Control of multi-agent systems with input delay via PDE-based method
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Publication:2280743
DOI10.1016/j.automatica.2019.04.032zbMath1429.93027OpenAlexW2945365722WikidataQ127880677 ScholiaQ127880677MaRDI QIDQ2280743
Jie Qi, Mamadou L. Diagne, Jian-an Fang, Shan-shan Wang
Publication date: 19 December 2019
Published in: Automatica (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.automatica.2019.04.032
Control/observation systems governed by partial differential equations (93C20) Reaction-diffusion equations (35K57) Large-scale systems (93A15) Delay control/observation systems (93C43) Multi-agent systems (93A16)
Related Items (14)
Predictor-based control of time-delay systems: a survey ⋮ Event-triggered sliding mode control for multi-agent systems subject to channel fading ⋮ Leaderless consensus of semilinear hyperbolic multiagent systems with semipositive or seminegative definite convection ⋮ Network-based deployment of nonlinear multi agents over open curves: a PDE approach ⋮ Adaptive boundary control of reaction-diffusion PDEs with unknown input delay ⋮ Bilateral boundary control of an input delayed 2-D reaction-diffusion equation ⋮ Event-triggered boundary consensus control for multi-agent systems of fractional reaction-diffusion PDEs ⋮ Robust stabilization of \(2 \times 2\) first-order hyperbolic PDEs with uncertain input delay ⋮ Radially varying delay‐compensated distributed control of reaction‐diffusion PDEs on n‐ball under revolution symmetry conditions ⋮ Multi-agent deployment in 3-D via reaction-diffusion system with radially-varying reaction ⋮ PDE-based fault-tolerant control of swarm deployment while preserving connectedness ⋮ Boundary stabilisation of fractional reaction-diffusion systems with time-varying delays ⋮ Formation deployment control of multi-agent systems modeled with PDE ⋮ Compensation of spatially-varying state delay for a first-order hyperbolic PIDE using boundary control
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