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Culture Representation in HRA

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Title: Culture Representation in HRA


1
Culture Representation in HRA
  • David Gertman
  • Steven Novack
  • Julie Marble
  • December, 2006

2
Why quantify cultural aspects for systems?
  • All systems are vulnerable to compromise
  • The human is a significant system element
  • Human behavior is more difficult to predict than
    other system elements
  • Culture is a universally significant influence on
    human behavior
  • To more accurately assess and estimate system
    performance requires that you understand the
    cultural context

3
Culture
  • shaping of human expectations and behavior for
    a group of people based upon the collection of
    attitudes, values, beliefs, and norms for
    performance.
  • Culture influences the probability that a
    particular course of action is followed

4
Cultural Aspects of IO
Effects
Scope
Level
Criteria
Duration
Degrade
Disrupt
Influence
Deny
Destroy
Deceive
Exploit
Adversary influence
Offensive Ops
Adversary influence
Military Leadership
Military Leadership
Industry
Adversary influence
Adversary influence
CMO
General Population
Targets (High Level)
Industry
Religious Groups
5
Anticipate System Behavior
  • To predict you need to understand each system
    element
  • Comprehend inter-relationships between system
    elements on a functional level
  • Define temporal and spatial demands on each
    element
  • The human response is not only a function of
    training, but reflects the extent to which a
    culture or subculture trusts that technology
  • Importance of the human response increases as
    duration elongates

6
Research Objective
  • Develop a method to quantitatively estimate
    cultural influence on system performance
  • Address known deficiencies
  • Lack of culture-specific data
  • Based on US operator information and procedures
  • Screening level approach to uncertainty
  • General methodology applied to a wide range of
    datasets

7
History of accounting for human actions and
decisions
  • Human factors was established by the military as
    a part of systems life cycle development in the
    1950s
  • Human reliability analysis (HRA) has evolved from
    the US nuclear communitys need to support
    probabilistic safety analysis including risk
    significant, safety critical operator actions
  • Since the 1970s, HRA data sets have been
    developed from operating experience, behavioral
    science studies, and consensus expert judgment
    methods
  • Traditionally, human factors deals with
    successful performance, HRA is different
  • HRA an accepted approach to quantifying human
    reliability

8
Human Reliability Analysis (HRA)
  • Estimates performance in complex, critical
    systems
  • Base rate of error modified by effects of
    context/performance shaping factors (PSFs)
  • CAM uses a set of 8 pre-defined PSFs from HRA
  • Fatigue, stress, workload, fitness for duty,
    complexity, time, ergonomics/HMI, experience and
    training and culture
  • PSFs significantly affect reaction times and
    error probabilities within the system
  • HRA does not assess culture other than safety
    culture
  • All data derived from US operators and applied to
    US contexts
  • Significant differences in communications and
    work practices due to culture, and
  • Technology acceptance reflects availability and
    value

9
Populating system logic models with HRA data
  • Human system performance can be characterized in
    the event trees fault trees, influence diagrams
    or event sequence diagrams
  • INL prefers event sequence diagrams
  • Allows visualization of multiple sequences and
    response pathways in a single diagram
  • Allows for calculation of three important
    parameters time, probability, and human
    decisions and actions
  • Used successfully for a number of DoD-sponsored
    efforts

10
ESD example
11
Culture
  • Behavior and expectations that distinguish the
    members of one group from another
  • Performance with the same equipment can vary
    widely due to culture (both safety records and
    availability)
  • Influences how the actions of others are
    perceived, and response to events
  • Combines with situational aspects to affect human
    decision-making and actions
  • Changes the probability associated with pathways
    and values in ESDs

12
Cultural Adjustment Method (CAM)
  • Enhanced Human Reliability Analysis (HRA) Method
  • Produces qualified Human Error Probabilities
    (HEPs) for use in ESDs
  • Provides inputs for determining ESD pathways and
    response probabilities
  • Addresses uncertainty

13
CAM Overview
  • The CAM approach updates the human error
    probabilites
  • CAM has analysts evaluate the influence of
    culture parameters
  • Power distance
  • Uncertainty avoidance
  • Technology acceptance
  • Ratings are used to determine a modifier
    (multiplier) for the base failure rate

14
CAM Factor 1 Technology Acceptance
  • Technology Acceptance Model (Davis 1989)
    Factors
  • 1. Perceived ease of use of technology
  • Transparency and predictability of system
  • 2. Perceived usefulness of technology
  • Degree users think the technology helps them work
  • 3. Innovation
  • Degree to which a technology affords the user
    additional or enhanced capabilities
  • Does not predict use or acceptance
  • 4. Degrees of acceptance
  • Compliance Use because it is required
  • Identification Use to fit in to a group
  • Internalization Use because tool is an aid

15
CAM Factors 2 3 Power Distance and Uncertainty
Avoidance
  • Hofstede
  • Power Distance - how a culture distributes
    authority, superior subordinate relationships,
    equality, social distance, hierarchical aspects
  • Uncertainty avoidance - extent to which a culture
    tolerate situations for which rules are ill
    defined, reliance on procedures, extent to which
    individuals are reinforced to take initiate in
    unsure situations,acceptance of uncertainty in
    everyday life
  • These factors are determined to be orthogonal

16
CAM Process
17
CAM Uncertainty Approach
  • Uncertainty approach consistent using small or
    large datasets (Bayesian Updating)
  • Weight of evidence applied to PSFs
  • Uncertainty about the value of the PSF
  • The confidence in the data reflects the size of
    the underlying data set.
  • Minor modification to the error rate
  • Consistent with the weight of evidence concept

18
Example Application
  • Facility response to loss of power involving
    SCADA
  • Three different cultures considered
  • US Culture, Culture A, Culture B
  • Time to respond as well as the decision made on
    which action to take first is computed for the 3
    cases
  • Will the linemen check the substation first or go
    directly to the facility?
  • Resulting pathways could determine mission
    success
  • Culture influences trust in SCADA technology
    deference to authority, and reliance on work
    practices
  • HEP portion of the analysis focuses on the
    relative success or failure associated with the
    actions selected.

19
Culture effects calculated using CAM
20
Conclusion Areas for CAM application
  • All pillars of IO (OPSEC,PSYOP,CNO,MILDEC, EW)
  • Planning, training and execution
  • CIP
  • HRA for chemical and nuclear facilities
  • Emergency response (DHS)
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