Modelling an agent-based commercial vehicle transport system : a supply chain perspective
Many state-of-practice commercial vehicle transport models are not representative of actual road transport movements, since they do not integrate supply chain elements. The objective of this research is to model stakeholders in a supply chain as agents in an agent-based commercial vehicle transpo...
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| Language: | en |
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University of Pretoria
2015
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| Online Access: | http://hdl.handle.net/2263/45941 Van Heerden, Q 2014, Modelling an agent-based commercial vehicle transport system : a supply chain perspective, MEng Dissertation, University of Pretoria, Pretoria, viewed yymmdd <http://hdl.handle.net/2263/45941> |
| Summary: | Many state-of-practice commercial vehicle transport models are not representative of actual
road transport movements, since they do not integrate supply chain elements. The objective
of this research is to model stakeholders in a supply chain as agents in an agent-based commercial
vehicle transport model. Furthermore, the objective is to model these agents’ decisions
and interactions and to ensure that the model is sensitive to changes in the supply chain. To
achieve this, various steps are followed. The literature on commercial vehicle modelling is reviewed
and a distinction is made between three perspectives of commercial vehicle transport
models: aggregate models; disaggregate, agent- and tour-based models; and behaviour-based
models. A base case agent-based commercial vehicle model, that consists of both intra- and
inter-provincial commercial vehicles, is developed using a complex network and GPS records.
Utilising complex network metrics, supply chain stakeholders are identified and the most important
nodes in the network are extracted. One of these important nodes, an organisation
in the Fast Moving Consumer Goods (FMCG) industry, provides a dataset consisting of the
details of distribution data over a 10-month period.
This dataset is used in a case study to show how to model stakeholders in a supply chain.
More specifically, the Carrier agent is introduced and the Carrier-Receiver interaction is modelled.
Demand is generated from the dataset and the Carrier’s reaction to the demand is shown
through its tour planning. The effect of different levels of traffic congestion as well as the order
policy of customers on the Carrier’s tour planning is evaluated by showing the changes in distance
travelled, tonne-kilometers moved, costs incurred, and travel time for different scenarios.
The research is of value to both organisations that need to do fleet management and government
who is responsible for infrastructure maintenance and development. Organisations can
utilise these models to do fleet composition analyses and evaluate the impact of changes to their
logistics decision making or the effect of government interventions on their operations. Government
can benefit from these models by analysing the effect of infrastructure decision-making
on tonne-kilometers moved and the impact on expected travel times. === Dissertation (MEng)--University of Pretoria, 2014. === tm2015 === Industrial and Systems Engineering === MEng === Unrestricted |
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