Khaled, Sailan: Speed control of autonomous amphibious vehicles. 2017
Inhalt
- Abstract
- Zusammenfassung
- Acknowledgements
- Contents
- List of Figures
- List of Abbreviations
- Chapter 1 - Amphibious Vehicles
- 1.1 State of the Art
- 1.2 Research Areas in AAR Development
- 1.3 Motivation and Research Objectives
- 1.4 Main Contribution
- 1.5 Organisation of the Dissertation
- 1.6 Publications
- Chapter 2 - Control Systems in Amphibious Vehicles
- 2.1 Introduction
- 2.2 Control System Design
- 2.3 Control System Design Steps
- 2.4 Digital Control System
- 2.5 Amphibious Vehicles Propulsion Control Systems
- Chapter 3 - Hydrostatic Transmission Control System
- 3.1 Petroleum Internal Combustion Engine
- 3.2 Microcontroller
- 3.3 Motor Driver
- 3.4 Limit Switches
- 3.5 Variable Displacement Pump
- 3.6 DC Motors
- 3.7 Feedback Sensors
- 3.8 Angular Position Sensors
- 3.9 Hydraulic Motors
- 3.10 Throttle Engine Servomotor
- 3.11 Arduino Board
- 3.12 MD Motor Driver
- 3.13. Control System Circuit
- 3.14 Hydrostatic Transmission System
- 3.15 Hydraulic Transmission System Model
- 3.16 Tire Model
- 3.17 Simulation Results
- 3.18 Swash Plate Torque
- 3.19 Swash Plat Angle
- Chapter 4 - Position control of swash plate Angle
- 4.1 System Mathematical Model
- 4.2 PID Controller
- 4.3 Speed Control of a DC Motor
- 4.4 Graphical Display Interface
- 4.5 Dead-Beat Controller
- 4.6 Experimental results
- Chapter 5 - Steering Control System
- 5.1 Analysis of Skid Steering
- 5.2 Fuzzy Logic Controller Description
- 5.3 Fuzzy Steering Strategy Design
- 5.4 Fuzzy Logic Inference System Design
- 5.5 Coupled Control System
- 5.6 Experiments and Results
- Chapter 6 - Tele-Operation and Communication System
- 6.1 ROS
- 6.2 Major Components of the Tele-Operation System
- 6.3 Software
- 6.4 The Nodes
- 6.5 Network Communication
- 6.6 Experiments and Results
- Chapter 7 - Obstacle Avoidance using Fuzzy Logic Control System
- 7.1 Steering Fuzzy Logic Controller Design
- 7.2 Strategy of Obstacle Detection
- 7.3 Laser Scanner
- 7.4 Experiments and Results
- Chapter 8 - Water Jet Control System
- 8.1 Combustion-Hydraulic Propulsion System
- 8.2 Water Jet Layout
- 8.3 Modelling of Water Jet Control System
- 8.4 Speed control system
- 8.5 Steering control system
- 8.6 Experiment and Results
- Chapter 9 - Conclusion and Further Work
- References