Author
Listed:
- Alisher Khussanov
(Department of Technological Machines and Equipment, M. Auezov South Kazakhstan University, Shymkent 160012, Kazakhstan)
- Botagoz Kaldybayeva
(Department of Technological Machines and Equipment, M. Auezov South Kazakhstan University, Shymkent 160012, Kazakhstan)
- Oleksandr Prokhorov
(Computer Sciences and Information Technologies Department, National Aerospace University “Kharkiv Aviation Institute”, 61070 Kharkiv, Ukraine)
- Zhakhongir Khussanov
(Testing Regional Laboratory of Engineering Profile “Structural and Biochemical Materials”, M. Auezov South Kazakhstan University, Shymkent 160012, Kazakhstan)
- Doskhan Kenzhebekov
(Department of Technological Machines and Equipment, M. Auezov South Kazakhstan University, Shymkent 160012, Kazakhstan)
- Mukhamediyar Yevadilla
(Department of Technological Machines and Equipment, M. Auezov South Kazakhstan University, Shymkent 160012, Kazakhstan)
- Dauren Janabayev
(Department of Mathematical and Computer Modeling, Shymkent University, Shymkent 160031, Kazakhstan)
Abstract
Background: Kazakhstan’s transport system plays a key role in Eurasian logistics due to its position along the Middle Corridor. However, multimodal freight transport remains under-optimized due to infrastructure bottlenecks, uneven cargo flows, and limited digital tools for forecasting and planning. Methods: This study presents the development of an agent-based simulation model for analyzing multimodal transportation in Kazakhstan. The model integrates railway, road, and maritime components, simulating cargo flows across export, import, and transit scenarios. Key agents include orders, transport vehicles, logistics hubs, and border checkpoints. The model is implemented in AnyLogic 8.9 and calibrated using a mix of official statistics, industry data, and field estimates. Results: The simulation replicates key logistics processes, identifies congestion points, and evaluates delivery performance under different scenarios. Experiments demonstrate how bottlenecks at terminals and border crossings affect delivery times, vehicle utilization, and hub load. The model allows testing infrastructure development options and scheduling policies. Conclusions: The approach enables a dynamic assessment of logistics efficiency under uncertainty and can support decision-making in transport planning. The novelty lies in the integrated simulation of multimodal freight flows with infrastructure constraints. The model serves as a foundation for digital twin applications and scenario-based planning.
Suggested Citation
Alisher Khussanov & Botagoz Kaldybayeva & Oleksandr Prokhorov & Zhakhongir Khussanov & Doskhan Kenzhebekov & Mukhamediyar Yevadilla & Dauren Janabayev, 2025.
"Agent-Based Simulation Modeling of Multimodal Transport Flows in Transportation System of Kazakhstan,"
Logistics, MDPI, vol. 9(4), pages 1-20, November.
Handle:
RePEc:gam:jlogis:v:9:y:2025:i:4:p:172-:d:1805778
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