A novel \(L_2-L_\infty \) filtering strategy for two kinds of network-based linear time-invariant systems
DOI10.1007/s00034-016-0460-yzbMath1371.93204OpenAlexW2549863679MaRDI QIDQ2405534
Baolong Zhu, Jie Ma, Shun-li Li
Publication date: 26 September 2017
Published in: Circuits, Systems, and Signal Processing (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00034-016-0460-y
linear time-invariant systemsimpulsive differential system\(L_2-L_\infty\) filteringnetwork-based systemnovel filtering strategy
Filtering in stochastic control theory (93E11) Signal theory (characterization, reconstruction, filtering, etc.) (94A12) Stochastic stability in control theory (93E15)
Related Items (2)
Cites Work
- Unnamed Item
- Optimal \(H_2\) filtering for a class of linear stochastic systems with sampling
- A switched system approach to networked \(H _{\infty }\) filtering with packet losses
- Robust \(l_{2}\)-\(l_{\infty}\) guaranteed cost filtering for uncertain discrete-time switched system with mode-dependent time-varying delays
- Kalman filtering for affine nonlinear descriptor systems
- Robust \(L_2-L_\infty\) control for uncertain systems with additive delay components
- Network-based robust \(H_{\infty}\) control of systems with uncertainty
- \(l _{2}-l _{\infty }\) filtering design for piecewise discrete-time linear systems
- New delay-dependent \(L_2 - L_{\infty }\)filter design for stochastic time-delay systems
- Multiple event-triggered \(H_{2}/H_{\infty}\) filtering for hybrid wired-wireless networked systems with random network-induced delays
- Kalman filter with hypothesis testing: A tool for estimating uncertain parameters
- Networked control systems.
- Robust filtering with guaranteed energy-to-peak performance -- \({\mathcal LMI}\) approach
- Optimal linear estimation for systems with multiple packet dropouts
- A new parameter-dependent approach to robust energy-to-peak filter design
- Network-Based Robust$H_infty$Filtering for Uncertain Linear Systems
- Optimal Estimation of Dynamic Systems
- Optimal Estimation in Networked Control Systems Subject to Random Delay and Packet Drop
- Optimal ${\cal H}_{2}$ Filtering in Networked Control Systems With Multiple Packet Dropout
- ${\cal H}_{\infty}$ Estimation for Uncertain Systems With Limited Communication Capacity
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