last modified: 13/02/2003
This concerns a Course |
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ECTS credit points: 4 |
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Faculty of Mechanical Engineering and Marine Technology |
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Section of Man-Machine Systems |
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Lecturer(s): Wieringa,
prof.dr.ir. P.A. |
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Catalog data: Human Operator Models, Operator Supervisory
Control, Cognitive Modeling, Task Analsysis, Operator Support Systems, Human
Error, Alarm Handling |
Course year: |
MSc 1st year |
Period: |
1A, 1B |
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Hours per week: |
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Other hours: |
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Assessment: |
Oral exam |
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Assessment period: |
1B, 2B |
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(see academic calendar) |
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Prerequisites (course
codes): wb2310, wb2306 |
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Follow up (course
codes): |
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Detailed description
of topics: The entire spectrum between manual and
supervisory control is treated using examples from the litrature, own
research results en ongoing work. The student is encouraged to use a system
& control engineering approach: the operator is considered to be part of
a control loop which is either 1) continuously closed (manual control
situations called 'direct control'), 2) quicly changing between open and
closed control (intermittent control e.g. car-driving or ship navigation), or
3) mainly open loop control (supervisory control e.g. operators in control
rooms). The course is split into two parts: A) theoretical and conceptual overview of the
specialisation: Conceptual models for human behaviour (Rasmussen, Sheridan,
Stassen) and human error (Reason, Swain) and cognitive control (Hollnagel)
will be treated. Some classical accidents will be treated from the Human
Factors point of view. B) Analysis and design tools: For the design and
analysis of human interaction with (complex) systems it is essential to
perform a (Cognitive) Task Analysis (Kirwan, Klein). An operator communicates
with a system at different abstraction levels (Rasmussen, Vincente, Lind). A
hierarchy of abstraction levels is used to analysis human behaviour and
interface design. Alarm handling will be discussed used practical examples. Each year an excursion will be held to a research
centre or industrial plant to show some of the items discussed during this
course. |
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Course material: |
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References from
literature: |
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Remarks assessment,
entry requirements, etc.: The course takes the system and control
engineering approach. Students with a strong focus on information technology
without a basic understanding of control loops will have difficulties during
the first part of the course. |
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Learning goals: Provide an overview of the discipline and learn
students to consider not only the technological aspects of system design but
also the operational, human factors. This is done by providing fundamental
and practical information. |
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Computer use: |
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Laboratory project(s): |
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Design content: Concpets and tools for design and evaluation of
Interfaces with complex systems are discussed |
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