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38 results on '"Espitia, Nicolas"'

1. Prescribed-Time Control in Switching Systems with Resets: A Hybrid Dynamical Systems Approach

Author

Ochoa, Daniel E., Espitia, Nicolas, and Poveda, Jorge I.

Subjects
Mathematics - Optimization and Control
Abstract

We consider the problem of achieving prescribed-time stability (PT-S) in a class of hybrid dynamical systems that incorporate switching nonlinear dynamics, exogenous inputs, and resets. By "prescribed-time stability", we refer to the property of having the states converge to a particular compact set of interest before a given time defined a priori by the user. We focus on dynamical systems that achieve this property via time-varying gains. For continuous-time systems, this approach has received significant attention in recent years, with various applications in control, optimization, and estimation problems. However, its extensions beyond continuous-time systems have been limited. This gap motivates this paper, which introduces a novel class of switching conditions for switching systems with resets that incorporate time-varying gains, ensuring the PT-S property even in the presence of unstable modes. The analysis leverages tools from hybrid dynamical system's theory, and a contraction-dilation property that is established for the hybrid time domains of the solutions of the system. We present the model and main results in a general framework and subsequently apply them to three novel applications: (a) PT regulation of switching plants with no common Lyapunov functions; (b) PT control of dynamic plants with uncertainty and intermittent feedback; and (c) PT decision-making in non-cooperative switching games via hybrid Nash seeking dynamics.

Published
2023

4. Observer-based Event-triggered Boundary Control of a Class of Reaction-Diffusion PDEs

Author

Rathnayake, Bhathiya, Diagne, Mamadou, Espitia, Nicolas, and Karafyllis, Iasson

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

This paper presents an observer-based event-triggered boundary control strategy for a class of reaction-diffusion PDEs with Robin actuation. The observer only requires boundary measurements. The control approach consists of a backstepping output feedback boundary controller, derived using estimated states, and a dynamic triggering condition, which determines the time instants at which the control input needs to be updated. It is shown that under the proposed observer-based event-triggered boundary control approach, there is a minimal dwell-time between two triggering instants independent of initial conditions. Furthermore, the well-posedness and the global exponential convergence of the closed-loop system to the equilibrium point are established. A simulation example is provided to validate the theoretical developments., Comment: 12 pages

Published
2020

5. Event-triggered gain scheduling of reaction-diffusion PDEs

Author

Karafyllis, Iasson, Espitia, Nicolas, and Krstic, Miroslav

Subjects
Mathematics - Optimization and Control, Electrical Engineering and Systems Science - Systems and Control
Abstract

This paper deals with the problem of boundary stabilization of 1D reaction-diffusion PDEs with a time- and space- varying reaction coefficient. The boundary control design relies on the backstepping approach. The gains of the boundary control are scheduled under two suitable event-triggered mechanisms. More precisely, gains are computed/updated on events according to two state-dependent event-triggering conditions: static-based and dynamic-based conditions, under which, the Zeno behavior is avoided and well-posedness as well as exponential stability of the closed-loop system are guaranteed. Numerical simulations are presented to illustrate the results., Comment: 20 pages, 5 figures, submitted to SICON

Published
2020

7. Event-triggered boundary control of constant-parameter reaction-diffusion PDEs: a small-gain approach

Author

Espitia, Nicolas, Karafyllis, Iasson, and Krstic, Miroslav

Subjects
Electrical Engineering and Systems Science - Systems and Control, Mathematics - Optimization and Control
Abstract

This paper deals with an event-triggered boundary control of constant-parameters reaction-diffusion PDE systems. The approach relies on the emulation of backstepping control along with a suitable triggering condition which establishes the time instants at which the control value needs to be sampled/updated. In this paper, it is shown that under the proposed event-triggered boundary control, there exists a minimal dwell-time (independent of the initial condition) between two triggering times and furthermore the well-posedness and global exponential stability are guaranteed. The analysis follows small-gain arguments and builds on recent papers on sampled-data control for this kind of PDE. A simulation example is presented to validate the theoretical results., Comment: 10 pages, to be submitted to Automatica

Published
2019

8. Event-Triggered Output Feedback Control of Traffic Flow on Cascaded Roads

Author

Espitia, Nicolas, Auriol, Jean, Yu, Huan, Krstic, Miroslav, Niculescu, Silviu-Iulian, Editor-in-Chief, Atay, Fatihcan M., Advisory Editor, Bellen, Alfredo, Advisory Editor, Chen, Jie, Advisory Editor, Gu, Keqin, Advisory Editor, Krauskopf, Bernd, Advisory Editor, Michiels, Wim, Advisory Editor, Özbay, Hitay, Advisory Editor, Rasvan, Vladimir, Advisory Editor, Stepan, Gabor, Advisory Editor, Zerz, Eva, Advisory Editor, Zhong, Qing-Chang, Advisory Editor, Auriol, Jean, editor, Deutscher, Joachim, editor, Mazanti, Guilherme, editor, and Valmorbida, Giorgio, editor

Published
2022
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20. Traffic flow control on cascaded roads by event-triggered output feedback

Author

Espitia, Nicolas, Auriol, Jean, Yu, Huan, Krstic, Miroslav, Espitia, Nicolas, Auriol, Jean, Yu, Huan, and Krstic, Miroslav

Abstract

In this article, we propose an event-triggered output-feedback controller that guarantees the simultaneous stabilization of traffic flow on two connected roads. The density and velocity traffic dynamics are described with the linearized Aw-Rascle-Zhang macroscopic traffic partial differential equation model, which results in a coupled hyperbolic system. The control objective is to simultaneously stabilize the upstream and downstream traffic to a given spatially uniform constant steady-state that is in the congested regime. To suppress stop-and-go traffic oscillations on the cascaded roads, we consider a ramp metering strategy that regulates the traffic flow rate entering from the on-ramp to the mainline freeway. The ramp metering is located at the outlet with only boundary measurements of flow rate and velocity. Under the event-triggered scheme, the control signal is only updated when an event triggering condition is satisfied. Compared with the continuous input signal, the event-triggered boundary output control presents a more realistic setting to implement by ramp metering on a digital platform. The event-triggered control design relies on the emulation of the backstepping boundary output feedback and on a dynamic event-triggered strategy to determine the time instants at which the control value must be updated. We prove that there is a uniform minimal dwell-time (independent of initial conditions), thus avoiding the Zeno phenomenon. We guarantee the exponential convergence of the closed-loop system under the proposed event-triggered control. A numerical example illustrates the results. © 2022 John Wiley & Sons Ltd.

Published
2022

37. Event-Based Boundary Control of a Linear $2\times 2$ Hyperbolic System via Backstepping Approach.

Author

Espitia, Nicolas, Girard, Antoine, Marchand, Nicolas, and Prieur, Christophe

Subjects
*DIGITAL control systems, *AUTOMATIC control systems, *DISCRETE-time systems, *AUTOMATION, *PARTIAL differential equations
Abstract

In this paper, we introduce an event-based boundary control for a $2\times 2$ coupled linear hyperbolic system. We use a well-established backstepping controller which stabilizes the system along with a dynamic triggering condition which determines when the controller must be updated. The main contributions rely on the definition of an event-based controller under which global exponential stability of the system is achieved and, furthermore, the existence of a minimal dwell-time between two triggering times is guaranteed. The well-posedness of the system under the event-based controller is stated. A simulation example is presented to illustrate the results. [ABSTRACT FROM AUTHOR]

Published
2018
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38. Diseño de un biomaterial derivado de los residuos del cultivo del banano como alternativa de economía circular en el sector bananero

Author

Posada Uribe, Luisa Fernanda, Gonzalez Hidalgo, Clara Tatiana, Acosta Mejia, Juan Camilo, Lopez Espitia, Nicolas, Pabon Santamaria, Jose Ricardo, Kempe Quiroga, Marcel Fabian, Ochoa Calderon, Carolina, Posada Uribe, Luisa Fernanda, Gonzalez Hidalgo, Clara Tatiana, Acosta Mejia, Juan Camilo, Lopez Espitia, Nicolas, Pabon Santamaria, Jose Ricardo, Kempe Quiroga, Marcel Fabian, and Ochoa Calderon, Carolina

Abstract

El cultivo del banano es considerado uno de los cultivos más importantes a nivel mundial debido a su alta demanda. En el proceso de producción solo se aprovecha el 12% de la planta y el residuo restante podría ser aprovechado por los productores de banano y las potenciales industrias, además el desconocimiento de los usos potenciales y el maltrato de los residuos ha generado pérdidas y causado alto impacto ambiental. en los territorios donde se desecha esta materia prima. A través de un estudio bibliométrico se identificaron los posibles usos de los residuos agrícolas del sector bananero; Se analizaron 1629 artículos diferentes con mayor importancia en la producción y potencial en el sector, China es el mayor productor de bibliografía a nivel mundial. El propósito de este proyecto es diseñar un bioproducto a partir de este residuo utilizando la fibra extraída para crear y contribuir al crecimiento económico y generación de producto; buscando evaluar en una prueba piloto de ingeniería un producto derivado de residuos de banano para solucionar diferentes problemas. Esto se estableció a través de una matriz de priorización, donde se seleccionó el material compuesto reforzado con fibra a través del análisis de capacidad, impacto social/ambiental y propiedad del material debido a la mejor solución de reutilización de residuos de banano, este es un material compuesto con D-limoneno reciclado. y EPS (Poliestireno Expandido) reciclado para brindar una solución ecológica a las diferentes industrias masivas contaminantes como la industria textil, llantas, aislamiento térmico, entre otras. Se evaluaron diferentes métodos de extracción para obtener la fibra de mejor calidad el material compuesto, capaz de ser transformado, como resultado, el método biológico fue el mejor ya que presentó un rendimiento total de 6.1%, es el más alto en comparación con los demás métodos, también tuvo la mejor relación costo-tiempo para la extracción de fibra. Además, diferentes pruebas de laborato

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