Communicating expertise in system operation and fault diagnosis to non-experts

Staderman, William P.

01 May 2003

The use of systems that span many knowledge domains is becoming more common as technology advances, requiring expert-performance in a domain from users who are usually not experts in that domain. This study examined a means of communicating expertise (in system operation and fault diagnosis) to non-experts and furthering the understanding of expert mental models. It has been suggested that conceptions of abstract models of system-functions distinguish expert performance from non-expert performance (Hanisch, Kramer, and Hulin, 1991). This study examined the effects on performance of augmenting a simple control panel device with a model of the functions of the device, interacting with the model, and augmenting the device with graphically superimposed procedural indicators (directions). The five augmented display conditions studied were: Device Only, Device + Model, Device + Procedural Indicators, Interactive Model, and Interactive Model + Procedural Indicators. The device and displays were presented on a PC workstation. Performance measures (speed and accuracy) and subjective measures (questionnaires, NASA TLX, and structured interviews) were collected. It was expected that participants who interact with the device + procedural indicators would exhibit the shortest performance time and least errors; however, those who interacted with the simplest display (device only) were fastest and exhibited the least errors. Results of this study are discussed in terms of building a mental model and identifying situations that require a mental model. / Ph. D.

mental models

device models

augmented reality

A COMPUTER STUDY OF ACCIDENTAL IGNITION OF ENCASED HIGH EXPLOSIVE CHARGESBY GAS COMPRESSION MECHANISMS

Simpson, Kenneth Owen, 1941-

January 1974

No description available.

A MORPHOLOGY FOR COST EFFECTIVENESS ANALYSES.

Seider, Daniel.

January 1984

No description available.

AEROSOL EFFECTS ON CLIMATE: CALCULATIONS WITH A TIME-DEPENDENT RADIATIVE-CONVECTIVE MODEL

Charlock, Thomas Peter

January 1979

No description available.

Climatology -- Mathematical models.

Aerosols.

Mixing of segregation particles

Chang, Yuehsiung

January 2011

Digitized by Kansas Correctional Industries

Particles

Mixing--Mathematical models

Applications of a unified approach to multiple attribute decision making

Lai, Hseinkung

January 2011

Typescript (photocopy). / Digitized by Kansas Correctional Industries

Decision making--Mathematical models

A generation expansion planning model for electric utilities

Ammons, Jane C.

12 1900

No description available.

Electric utilities Mathematical models

Epidemics in heterogeneous populations : spread, estimation and control

Cairns, Andrew John George

January 1990

No description available.

519.5

Stochastic epidemic models

The representation of characters responses : do readers infer specific emotions

Gygax, Pascal Mark

January 2002

No description available.

150

Mental Models

Aquifer Modeling by Numerical Methods Applied to an Arizona Groundwater Basin

Fogg, Graham E., Simpson, Eugene S., Neuman, Shlomo P.

06 1900

FLUMP, a recently developed mixed explicit -implicit finite -element program, was calibrated against a data base obtained from a portion of the Tucson Basin aquifer, Arizona, and represents its first application to a real -world problem. Two previous models for the same region were constructed (an electric analog and a finite -difference model) in which calibration was based on prescribed flux boundary conditions along stream courses and mountain fronts. These fluxes are not directly measured and estimates are subject to large uncertainties. In contrast, boundary conditions used in the calibration of FLUMP were prescribed hydraulic heads obtained from direct measurement. At prescribed head boundaries FLUMP computed time - varying fluxes representing subsurface lateral flow and recharge along streams. FLUMP correctly calculated fluctuations in recharge along the Santa Cruz River due to fluctuations in storm runoff and sewage effluent release rates. FLUMP also provided valuable insight into distributions of recharge, discharge, and subsurface flow in the study area.Properties of FLUMP were compared with those of two other programs in current use: ISOQUAD, a finite -element program developed by Pinder and Frind (1972), and a finite- difference program developed by the U.S. Geological Survey (Trescott, et al., 1976). It appears that FLUMP can handle a larger class of problems than the other two programs, including those in which the boundary conditions and aquifer parameters vary arbitrarily with time and /or head. FLUMP also has the ability to solve explicitly when accuracy requires small time steps, the ability to solve explicitely in certain parts of the flow region while solving implicitly in other parts, flexibility in mesh design and numbering of nodes, computation of internal as well as external fluxes, and global as well as local mass balance checks at each time step.

Aquifers -- Mathematical models.

Groundwater -- Mathematical models.