Off-road truck-related accidents in U.S. mines
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- @Article{Dindarloo:2016:JSR,
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author = "Saeid R. Dindarloo and Jonisha P. Pollard and
Elnaz Siami-Irdemoosa",
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title = "Off-road truck-related accidents in U.S. mines",
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journal = "Journal of Safety Research",
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volume = "58",
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pages = "79--87",
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year = "2016",
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ISSN = "0022-4375",
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DOI = "doi:10.1016/j.jsr.2016.07.002",
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URL = "http://www.sciencedirect.com/science/article/pii/S0022437516301347",
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abstract = "AbstractIntroduction Off-road trucks are one of the
major sources of equipment-related accidents in the
U.S. mining industries. A systematic analysis of all
off-road truck-related accidents, injuries, and
illnesses, which are reported and published by the Mine
Safety and Health Administration (MSHA), is expected to
provide practical insights for identifying the accident
patterns and trends in the available raw database.
Therefore, appropriate safety management measures can
be administered and implemented based on these accident
patterns/trends. Methods A hybrid
clustering-classification methodology using K-means
clustering and gene expression programming (GEP) is
proposed for the analysis of severe and non-severe
off-road truck-related injuries at U.S. mines. Using
the GEP sub-model, a small subset of the 36 recorded
attributes was found to be correlated to the severity
level. Results Given the set of specified attributes,
the clustering sub-model was able to cluster the
accident records into 5 distinct groups. For instance,
the first cluster contained accidents related to
minerals processing mills and coal preparation plants
(91percent). More than two-thirds of the victims in
this cluster had less than 5 years of job experience.
This cluster was associated with the highest percentage
of severe injuries (22 severe accidents, 3.4percent).
Almost 50percent of all accidents in this cluster
occurred at stone operations. Similarly, the other four
clusters were characterized to highlight important
patterns that can be used to determine areas of focus
for safety initiatives. Conclusions The identified
clusters of accidents may play a vital role in the
prevention of severe injuries in mining. Further
research into the cluster attributes and identified
patterns will be necessary to determine how these
factors can be mitigated to reduce the risk of severe
injuries. Practical application Analyzing injury data
using data mining techniques provides some insight into
attributes that are associated with high accuracies for
predicting injury severity.",
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keywords = "genetic algorithms, genetic programming, Off-road
mining trucks, Fatalities and injuries, K-means
clustering, Classification",
- }
Genetic Programming entries for
Saeid R Dindarloo
Jonisha P Pollard
Elnaz Siami-Irdemoosa
Citations