Publication

Decentralized control for urban drainage systems via population dynamics: Bogota case study

Conference Article

Conference

European Control Conference (ECC)

Edition

14th

Pages

2426-2431

Doc link

http://dx.doi.org/10.1109/ECC.2015.7330902

File

Download the digital copy of the doc pdf document

Abstract

Control of Urban Drainage Systems (UDS) is studied for cases in which the distribution of run–off through the channels of a system is inefficient, i.e. when the capacity of some structures is not used optimally. In this paper, a decentralized population-dynamics-based control for UDS is presented, particularly using the replicator and projection dynamics. For the design, a methodology to make a partitioning of the system is introduced, and the design of a population–dynamics–based control per each partition is proposed. Moreover, a stability analysis of the closed–loop system is made by using passivity theory. Finally, simulation results show the proposed approach performance in a segment of the Bogota stormwater UDS case study.

Categories

transport control.

Author keywords

decentralized control, urban drainage systems, population dynamics, evolutionary game theory, passivity

Scientific reference

J. Barreiro-Gomez, G. Obando, G. Riaño-Briceño, N. Quijano and C. Ocampo-Martínez. Decentralized control for urban drainage systems via population dynamics: Bogota case study, 14th European Control Conference, 2015, Linz, Austria, pp. 2426-2431.