Finite‐time energy‐to‐peak quantized filtering for Markov jump networked systems under weighted try‐once‐discard protocol
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Publication:6083804
DOI10.1002/rnc.5514zbMath1525.93458OpenAlexW3152465073MaRDI QIDQ6083804
Jing Wang, Jian-Wei Xia, Cao, Jinde, Tingting Ru, Hao Shen
Publication date: 31 October 2023
Published in: International Journal of Robust and Nonlinear Control (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1002/rnc.5514
weighted try-once-discard protocolenergy-to-peak filteringfinite-time boundaryMarkov jump networked systems
Filtering in stochastic control theory (93E11) Networked control (93B70) Finite-time stability (93D40)
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Cites Work
- Set-membership filtering for time-varying systems with mixed time-delays under round-robin and weighted try-once-discard protocols
- Adaptive output synchronization of heterogeneous network with an uncertain leader
- Statistical physics of vaccination
- A unified method to energy-to-peak filter design for networked Markov switched singular systems over a finite-time interval
- Passivity-based non-fragile control for Markovian jump systems with aperiodic sampling
- Trading quantization precision for update rates for systems with limited communication in the uplink channel
- Two consensus problems for discrete-time multi-agent systems with switching network topology
- Networked control under communication constraints. A time-delay approach
- Reachable set estimation of delayed fuzzy inertial neural networks with Markov jumping parameters
- Extended dissipative synchronization for semi-Markov jump complex dynamic networks via memory sampled-data control scheme
- Network-based passive estimation for switched complex dynamical networks under persistent dwell-time with limited signals
- Networked \(H_\infty\) filtering under a weighted TOD protocol
- Finite-time \(\mathcal{H}_\infty\) synchronization for complex networks with semi-Markov jump topology
- Finite-Time Synchronization of Coupled Networks With Markovian Topology and Impulsive Effects
- Robust stability, stabilization and ?? control of time-delay systems with Markovian jump parameters
- Ultimate Boundedness Control for Networked Systems With Try-Once-Discard Protocol and Uniform Quantization Effects
- Robust Filtering Design for Stochastic System With Mode-Dependent Output Quantization
- Master‐slave synchronization for coupled neural networks with Markovian switching topologies and stochastic perturbation
- Resilient filtering for cyber‐physical systems under denial‐of‐service attacks
- Strictly dissipative stabilization of multiple‐memory Markov jump systems with general transition rates: A novel event‐triggered control strategy
- Stochastic robust finite‐time boundedness for semi‐Markov jump uncertain neutral‐type neural networks with mixed time‐varying delays via a generalized reciprocally convex combination inequality
- Further criterion for stochastic stability analysis of semi‐Markovian jump linear systems
- Finite‐time stability of switched nonlinear time‐delay systems
- Extended Dissipative Control for Singularly Perturbed PDT Switched Systems and its Application
- Invariance Principles and Observability in Switched Systems With an Application in Consensus
- An iterative approach for the discrete‐time dynamic control of Markov jump linear systems with partial information
- Finite‐time H ∞ control for discrete‐time switched nonlinear systems with time delay
- Synchronization of Dynamical Networks by Network Control
