Your search keyword '"Orihuela, Luis"' showing total 5 results

1. A Non-Cooperative Game-Theoretic Approach for Distributed Voltage Regulation in DC Grids with a High Penetration of Renewable Energies

Author

Universidad de Sevilla. Departamento de Ingeniería Eléctrica, European Commission (EC). Fondo Europeo de Desarrollo Regional (FEDER), Orihuela, Luis, Millán, Pablo, Rodríguez del Nozal, Álvaro, Universidad de Sevilla. Departamento de Ingeniería Eléctrica, European Commission (EC). Fondo Europeo de Desarrollo Regional (FEDER), Orihuela, Luis, Millán, Pablo, and Rodríguez del Nozal, Álvaro

Abstract

This manuscript deals with the situation in which the different agents or buses in a power network have access to local renewable resources and must manage its use in a distributed fashion. The buses distributedly decide the amount of power to be generated using their local renewable power plants, and that to be demanded from the grid. The decisions are made according to the optimization of a cost function that considers both economic and technical factors. The problem is approached resorting to a game-theoretical framework that requires a negotiation process among the neighboring buses. An iterative algorithm is proposed in order to solve this problem, providing existence and convergence conditions under which the buses reach a suitable equilibrium. The algorithm performance is tested in simulations over a modification of the IEEE 14-bus system, in which the lines are modeled as resistances and distributed generation is considered. Simulations on a network of 44 buses are also included to show the scalability of the method.

Published

2021

2. A Non-Cooperative Game-Theoretic Approach for Distributed Voltage Regulation in DC Grids with a High Penetration of Renewable Energies.

Author

Orihuela, Luis, Millán, Pablo, Rodríguez del Nozal, Álvaro, and Ustun, Taha Selim

Subjects

PROBLEM solving, RENEWABLE natural resources, VOLTAGE, DISTRIBUTED power generation

Abstract

This manuscript deals with the situation in which the different agents or buses in a power network have access to local renewable resources and must manage its use in a distributed fashion. The buses distributedly decide the amount of power to be generated using their local renewable power plants, and that to be demanded from the grid. The decisions are made according to the optimization of a cost function that considers both economic and technical factors. The problem is approached resorting to a game-theoretical framework that requires a negotiation process among the neighboring buses. An iterative algorithm is proposed in order to solve this problem, providing existence and convergence conditions under which the buses reach a suitable equilibrium. The algorithm performance is tested in simulations over a modification of the IEEE 14-bus system, in which the lines are modeled as resistances and distributed generation is considered. Simulations on a network of 44 buses are also included to show the scalability of the method. [ABSTRACT FROM AUTHOR]

Published

2021

3. Distributed Estimation Techniques for Cyber-Physical Systems: A Systematic Review.

Author

Ierardi, Carmelina, Orihuela, Luis, and Jurado, Isabel

Subjects

*CYBER physical systems, *META-analysis, *COMPUTER science, *BIOLOGICAL systems, *KALMAN filtering, *LIFE sciences

Abstract

This paper undertakes a systematic review (SR) on distributed estimation techniques applied to cyber-physical systems (CPS). Even though SRs are not the common way to survey a theme in the control community, they provide a rigorous, robust and objective formula that should not be always ignored. The presented SR incorporates and adapts the guidelines recommended in other fields (mainly biosciences and computer sciences) to the field of automation and control and presents a brief description of the different phases that constitute an SR. As a result, this review compares the different techniques found in the literature in terms of: The proposed estimator (Kalman filter, Luenberger observer, Bayesian filter, etc.), the particular application within CPS, the design of the estimators (decentralized vs centralized), the amount of data required for implementation or the inclusion of experiments/simulations in the studies. Particular attention is paid to those papers that present some results in applications that include humans, animals or biological systems. [ABSTRACT FROM AUTHOR]

Published

2019

4. Data Fusion Based on Subspace Decomposition for Distributed State Estimation in Multi-Hop Networks.

Author

Rodríguez del Nozal, Álvaro, Millán, Pablo, and Orihuela, Luis

Subjects

REAL-time computing, REAL-time control, SIMULATION methods & models, DATA transmission systems, INFORMATION theory

Abstract

This paper deals with the problem of estimating the distributed states of a plant using a set of interconnected agents. Each of these agents must perform a real-time monitoring of the plant state, counting on the measurements of local plant outputs and on the exchange of information with the rest of the network. These inter-agent communications take place within a multi-hop network. Therefore, the transmitted information suffers a delay that depends on the position of the sender and receiver in a communication graph. Without loss of generality, it is considered that the transmission rate and the plant sampling rate are both identical. The paper presents a novel data-fusion-based observer structure based on subspace decomposition, and addresses two main subproblems: the observer design to stabilize the estimation error, and an optimal observer design to minimize the estimation uncertainties when plant disturbances and measurements noises come into play. The performance of the proposed design is tested in simulation. [ABSTRACT FROM AUTHOR]

Published

2019

5. Data Fusion Based on Subspace Decomposition for Distributed State Estimation in Multi-Hop Networks.

Author

Rodríguez Del Nozal Á, Millán P, and Orihuela L

Abstract

This paper deals with the problem of estimating the distributed states of a plant using a set of interconnected agents. Each of these agents must perform a real-time monitoring of the plant state, counting on the measurements of local plant outputs and on the exchange of information with the rest of the network. These inter-agent communications take place within a multi-hop network. Therefore, the transmitted information suffers a delay that depends on the position of the sender and receiver in a communication graph. Without loss of generality, it is considered that the transmission rate and the plant sampling rate are both identical. The paper presents a novel data-fusion-based observer structure based on subspace decomposition, and addresses two main subproblems: the observer design to stabilize the estimation error, and an optimal observer design to minimize the estimation uncertainties when plant disturbances and measurements noises come into play. The performance of the proposed design is tested in simulation.

Published

2018