Allocation flow patterns and cost-aware routing in packaging networks
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Publicerad
Författare
Typ
Examensarbete för masterexamen
Master's Thesis
Master's Thesis
Modellbyggare
Tidskriftstitel
ISSN
Volymtitel
Utgivare
Sammanfattning
Background – Scania a major manufacturer of heavy commercial vehicles,
operates a European returnable packaging network composed of four
interconnected pools that supply transport items to suppliers across Europe.
Internal allocation orders between these pools generate substantial transport
activity that the company's current planning department handles through manual
decisions made under limited visibility of the underlying cost structure. In a
network where pool-to-pool allocation movements account for approximately 11
per cent of the analysed transport loads, and where contracted prices vary
substantially across destinations and shipment sizes, ensuring that direct and
allocation-based routing decisions are made on a cost-aware basis is important for
both operational efficiency and environmental performance.
Purpose – The thesis aims to develop a data-driven decision support concept that
helps planners evaluate cost-aware transport routing options now of planning. The
work has two interconnected aims. The first is to characterize the structural
patterns of internal allocation flows between Scania's four packaging pools
(Eschweiler, Angers, Järna and Oskarshamn) and to compare how pool-tosupplier
transport costs differ across destinations and shipment sizes when
historical and contracted pricing for standard, mega, and MSRT trailers are placed
side by side are placed side by side. The second is to translate these insights into
a prototype tool that demonstrates the analytical logic for a future production
system to build on at the case company.
Method – The study combines quantitative analysis of historical transport data
with engagement with the contracted rate sheet and qualitative input gathered
through recurring discussions with transport planners at the case company. The
empirical foundation consists of approximately 35,000 transport records covering
March 2025 to March 2026 together with the company's rate sheet defining
contracted prices across fourteen load meter brackets for more than 1,000 poolto-
destination combinations. Analysis was conducted at network, lane and
shipment level. A spreadsheet-based prototype was developed iteratively to
demonstrate how empirical findings can be operationalized at the level of the
individual routing decision.
Results and Discussion – The analysis reveals that allocation flows between the
four pools are highly asymmetric. A single corridor between Angers and
Eschweiler carries close to half of all internal. Pool roles remain stable across
every month of the studied period, indicating that the patterns are structural rather
than transient and they always have differed demands in all the studied period of
time frame. The comparison between historical and contracted pricing shows that
historical weighted averages exceed rate sheet full truck prices on 83 per cent of
comparable lanes, with average premiums ranging from 44 per cent at Järna to
6
135 per cent at Eschweiler. A separate allocation-order dataset reveals a
boomerang pattern in which bilateral movements occur on the same corridor
within the same week, indicating that approximately 14 per cent of the analysed
allocation transport cost may be linked to potentially avoidable opposite-direction
movements under a conservative minimum-overlap assumption. The decision
support concept integrates these findings into a single planner facing tool that
displays both pricing perspectives and ranks the several possible routing options
for each supplier need and surfaces the information that is currently less visible at
the moment of planning.
Recommendations for Scania – Based on the results of the analysis, Scania is
recommended to develop the prototype into a production version built on a
platform such as Power BI or internal Scania transport management tool (NILE)
that connects directly to transport management and environmental reporting
systems. A KPI capturing bilateral redundancy at the lane level should be
introduced to make the boomerang pattern operationally visible. Cross-pool
coordination should be embedded organizationally so that planners can see each
other's activity rather than relying on individual initiative. Once route-level cost
differences are made visible, Scania can use the results as input for future
discussions with carriers and pool operators about pricing, responsibilities and
incentive structures.
Beskrivning
Ämne/nyckelord
Packaging logistics, allocation routing, decision support concept, returnable transport items, rate sheet pricing, multi-pool networks
