1 Introduction
1��1 Research Significance
1��2 Research Overview
1��2��1 Research Status on Cooperative Control Methods
1��2��2 Research Status on UAV Cluster Projects
1��3 Outline
References
2 Background and Preliminaries
2��1 Preliminaries
2��1��1 Notation and Definitions
2��1 �� 2 Useful Lemmas
2��1��3 Filippov Solution and Non-Smooth Analysis
2��2 Graph Theory
2��3 System Models of VTOL UAVs
2��3��1 Attitude Representation
2��3��2 Kinematics and Dynamics of VTOL UAVs
2��4 Conclusions
References
3 Distributed Formation Control for Clustered VTOL UAVs Over a Switching Topology
3��1 Problem Statements
3��1��1 System Model
3��1��2 Switching Topology Graph
3��1��3 Control Objective
3��2 Distributed Control Algorithm Development Over a Switching Topology
3��2��1 Problem Transformation
3��2��2 Command Force Synthesis
3��2��3 Applied Torque Synthesis
3��2��4 Stability Analysis
3��3 Simulations
3��4 Conclusions
References
4 Distributed Formation Control for Clustered VTOL UAVs Over a Distance-Based Topology
4��1 Problem Statements
4��1��1 System Model
4��1��2 Distance-Based Network Topology
4��1��3 Control Objective
4��2 Distributed Control Algorithm With Connectivity Maintenance Mechanism
4��2��1 Problem Transformation
4��2��2 Command Force Synthesis
4��2��3 Applied Torque Synthesis
4��2��4 Stability Analysis
4��3 Simulations
4��4 Conclusions
References
5 Adaptive Distributed Formation Control for Clustered VTOL UAVs with Parametric Uncertainties
5��1 Problem Statements
5��1��1 System Model
5��1��2 Topology Graph
5��1��3 Control Objective
5��2 Adaptive Distributed Control Algorithm
5��2��1 Problem Transformation
5��2��2 Command Force Synthesis
5��2��3 Applied Torque Synthesis
5��2��4 Stability Analysis
5��3 Simulations
5��4 Conclusions
References
6 Adaptive Fault-Tolerant Distributed Formation Control for Clustered VTOL UAVs
6��1 Problem Statements
6��1��1 System Model
6��1��2 Actuator Faults
6��1��3 Topology Graph
6��1��4 Control Objective
6��2 Adaptive Fault-Tolerant Distributed Control Algorithm
6��2��1 Problem Transformation
6��2��2 Command Force Synthesis
6��2��3 Desired Torque Synthesis
6��2��4 Stability Analysis
6��3 Simulations
6��4 Conclusions
References
7 Distributed Formation Tracking Control for Clustered VTOL UAVs Over Undirected Topology
7��1 Problem Statements
7��1��1 System Model
7��1��2 Network Topology
7��1��3 Control Objective
7��2 Distributed Control Algorithm Development Over Undirected Topology
7��2��1 Command Force Synthesis
7��2��2 Command Attitude Extraction
7��2��3 Applied Torque Synthesis
7��2��4 Stability Analysis
7��3 Simulations
7��4 Conclusions
References
8 Distributed Formation Tracking Control for Clustered VTOL UAVs Over Directed Topology
8��1 Background
8��1��1 Problem Statements
8��1��2 Network Topology
8��2 Distributed Control Algorithm Development Over Directed Topology
8��2��1 Distributed Estimator Design
8��2��2 Problem Transformation
8��2��3 Command Force Synthesis
8��2��4 Applied Torque Synthesis
8��2��5 Stability Analysis
8��3 Simulations
8��4 Conclusions
References
9 Distributed Output-Feedback Formation Tracking Control for Clustered VTOL UAVs
9��1 Problem Statements
9��1��1 System Model
9��1��2 Network Topology
9��1��3 Control Objective
9��2 Distributed Output-Feedback Control Algorithm Development
9��2��1 Command Force Synthesis
9��2��2 Command Attitude Extraction
9��2��3 Applied Torque Synthesis
9��2��4 Stability Analysis
9��3 Simulation
9��4 Conclusions
References