Reference
A. Jamshidnejad, D. Sun, A. Ferrara, and B. De Schutter, "A novel bi-level
temporally-distributed MPC approach: An application to green urban mobility,"
Transportation Research Part C, vol. 156, p. 104334,
Nov. 2023.
Abstract
Model predictive control (MPC) has been widely used for traffic management,
such as for minimizing the total time spent or the total emissions of vehicles.
When long-term green urban mobility is considered including e.g. a constraint
on the total yearly emissions, the optimization horizon of the MPC problem is
significantly larger than the control sampling time, and thus the number of the
variables that should be optimized per control time step becomes very large.
For systems with dynamics that involve nonlinear, non-convex, and non-smooth
functions, including urban traffic networks, this results in optimization
problems that are computationally intractable in real time. In this paper, we
propose a novel bi-level temporal distribution of such complex MPC optimization
problems, and we develop two mathematically linked short-term and long-term MPC
formulations with small and large control sampling times that will be solved
together instead of the original complex optimization problem. The resulting
bi-level control architecture is used to solve the two MPC formulations online
for real-time control of urban traffic networks with the objective of long-term
green mobility. In order to assess the performance of the bi-level control
architecture, we perform a case study where a rough version of the model of the
urban traffic flow, S-model, is used by the long-term MPC level to estimate the
states of the urban traffic networks, and a detailed version of the model is
used by the short-term MPC level. The results of the simulations prove the
effectiveness (with respect to the objective of control, as well as
computational efficiency) of the proposed bi-level MPC approach, compared to
state-of-the-art control approaches.
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BibTeX
@article{JamSun:23-008,
author = {Jamshidnejad, Anahita and Sun, Dingshan and Ferrara, Antonella
and De Schutter, Bart},
title = {A Novel Bi-Level Temporally-Distributed {MPC} Approach: An
Application to Green Urban Mobility},
journal = {Transportation Research Part C},
volume = {156},
pages = {104334},
month = nov,
year = {2023}
}
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