Low‐complexity ISS state estimation approach with bounded disturbances

Shen, Qiang; Liu, Jieyu; Zhou, Xiaogang; Zhao, Qian; Wang, Qi

doi:10.1002/acs.2924

Cited by 10 publications

(9 citation statements)

References 19 publications

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“…This fact has prompted the progress of

ℋ_{\infty}

control over the last several decades, 16‐21 which has been known to possess the advantages of high robustness and low sensitivity to disturbance statistics 22 . Moreover, in view of the fact that the existing disturbance is bounded in most cases, 23 the input‐to‐state stability (ISS), which was first introduced into a nonlinear control system by Sontag, 24 has been extensively accepted as a crucial concept in control engineering and its various extensions have been explored for nonlinear control systems, such as integral ISS, 25 stochastic ISS, 26 exponential ISS, 27 and so forth. In the context of NNs, Bonassi et al 28 proposed a criterion regarding the ISS of long‐short term memory NNs.…”

Section: Introductionmentioning

confidence: 99%

Input‐to‐state learning of recurrent neural networks with delay and disturbance

Zhi

Huang

Chen

et al. 2021

Adaptive Control & Signal

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Summary This article deals with the issue of input‐to‐state ℋ∞ stabilization for recurrent neural networks with delay and external disturbance. The goal is to design a suitable weight‐learning law to make the considered network input‐to‐state stable with a predefined ℒ2‐gain. Based on the solution of linear matrix inequalities, two schemes for the desired learning law are presented via using decay‐rate‐dependent and decay‐rate‐independent Lyapunov functionals, respectively. It is shown that, in the absence of external disturbance, the proposed learning law also guarantees the exponential stability of the network. To illustrate the applicability of the present weight‐learning law, two numerical examples with simulations are given.

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“…This fact has prompted the progress of

ℋ_{\infty}

Section: Introductionmentioning

confidence: 99%

Input‐to‐state learning of recurrent neural networks with delay and disturbance

Zhi

Huang

Chen

et al. 2021

Adaptive Control & Signal

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“…Remark 3.1 It is worth noting that the volume minimization problem arg min µi det † (Q ki ) has an explicit solution here. If the unknown input vector was bounded by an ellipsoid, as was the case in [11,13,15,22], rather than by an interval-like set, such as a zonotope, µ vol ki would be the unique positive root of an n−order polynomial. Nevertheless, considering that the pseudo-inverse of a n × n matrix is needed at each time step k, in line with (11i), the trace minimization is more appealing, at least from the computational point of view.…”

Section: Pseudo-volume Minimizationmentioning

confidence: 99%

“…Consequently, in contrast with all the algorithms in the literature, [11,12,13,14], that minimize the size of the ellipsoid Ȇ(β) and where the stability issue was not addressed, the optimal value of β chosen here is the one for which the input-to-state stability of the estimation algorithm to be derived, could be fulfilled, by minimizing some quadratic measure of the estimation error vector 4 in the worst noise case, embodied by ς, in the manner of [15,22], inspired by [27,35,36]. (24b) and its minimum is achieved at…”

Section: Minimization Of the Worst Case Weighted Estimation Errormentioning

confidence: 99%

Bounded-error constrained state estimation in presence of sporadic measurements

Becis-Aubry¹

2022

Preprint

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This contribution proposes a recursive set-membership method for the ellipsoidal state characterization for linear discrete-time models with additive unknown disturbances vectors, bounded by known possibly degenerate zonotopes and polytopes, corrupting respectively, the state difference equation and the sporadic measurement vectors, which are expressed as linear inequality and equality constraints on the state vector. New algorithms are designed considering the unprecedented fact that, due to equality constraints, the shape matrix of the ellipsoid characterizing all possible values of the state vector is non invertible. The two main size minimizing criterions (volume and sum of squared axes lengths) are examined in the time update step and also in the observation updating, in addition to a third one, minimizing some error norm and ensuring the input-to-state stability of the estimation error.

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“…Apparently, the probability-based fusion algorithms have been widely applied, and have excellent fusion estimation results under certain conditions. However, accurate statistical knowledge of process and measurement noise should be known for most probability-based algorithms and such idealized assumptions are difficult to satisfy in certain practical situations, and this may lead to poor performance for the state estimation [16], [17]. But in many engineering applications, it is easier to obtain the bounds of unknown noises.…”

Section: Introductionmentioning

confidence: 99%

Centralized Fusion Methods for Multi-Sensor System With Bounded Disturbances

et al. 2019

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The set-membership information fusion problem is studied for general multi-sensor dynamic systems. Based on set-membership theory, three centralized state fusion estimation algorithms in the presence of bounded disturbances are proposed, namely augmented algorithm, combined measurement filtering algorithm and pseudo-sequential filtering algorithm. Theoretical discussions on the convergence and boundedness of the proposed fusion algorithms are provided and their stability is proved. The estimate accuracy, computational complexity and flexibility of these three fusion algorithms are compared through theoretical analysis and simulation. And their exchanging property of measurement update order is discussed. Results show that these algorithms are functionally equivalent in terms of the estimation accuracy and the exchangeability of the measurement update order can be guaranteed as long as the parameters satisfy certain conditions. Meanwhile the simulation results prove the role of the proposed algorithms in improving state estimation accuracy. In addition, the combined measurement filtering algorithm has the highest calculation speed due to lower dimension. But it is less flexible because the sensor measurement matrices need to satisfy some additional conditions. These conclusions are valuable in applications.

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Low‐complexity ISS state estimation approach with bounded disturbances

Cited by 10 publications

References 19 publications

Input‐to‐state learning of recurrent neural networks with delay and disturbance

Input‐to‐state learning of recurrent neural networks with delay and disturbance

Bounded-error constrained state estimation in presence of sporadic measurements

Centralized Fusion Methods for Multi-Sensor System With Bounded Disturbances

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