Iterative learning guaranteed cost control based on two‐dimensional Roesser systems subject to denial‐of‐service attacks and fading measurements

In this article, the network‐based iterative learning guaranteed cost control problem for the linear systems subject to denial‐of‐service (DoS) attacks at input and output (I/O) sides is studied via faded channels. First, the DoS attacks are modeled by independent Bernoulli sequences, where the expe...

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Published inInternational journal of robust and nonlinear control Vol. 32; no. 11; pp. 6441 - 6462
Main Authors Yu, Wei, Huang, Deqing, Bu, Xuhui, Qin, Na
Format Journal Article
LanguageEnglish
Published Bognor Regis Wiley Subscription Services, Inc 25.07.2022
Subjects
2D Roesser systems
Algorithms
Asymptotic properties
Channels
Control systems
Cost function
DoS attacks
Fading
fading measurements
guaranteed cost control
Injection molding
iterative learning control
Iterative methods
Learning
Linear matrix inequalities
Linear systems
Mathematical analysis
Stability
System theory
Systems theory
Two dimensional models
Upper bounds
Online AccessGet full text
ISSN1049-8923
1099-1239
DOI10.1002/rnc.6152

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Abstract In this article, the network‐based iterative learning guaranteed cost control problem for the linear systems subject to denial‐of‐service (DoS) attacks at input and output (I/O) sides is studied via faded channels. First, the DoS attacks are modeled by independent Bernoulli sequences, where the expectation and variance are known. The fading measurements in I/O channels are described as independent Gaussian distributions with known expectations and variances respectively. Then, the repetitive system and the proposed ILC scheme involving both the iteration and time axes are transformed into a random two‐dimensional (2D) Roesser model by using the 2D system theory. The mean‐square asymptotic stability is introduced and followed by the definition of guaranteed cost function. Next, sufficient conditions that can not only ensure the asymptotic stability but also the cost index are derived. By applying the linear matrix inequality technology, the gain matrices and the upper bound of the control cost are further obtained. After exploring the adverse effect brought by the random fading phenomenon, a compensation algorithm is then designed and the analysis is strictly deduced. Finally, an injection molding process example is given to confirm the validity of the design.
AbstractList In this article, the network‐based iterative learning guaranteed cost control problem for the linear systems subject to denial‐of‐service (DoS) attacks at input and output (I/O) sides is studied via faded channels. First, the DoS attacks are modeled by independent Bernoulli sequences, where the expectation and variance are known. The fading measurements in I/O channels are described as independent Gaussian distributions with known expectations and variances respectively. Then, the repetitive system and the proposed ILC scheme involving both the iteration and time axes are transformed into a random two‐dimensional (2D) Roesser model by using the 2D system theory. The mean‐square asymptotic stability is introduced and followed by the definition of guaranteed cost function. Next, sufficient conditions that can not only ensure the asymptotic stability but also the cost index are derived. By applying the linear matrix inequality technology, the gain matrices and the upper bound of the control cost are further obtained. After exploring the adverse effect brought by the random fading phenomenon, a compensation algorithm is then designed and the analysis is strictly deduced. Finally, an injection molding process example is given to confirm the validity of the design.
Author Huang, Deqing
Bu, Xuhui
Qin, Na
Yu, Wei
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Snippet In this article, the network‐based iterative learning guaranteed cost control problem for the linear systems subject to denial‐of‐service (DoS) attacks at...
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SubjectTerms 2D Roesser systems
Algorithms
Asymptotic properties
Channels
Control systems
Cost function
DoS attacks
Fading
fading measurements
guaranteed cost control
Injection molding
iterative learning control
Iterative methods
Learning
Linear matrix inequalities
Linear systems
Mathematical analysis
Stability
System theory
Systems theory
Two dimensional models
Upper bounds
Title Iterative learning guaranteed cost control based on two‐dimensional Roesser systems subject to denial‐of‐service attacks and fading measurements
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Frnc.6152
https://www.proquest.com/docview/2673509009
Volume 32
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