Resilient output regulation in heterogeneous networked systems under Byzantine agents
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Publication:2065225
DOI10.1016/j.automatica.2021.109872zbMath1480.93180OpenAlexW3195704320MaRDI QIDQ2065225
Changyun Wen, Jiaqi Yan, Chao Deng
Publication date: 7 January 2022
Published in: Automatica (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.automatica.2021.109872
Related Items (10)
Dynamic event-triggered control for nonlinear NCSs subject to DoS attacks ⋮ Adaptive fault‐tolerant robust control based on radial basis function neural network for a class of mechanical systems with input constraints ⋮ Observer‐based event‐triggered secure synchronization control for multi‐agent systems under false data injection attacks ⋮ Event‐triggered model‐free adaptive control for nonlinear cyber‐physical systems with false data injection attacks ⋮ Distributed model-free adaptive control for multi-agent systems with external disturbances and DoS attacks ⋮ Distributed secure state estimation for linear systems against malicious agents through sorting and filtering ⋮ Bipartite Byzantine‐resilient event‐triggered consensus control of heterogeneous multi‐agent systems ⋮ Fault-tolerant control for model-free networked control systems under DoS attacks ⋮ Observer-based fuzzy containment control for nonlinear networked mass under DoS attacks ⋮ Resilient practical cooperative output regulation for MASs with unknown switching exosystem dynamics under DoS attacks
Cites Work
- Unnamed Item
- The leader-following attitude control of multiple rigid spacecraft systems
- Consensus of second-order multi-agent systems in the presence of locally bounded faults
- Robust cooperative output regulation of uncertain linear multi-agent systems not detectable by regulated output
- Opinion dynamics in social networks with stubborn agents: equilibrium and convergence rate
- Iterative approximate byzantine consensus in arbitrary directed graphs
- Adaptive Dynamic Programming and Adaptive Optimal Output Regulation of Linear Systems
- Communication Theory of Secrecy Systems*
- Reaching approximate agreement in the presence of faults
- The Byzantine Generals Problem
- Leader-to-Formation Stability of Multiagent Systems: An Adaptive Optimal Control Approach
- Distributed Optimization Under Adversarial Nodes
- Resilient First-Order Consensus and Weakly Stable, Higher Order Synchronization of Continuous-Time Networked Multiagent Systems
- Distributed Resilient Observer-Based Fault-Tolerant Control for Heterogeneous Multiagent Systems Under Actuator Faults and DoS Attacks
- Cooperative Output Regulation of Singular Multi-Agent Systems Under Switching Network by Standard Reduction
- Resilient Leader-Follower Consensus to Arbitrary Reference Values in Time-Varying Graphs
- Secure State Estimation for Multiagent Systems With Faulty and Malicious Agents
- Finite-Time Guarantees for Byzantine-Resilient Distributed State Estimation With Noisy Measurements
- Robust Sampled-Data Output Synchronization of Nonlinear Heterogeneous Multi-Agents
- Cooperative Output Regulation of Linear Multi-Agent Systems
- A General Result on the Robust Cooperative Output Regulation for Linear Uncertain Multi-Agent Systems
- Nonlinear Output Regulation
- Multidimensional approximate agreement in Byzantine asynchronous systems
- Broadcast in radio networks tolerating byzantine adversarial behavior
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