Can be subjective or data-based
  • Only examine critical task elements

12
HTA Strategic Framework
  • Ceasing Redescription
  • Analysis stops for non-critical tasks identified
    in 3
  • Generating Hypotheses if performance is not
    satisfactory
  • Examine operator-system interaction
  • Human error analysis, model behavior to determine
    weaknesses
  • Make design suggestions
  • Observe constraints throughout
  • Cost-Benefit Analysis
  • Hypotheses costs
  • Changes as project/analysis progresses

13
HTA Strategic Framework
  • Recording the Analysis
  • Provides documentation of progress, how task was
    represented, proposed design solutions, rejected
    hypotheses
  • Redescription
  • May not have design hypotheses
  • Re-examine task in terms of sub-systems/subordinat
    e operations
  • Challenging Constraints
  • When no hypotheses can be established

14
HTA as Strategy vs Behavior Model
  • Framework that relates various stages of decision
    making encountered in a task
  • Generalized task analysis strategy that employs a
    variety of methods as part of task analysis vs.
    as a precursor
  • Hierarchy of operations and plans and thus
    distinguishes task from behavior

15
HTA and Cognition Analysis
  • Preece et al (1994) distinction between HTA and
    Cognitive Task Analysis (CTA)
  • HTA establishes accurate description of steps
    required to complete a task
  • CTA represents knowledge that needed to
    complete the task
  • Argument successful performance in all tasks
    depends upon interaction between physical and
    cognitive elements

16
CTA in HTA Framework
  • CTA methods can be utilized within HTA frame
  • GOMS Goals, Operations, Methods, Selection rules
  • TAG Task, Action, Grammar
  • TAKD Task Analysis for Knowledge Description
  • Use within HTA frame
  • economy of effort
  • Ensures examination of task elements not done in
    vacuum

17
CTA in HTA Framework
  • HTA supports recent approaches to cognitive
    modeling unitary theories of cognitive
    architecture (Hjaer and Hansen 1995)
  • Role of knowledge within processes of learning,
    inference, and decision making in producing
    behaviors
  • Manner in which information is acquired, stored,
    organized and retrieved to account for decision
    making and performance across range of task
    elements
  • Demonstrates need to account for behaviors that
    interact across task hierarchy
  • Mapping cognitive task elements onto cognitive
    skills difficult
  • Physical tasks are visible

18
CTA in HTA Framework
  • HTA supports CTA through inferring cognitive task
    elements onto cognitive skills by stating plans
  • Decision process can be inferred
  • Different actions consistently carried out in
    different circumstances
  • Monitoring can be inferred
  • Operator jumps to action following period of
    inactivity
  • Diagnosis, Rectification, Compensation, Recovery
  • Carrying out tasks to maintain system status

19
HTA Advantages in CTA
  • Can identify what is supposed to be achieved
  • Task must first be understood to anticipate
    demands on cognition
  • Cognitive task variation based on demands placed
    on individual
  • Can establish interaction between cognition and
    action
  • Can identify inter-relationships between
    cognitive skills underlying and interacting with
    different cognitive task elements

20
HTA Advantages in CTA
  • Can Identify task elements in context
  • Factors that influence performance of a cognitive
    task element
  • Goal context situational factors such as crisis
  • Frequency, Predictability, and Coincidence
  • Predictable events can be automated
  • Determine unpredictable events and when they may
    occur together increased cognitive demands may
    limit performance
  • Priming prompts to operator for next step
  • Decision Outcome and Criticality

21
Survey Results in Quality and Practicability in
Task Analysis
  • Ainsworth and Marshall 1998

22
Quality and Practicality in Task Analysis
  • Surveyed Defense and Nuclear Industries
  • Purpose
  • Examine ways in which TAs were conducted
  • Examine extent of variability between TAs
  • Examine suitability of different TA methods

23
Defense Industry Results
  • 27 reports obtained
  • Use of TA method
  • Depended on purpose of TA
  • Multiple methods often listed
  • Ranged across eight different TA methods
  • HTA, cognitive modeling, scenario-specific
    modeling, workload analysis, qualitative
    assessments, link analysis, functional flow
    analysis, taxonomies and error analysis

24
Defense Industry Results
  • Data Collection
  • Data sources not clearly defined affects
    confidence of findings and recommendations
  • Mostly used sequential task lists little HTA for
    complex tasks order
  • Good use in general of decomposition tables
  • More detailed decomposition detailed
    recommendations
  • High reliance on subjective workload analysis to
    determine functional allocations
  • of limited use by itself

25
Defense Industry Results
  • Graphical Techniques
  • Not always used effectively
  • Confusion about techniques
  • Failures to exploit representations
  • Inappropriate scales
  • Too complex diagrams trivial/missed
    relationships
  • Data Presentation
  • Analysts not identified/ SME background unknown
  • ? Basis of recommendations opinion vs.
    understanding

26
Defense Industry Results
  • Data Presentation (cont.)
  • Level of detail of analysis inconsistent
  • Leads to difficulty in prioritizing
    recommendations/making alternate resolutions
    difficult
  • Methodology for task timings not reported

27
Nuclear Industry Results
  • 70 reports
  • Each TA categorized by respondents into one of
    six phases of system life cycle
  • Concept, feasibility, project definition,
    detailed design, acceptance/commissioning,
    in-service
  • TA not used much during concept phase
  • Defense industry tended to use TA earlier in
    design process
  • Depth of analysis high when HF expertise used

28
Nuclear Industry Results
  • TA Method
  • HTA widely used
  • Task plans with text vs flow diagrams
  • Complex plans resulted in unclear diagrams
  • Task decomposition in over half
  • More complex decomposition more detailed recs
  • 12 TAs were task descriptions from written
    procedures
  • Task steps missed/unchecked
  • Recs tended to be generic and without
    psychological insights

29
Nuclear Industry Results
  • Data Collection
  • Most popular were walk/talk-throughs, informal
    discussions
  • Effective use and format
  • Scenario specific focus
  • Timelines used widely
  • Use was good
  • Basis for timing unclear in some
  • Error analysis depth/scope varied
  • Data Presentation
  • Variable presentation of reports, some with no
    HTA diagrams
  • No structured overview of task
  • Model used by analyst not illustrated

30
Conclusions
  • Over 100 TAs examined in 2 surveys
  • Provided useful insights into ways that TAs are
    utilized by organizations
  • Identified areas of improvement

31
Conclusions
  • Differences between defense and nuclear industry
    use of TAs
  • Presentation of TA objectives not clear to
    defense analyst
  • Depth of analysis/level of HF expertise was
    greater in the nuclear industry

32
Recommendations
  • Define objectives of TA clearly
  • Avoids superficial/costly study
  • Report methods and data sources
  • Enables user to assess weight of recommendations
  • Ensure task analysis for complex tasks is
    accomplished by someone with psychological
    expertise
  • Analysis more insightful
  • Develop guidelines to address various stages of
    conducting a TA
  • Advice should be systematic vs prescriptive/inflex
    ible rules

33
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