Reference:
L. Li,
R.R. Negenborn, and
B. De Schutter,
"Intermodal freight transport planning - A receding horizon control
approach," Transportation Research Part C, vol. 60, pp.
77-95, Nov. 2015.
Abstract:
This paper investigates intermodal freight transport planning problems
among deep-sea terminals and inland terminals in hinterland haulage
for a horizontally fully integrated intermodal freight transport
operator at the tactical container flow level. An intermodal freight
transport network (IFTN) model is first developed to capture the key
characteristics of intermodal freight transport such as the modality
change phenomena at intermodal terminals, physical capacity
constraints of the network, time-dependent transport times on
freeways, and time schedules for trains and barges. After that, the
intermodal freight transport planning problem is formulated as an
optimal intermodal container flow control problem from a system and
control perspective with the use of the proposed IFTN model. To deal
with the dynamic transport demands and dynamic traffic conditions in
the IFTN, a receding horizon intermodal container flow control (RIFC)
approach is proposed to control and to reassign intermodal container
flows in a receding horizon way. This container flow control approach
involves solving linear programming problems and is suited for
transport planning on large-sized networks. Both an all-or-nothing
approach and the proposed RIFC approach are evaluated through
simulation studies. Simulation results show the potential of the
proposed RIFC approach.