230.548 People
Rakhmangulov, Aleksandr Nelevich
in Cooperation with on an Cooperation-Score of 37%
Topics
- assessment
- logistics
- infrastructure
- supply chain
- supplier
- sustainable development
- intermodal transportation
- stakeholder
- positioning
- road
- traffic performance
- indicating instrument
- transportation corridor
- system analysis
- commodity flow
- Asian
- international trade
- socioeconomic factor
- commodity
- simulation
- vehicle fleet
- railroad car
- transport costs
- control system
- traffic
- international transportation
- traffic flow
- hub
- railroad traffic
- railroad transportation
- locomotive
- transport hub
- shipment
- chemical element
- dispatching
- container
- warehouse
- dynamic programming
- traffic volume
- container traffic
- privatization
- standardization
- dynamic optimization
- rolling stock
- sale
- traffic control system
- railroad station
- information management
- air traffic
- managerial personnel
- security
- vehicle occupant
- inland water transportation
- passenger
- aviation
- safety
- railroad track
- competition
- port
- ship
- intelligence
- bottleneck
- constraint
- airport
- measuring instrument
- truck
- plant
- inland waterway
- sea
- ocean
- signaling
- employee
- air shipment
- air transportation
- river
- shopping facility
- administration
- repairing
- complex system
- student
- traffic engineering
- trucking
- truck traffic
- weight
- motor vehicle
- mining
- rock
- automobile
- mathematical model
- show 59 more
Publications
- 2022Multi-criteria Assessment of Piggyback Systems in Sustainable Supply Chains
- 2018Sustainable Development of Transport Systems for Cargo Flows on the East-West Directioncitations
- 2017Dynamic Optimization of Railcar Traffic Volumes at Railway Nodescitations
- 2017Rail Transport—Systems Approachcitations
- 2015Robotic transport complex of automotive vehicles for handling of rock mass at the process of open cast mining
- 2014Mathematical model of optimal empty rail car distribution at railway transport nodes
Places of action
document
Multi-criteria Assessment of Piggyback Systems in Sustainable Supply Chains
Abstract
Achieving the goals of the concept of sustainable development is a priority in improving transport systems. Multimodal and intermodal technologies in local and global supply chains are an effective tool for implementing the concept of sustainable development in transport and logistics. On the other hand, such a solution increases the complexity of managing the transportation process, which is a limitation of the use of this intermodal technology. This is primarily due to the variety of piggyback systems used in different countries. In addition, there is insufficient consideration of the interests of various supply chain's stakeholders in the process of choosing a piggyback system for a specific region, as well as in planning a transportation route. To solve the problem of sustainable development of supply chains through intermodal transportation, the authors analyzed all known piggyback systems and proposed an original system of parameters for their comprehensive assessment. We developed a multi-criteria model for assessing and choosing a piggyback system using the combined DEMATEL-MARCOS method, as well as a methodology for applying this model and method. A numerical example of ranking and selection of well-known piggyback systems is presented, both based on the objective opinion of academic experts and considering the interests of three stakeholders: suppliers, carriers, and infrastructure owners. The results of the ranking of piggyback systems obtained in the study are proposed to be used to design sustainable supply chains. The authors recommend the developed methodology to the owners of infrastructure and carriers for the formation of sustainable supply chains based on the creation and use of piggyback systems.
Topics
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