Stabilization of Arbitrary Switched Linear Systems With Unknown Time-Varying Delays

Hetel, Laurentiu; Daafouz, Jamal; Iung, Claude

doi:10.1109/tac.2006.883030

Cited by 284 publications

(210 citation statements)

References 16 publications

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“…[5]- [7], [10], [11], [14], [25], [26], which applies to linear plants and linear controllers and is based on exact discretization of the NCS between two transmission times. After a polytopic overapproximation step, robust stability analysis methods are used to obtain LMI-based conditions for stability of the NCS.…”

mentioning

confidence: 99%

Stability analysis of networked control systems: A sum of squares approach

2012

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Abstract-This paper presents a sum of squares (SOS) approach to the stability analysis of networked control systems (NCSs) incorporating time-varying delays and time-varying transmission intervals. We will provide mathematical models that describe these NCSs and transform them into suitable hybrid systems formulations. Based on these hybrid systems formulations we construct Lyapunov functions using SOS techniques that can be solved using LMI-based computations. This leads to several advantages: (i) we can deal with nonlinear polynomial controllers and systems, (ii) we can allow for nonzero lower bounds on the delays and transmission intervals in contrast with various existing approaches, (iii) we allow more flexibility in the Lyapunov functions thereby possibly obtaining improved bounds for the delays and transmission intervals than existing results, and finally (iv) it provides an automated method to address stability analysis problems in NCS.

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confidence: 99%

Stability analysis of networked control systems: A sum of squares approach

2012

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“…Therefore, the matrices M and N will have different values within the different sampling intervals. This observation shows that (8), (10) or (8), (11) represent a switching discrete-time system. Then, the existence of a common quadratic Lyapunov function is indeed sufficient for the stability of (8), (10) or of (8), (11) for which the same reasoning holds.…”

Section: A Stability Analysismentioning

confidence: 82%

“…For the sake of brevity, this additional analysis will not be considered. Therefore, the observation of a possible deadlock means that controller (10), as proposed in [10] for delays smaller than the sampling interval, does not function properly in the case of packet dropouts between the sensor and the controller (first case). The second controller (11) does not suffer from this problem as it only depends on the state x k (and not on the previous control inputs).…”

Section: Ncs Modelmentioning

confidence: 99%

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Stability of networked control systems with large delays

Cloosterman

Wouw

Heemels

et al. 2007

2007 46th IEEE Conference on Decision and Control

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“…The authors have proposed (among others, e.g. (Hetel, Daafouz, and Iung (2006))) Linear Parameter Varying (LPV) models of digital control systems with varying sampling, under the assumption that the system representation is affine with respect to the sampling interval (Robert et al (2006)). …”

Section: Lpv Robust Control and Varying Samplingmentioning

confidence: 99%

Real-time control systems: feedback, scheduling and robustness

Simon

Seuret

Sename

2017

International Journal of Systems Science

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The efficient control of real-time distributed systems, where continuous components are governed through digital devices and communication networks, needs a careful examination of the constraints arising from the different involved domains inside co-design approaches. Thanks to the robustness of feedback control, both new control methodologies and slackened real-time scheduling schemes are proposed beyond the frontiers between these traditionally separated fields. A methodology to design robust aperiodic controllers is provided, where the sampling interval is considered as a control variable of the system. Promising experimental results are provided to show the feasibility and robustness of the approach.

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Stabilization of Arbitrary Switched Linear Systems With Unknown Time-Varying Delays

Cited by 284 publications

References 16 publications

Stability analysis of networked control systems: A sum of squares approach

Stability analysis of networked control systems: A sum of squares approach

Stability of networked control systems with large delays

Real-time control systems: feedback, scheduling and robustness

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