A dissipativity‐based model predictive control algorithm for power flow systems with equilibrium‐independent stability guaranteed
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Publication:6089870
DOI10.1002/rnc.5392zbMath1526.93051OpenAlexW3115446304MaRDI QIDQ6089870
Publication date: 13 November 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.5392
Lyapunov and other classical stabilities (Lagrange, Poisson, (L^p, l^p), etc.) in control theory (93D05) Large-scale systems (93A15) Networked control (93B70) Model predictive control (93B45)
Cites Work
- Unnamed Item
- Duality and network theory in passivity-based cooperative control
- \(L_2\)-gain and passivity techniques in nonlinear control
- Equilibrium-independent passivity: a new definition and numerical certification
- Compartmental flow control: decentralization, robustness and optimality
- Constructive nonlinear control
- Stability of decentralized model predictive control of graph-based power flow systems via passivity
- Incremental passivity and output regulation
- Output feedback control of switched nonlinear systems using multiple Lyapunov functions
- Dissipative dynamical systems. I: General theory
- Dissipativity-guaranteed distributed model predictive controller for reconfigurable large-scale system
- Networks of Dissipative Systems
- The stability of nonlinear dissipative systems
- Basic problems in stability and design of switched systems
- Distributed zone MPC of pressure management for water distribution network systems
- Equilibrium-Independent Dissipativity With Quadratic Supply Rates
- A general dissipativity constraint for feedback system design, with emphasis on MPC
- Predictive control of switched nonlinear systems with scheduled mode transitions
- Distributed plantwide control based on differential dissipativity
- Convex analysis and monotone operator theory in Hilbert spaces
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