Reference:
R.R. Negenborn,
B. De Schutter, and
H. Hellendoorn,
"Multi-agent model predictive control for transportation networks:
Serial versus parallel schemes," Proceedings of the 12th IFAC
Symposium on Information Control Problems in Manufacturing
(INCOM'2006), Saint-Etienne, France, pp. 339-344, May 2006.
Abstract:
We consider the control of large-scale transportation networks, like
road traffic networks, power distribution networks, water distribution
networks, etc. For control of these networks, we propose a multi-agent
control scheme in which each agent employs Model Predictive Control.
In order to obtain coordination and to improve decision making agents
communicate with each other. We compare two Lagrangian-based
communication and decision making schemes. One scheme is based on
serial iterations between agents, while the other is based on parallel
iterations. The schemes are explained theoretically and assessed
experimentally by means of simulations on a particular type of
transportation network, viz., a power distribution network. The serial
scheme shows to have preferable properties compared to the parallel
scheme in terms of solution speed and quality.