Isabel Jurado scite author profile

This paper addresses the formation control problem for fleets of autonomous underwater vehicles (AUVs). The solution is based on the virtual leader approach, with the main goal of designing a control system to cope with the inter-vehicle communication problems, especially significant in underwater environments. The use of kinematic relations allows the linearization of the AUV dynamics maintaining its turning capacities. The control strategy consists of a feedback H 2 /H ∞ controller in combination with a feedforward controller, which makes it possible to deal with delays and packets dropouts while ensuring a good formation control performance.

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Stability of Sequence-Based Control With Random Delays and Dropouts

Quevedo

Jurado

2014

IEEE Trans. Automat. Contr.

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We study networked control of non-linear systems where system states and tentative plant input sequences are transmitted over unreliable communication channels. The sequences are calculated recursively by using a pre-designed nominally stabilizing state-feedback control mapping to plant state predictions. The controller does not require receipt acknowledgments or knowledge of delay or dropout distributions. For the i.i.d. case, in which case the numbers of consecutive dropouts are geometrically distributed, we show how the resulting closed loop system can be modeled as a Markov non-linear jump system and establish sufficient conditions for stochastic stability.

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Stock management in hospital pharmacy using chance-constrained model predictive control

Jurado

Maestre

Velarde

et al. 2016

Computers in Biology and Medicine

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One of the most important problems in the pharmacy department of a hospital is stock management. The clinical needs of drugs must be satisfied with limited work labor while minimizing the use of economical resources. The complexity of the problem resides in the random nature of the drug demand and the multiple constraints that must be taken into account in every decision. In this article, chance-constrained model predictive control is proposed to deal with this problem. The flexibility of model predictive control allows taking into account explicitly the different objectives and constraints involved in the problem while the use of chance constraints provides a trade-off between conservativeness and efficiency. The solution proposed is assessed to study its implementation in two Spanish hospitals.

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Adaptive controller placement for wireless sensor–actuator networks with erasure channels

et al. 2013

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Wireless sensor-actuator networks offer flexibility for control design. One novel element which may arise in networks with multiple nodes is that the role of some nodes does not need to be fixed. In particular, there is no need to pre-allocate which nodes assume controller functions and which ones merely relay data. We present a flexible architecture for networked control using multiple nodes connected in series over analog erasure channels without acknowledgments. The control architecture proposed adapts to changes in network conditions, by allowing the role played by individual nodes to depend upon transmission outcomes. We adopt stochastic models for transmission outcomes and characterize the distribution of controller location and the covariance of system states. Simulation results illustrate that the proposed architecture has the potential to give better performance than limiting control calculations to be carried out at a fixed node.

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An application of economic model predictive control to inventory management in hospitals

Maestre

Fernández²,

Jurado

2018

Control Engineering Practice

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Isabel Jurado

Formation Control of Autonomous Underwater Vehicles Subject to Communication Delays

Stability of Sequence-Based Control With Random Delays and Dropouts

Stock management in hospital pharmacy using chance-constrained model predictive control

Adaptive controller placement for wireless sensor–actuator networks with erasure channels

An application of economic model predictive control to inventory management in hospitals

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