Fractional‐order controllers for irrational systems

Guel-Cortez, Adrián-Josué; Méndez-Barrios, César-Fernando; Kim, Eun Jin; Sen, Mihir

doi:10.1049/cth2.12095

Cited by 9 publications

(6 citation statements)

References 50 publications

(106 reference statements)

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“…We expect that some of the results presented in this work would be useful in different engineering applications [34,35] since linear approximations are often useful [36] for control engineering applications. For instance, one can develop an information-geometric cost function for control design to achieve a guided self-organisation [37,38], instead of using entropy as a cost function [39].…”

Section: Discussionmentioning

confidence: 91%

Information Geometric Theory in the Prediction of Abrupt Changes in System Dynamics

Guel-Cortez

Kim

2021

Entropy

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Detection and measurement of abrupt changes in a process can provide us with important tools for decision making in systems management. In particular, it can be utilised to predict the onset of a sudden event such as a rare, extreme event which causes the abrupt dynamical change in the system. Here, we investigate the prediction capability of information theory by focusing on how sensitive information-geometric theory (information length diagnostics) and entropy-based information theoretical method (information flow) are to abrupt changes. To this end, we utilise a non-autonomous Kramer equation by including a sudden perturbation to the system to mimic the onset of a sudden event and calculate time-dependent probability density functions (PDFs) and various statistical quantities with the help of numerical simulations. We show that information length diagnostics predict the onset of a sudden event better than the information flow. Furthermore, it is explicitly shown that the information flow like any other entropy-based measures has limitations in measuring perturbations which do not affect entropy.

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Section: Discussionmentioning

confidence: 91%

Information Geometric Theory in the Prediction of Abrupt Changes in System Dynamics

Guel-Cortez

Kim

2021

Entropy

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“…The results of our algorithm are discussed together with some simulations. Future work includes exploring several novel and well known linear control design techniques (for instance, see [9,10]), the generalisation of the model to a multidimen- sional framework and the improvement of the optimisation method for the controller's design.…”

Section: Discussionmentioning

confidence: 99%

“…For instance, to find a linear representation of the interactions between agents that also includes the control actions. If every agent is controlled by simple low-order controllers, we may use well known linear system control design techniques (see [8,9]) or new low-order control approaches (see [10,11,12]). On the other hand, there are other approaches that could be explored, for example the use of information metrics for guided self-organisation in the MAS formation [13] or the use of a fokker-planck control approach [14,15].…”

Section: Introductionmentioning

confidence: 99%

Model Reduction and Control Design of a Multi-agent Line Formation of Mobile Robots

Guel-Cortez

Kim

2021

Lecture Notes in Networks and Systems

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In this work, a model reduction of a line robotic formation driven by simple P D-controllers is presented. The proposed mathematical model describes the control interactions between the agents which permits us to easily design a decentralised control strategy. To select the P D-controller gains for each agent, we employ a population-based algorithm that takes into consideration the formation stability analysis. Finally, we discuss the future work and the manner the proposed methodology can be used in more complex robotic scenarios. Multi-agent systems Line formation Evolutionary algorithms Control design.

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“…Based on the concept of sigma-stability and the theory of D-partitions [4,5,12,13], we can design PI controllers that allows us to obtain the maximum achievable exponential decay in the closed-loop system response.…”

Section: Piσ Controllermentioning

confidence: 99%

Fastest with No-Overshoot Velocity Control Design of a Two-Differential Robotic Formation

Hernandez-Gallardo

González-Galván

Méndez-Barrios

et al. 2021

Lecture Notes in Networks and Systems

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This paper presents the control design for a multi-agent system (MAS) of land-based mobile robots on wheels formation, that also implements a PI control for the fastest with no-overshoot response at each agent's velocity. Regarding the robot formation tracking control design, a mathematical model constructed from a geometric approach is applied. In addition, the formation's asymptotic stability is guaranteed in the light of Lyapunov's theory. When discussing the agents' velocity control, the mentioned Proportional-Integral PI algorithm is designed by using different methodologies which include σ-stability, λ tuning, and Haalman's tuning techniques. Finally, the theoretical results are confirmed by simulations.

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Fractional‐order controllers for irrational systems

Cited by 9 publications

References 50 publications

Information Geometric Theory in the Prediction of Abrupt Changes in System Dynamics

Information Geometric Theory in the Prediction of Abrupt Changes in System Dynamics

Model Reduction and Control Design of a Multi-agent Line Formation of Mobile Robots

Fastest with No-Overshoot Velocity Control Design of a Two-Differential Robotic Formation

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