WIDE
Decentralized and Wireless Control of Large-Scale Systems, FP7-ICT-2007-2 - 224168, de 2008 a 2011.
WIDE main objectives
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Develop a unified, distributed, and multilayer modelling and control goals/constraints specification framework that ensures: cross-layer and inter-layer compatibility, self-maintainance,and consistency with measured data. This will facilitate scalability and reconfigurability of the developed distributed control and estimation procedures, and guarantee timely reaction and adaptation to a changing environment.
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Develop new techniques of coordinating a network of MPCs to achieve the best performance and robustness under uncertainty and possible physical and communication constraints.
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Develop methods of cooperating WSN and advanced process control by developing (i) transmission and networking technologies for highly reliable wide-area wireless sensor and actuator networks, and (ii) new methods of MPC design that, aware of communication and power-consumption aspects, ensure an optimized controller/wireless-sensor operation.
CS2AC-UPC contributions
Journal Papers
- Ocampo-Martinez, C.; Puig, V. (2010), Piece-wise linear functions-based model predictive control of large-scale sewage systems. IET control theory and applications, vol. 4, núm. 9, p. 1581-1593. <doi: 10.1049/iet-cta.2009.0206>
- Ocampo-Martinez, C.; Puig, V. (2009), Fault-tolerant model predictive control within the hybrid systems framework: Application to sewer networks. International journal of adaptive control and signal processing, vol. 23, núm. 8, p. 757-787. <doi: 10.1002/acs.1099>
- Ocampo-Martinez, C., Puig, V., Cembrano, G., Creus, R., Minoves, M. (2009), Improving water management efficiency by using optimization-based control strategies: the Barcelona case study. Water Science and Technology: water supply, vol. 9, núm. 5, p. 565-575. <doi: 10.2166/ws.2009.524>
Conference Papers
- Puig, V., Ocampo-Martinez, C., Cembrano, G., Minoves, M., Creus. R. (2009), Improving Water Management Efficiency by Using Optimal Control Strategies: The Barcelona Case Study. IWA Conference on Instrumentation, Control & Automation, Cairns, Australia.
- Javalera, V., Morcego, B., Puig, V. (2010), A Multi-Agent MPC Architecture for Distributed Large Scale Systems, ICAART 2010 - International Conf. on Agents and Artificial Intelligence.
- Javalera, V., Morcego, B., Puig, V. (2010). Cooperation and Learning in Distributed MPC of Large Scale Systems: the MAMPC Architecture. ACC 2010 American Control Conference. Baltimore, USA.
- D. Barcelli, C. Ocampo-Martinez, V. Puig and A. Bemporad (2010), Decentralized model predictive control of drinking water networks using an automatic subsystem decomposition approach, in IFAC Symposium on Large-Scale Systems: Theory and Applications (LSS).
- C. Ocampo-Martinez, V. Fambrini, D. Barcelli, and V. Puig (2010), Model predictive control of drinking water networks: A hierarchical and decentralized approach, in American Control Conference (ACC), 2010, pp. 3951 - 3956, IEEE.
- C. Ocampo-Martinez, V. Puig and S. Bovo (2011), Decentralised MPC based on a Graph Partitioning Approach applied to the Barcelona Drinking Water Network, Proc. 18th IFAC World Congress, Milan, Italy.
- R. Toro, C. Ocampo-Martinez, F. Logist, J. Van Impe and V. Puig (2011), Tuning of Predictive Controllers for Drinking Water Networked Systems, Proc. 18th IFAC World Congress, Milan, Italy.
- J. Pascual, J. Romera, V. Puig, R. Creus, M. Minoves (2011), Operational Predictive Optimal Control of Barcelona Water Transport Network, Proc. 18th IFAC World Congress, Milan, Italy.
- C. Ocampo-Martinez, V. Puig and S. Montes de Oca (2012), Multi-Rate Decentralized MPC Strategy for Drinking Water Networks: Application to the Barcelona Case Study, 10th International Conference on Hydroinformatics, Hamburg, Germany.
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