Distributed attitude tracking control of multiple rigid bodies with global exponential stability on SO(3)
From MaRDI portal
Publication:6139872
DOI10.1002/rnc.6323zbMath1529.93090WikidataQ115611983 ScholiaQ115611983MaRDI QIDQ6139872
Jian Sun, Zi Yang Meng, Unnamed Author
Publication date: 19 December 2023
Published in: International Journal of Robust and Nonlinear Control (Search for Journal in Brave)
Cites Work
- Observer-based finite-time coordinated tracking for general linear multi-agent systems
- Distributed finite-time velocity-free attitude coordination control for spacecraft formations
- Exponential stability of an attitude tracking control system on SO(3) for large-angle rotational maneuvers
- Distributed attitude synchronization control of multi-agent systems with switching topologies
- The leader-following attitude control of multiple rigid spacecraft systems
- Finite-time consensus algorithm for multi-agent systems with double-integrator dynamics
- Distributed robust \(H_\infty \) consensus control in directed networks of agents with time-delay
- Autonomous rigid body attitude synchronization
- Leader-follower cooperative attitude control of multiple rigid bodies
- Global finite-time attitude consensus of leader-following spacecraft systems based on distributed observers
- Robust formation control in \(\mathbb{SE}(3)\) for tree-graph structures with prescribed transient and steady state performance
- Hybrid global exponential stabilization on \(SO(3)\)
- Rigid body attitude coordination without inertial frame information
- Attitude synchronization control for a group of flexible spacecraft
- Distributed Coordination Control for Multi-Robot Networks Using Lyapunov-Like Barrier Functions
- Global Exponential Attitude Tracking Controls on <inline-formula> <tex-math notation="TeX">${\mathsf {SO}}({\mathsf 3})$</tex-math></inline-formula>
- Decentralised cooperative attitude tracking using modified Rodriguez parameters based on relative attitude information
- Global set stabilization of the spacecraft attitude control problem based on quaternion
- Attitude Synchronization of a Group of Spacecraft Without Velocity Measurements
- Distributed observer‐based leader‐follower attitude consensus control for multiple rigid bodies using rotation matrices
- Quaternion-Based Hybrid Control for Robust Global Attitude Tracking
- Quaternion-Based Hybrid Feedback for Robust Global Attitude Synchronization
- Rigid-Body Attitude Control
- A topological obstruction to continuous global stabilization of rotational motion and the unwinding phenomenon
