Optimal leader‐follower affine formation control of linear multi‐agent systems
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Publication:6053687
DOI10.1002/oca.2802OpenAlexW3205613070MaRDI QIDQ6053687
Liangming Chen, Yueyong Lv, Hui Zhi, Chuanjiang Li
Publication date: 23 October 2023
Published in: Optimal Control Applications and Methods (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1002/oca.2802
Linear systems in control theory (93C05) Existence theories for optimal control problems involving ordinary differential equations (49J15) Multi-agent systems (93A16)
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Cites Work
- A generalization of the Davidson's method to large nonsymmetric eigenvalue problems
- Two-layer distributed hybrid affine formation control of networked Euler-Lagrange systems
- A suboptimality approach to distributed \(\mathcal{H}_2\) control by dynamic output feedback
- Second-order consensus of hybrid multi-agent systems
- A survey of multi-agent formation control
- Finite-time optimal formation tracking control of vehicles in horizontal plane
- Multi-vehicle consensus with a time-varying reference state
- LQR-based optimal topology of leader-following consensus
- Necessary and Sufficient Graphical Conditions for Affine Formation Control
- Cooperative Optimal Control for Multi-Agent Systems on Directed Graph Topologies
- Translational and Scaling Formation Maneuver Control via a Bearing-Based Approach
- Affine Formation Maneuver Control of Multiagent Systems
- Topology‐based distributed optimization for multi‐UAV cooperative wildfire monitoring
- A Suboptimality Approach to Distributed Linear Quadratic Optimal Control
- Linear quadratic regulator control of multi‐agent systems
- Containment control of heterogeneous multi-agent systems
- Rigid formation control of double-integrator systems
- The principle of minimized iterations in the solution of the matrix eigenvalue problem
- Distributed Leader–Follower Affine Formation Maneuver Control for High-Order Multiagent Systems
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