Centre for Transportation and Logistics
Indian Institute of Management Ahmedabad

Ocean freight transportation
(2017 onwards)
  • Kumawat, G. L., Roy, D., De Koster, R., & Adan, I. (2020). Stochastic modeling of parallel process flows in intra-logistics systems: Applications in container terminals and compact storage systems. European Journal of Operational Research, 290(1), 159-176.
  • Kumawat, G. L., & Roy, D. (2020). AGV or Lift-AGV? Performance trade-offs and design insights for container terminals with robotized transport vehicle technology. IISE Transactions.
  • Roy, D., De Koster, R., & Bekker, R. (2020). Modeling and design of container terminal operations. Operations Research.
  • Mofidi, S. S., Pazour, J. A., & Roy, D. (2018). Proactive vs. reactive order-fulfillment resource allocation for sea-based logistics. Transportation Research Part E: Logistics and Transportation Review, 114, 66-84.
  • Dhingra, V., Kumawat, G. L., Roy, D., & de Koster, R. (2018). Solving semi-open queuing networks with time-varying arrivals: An application in container terminal landside operations. European Journal of Operational Research, 267(3), 855-876.
  • Roy, D., & de Koster, R. (2018). Stochastic modeling of unloading and loading operations at a container terminal using automated lifting vehicles. European Journal of Operational Research, 266(3), 895-910.
  • Saini, S., Roy, D., & de Koster, R. (2017). A stochastic model for the throughput analysis of passing dual yard cranes. Computers & Operations Research, 87, 40-51.
  • Mishra, N., Roy, D., & van Ommeren, J. K. (2017). A stochastic model for interterminal container transportation. Transportation Science, 51(1), 67-87.
  • Gupta, A., Roy, D., de Koster, R., & Parhi, S. (2017). Optimal stack layout in a sea container terminal with automated lifting vehicles. International Journal of Production Research, 55(13), 3747-3765.