Aerial Vehicles
eBook - PDF

Aerial Vehicles

  1. 780 pages
  2. English
  3. PDF
  4. Available on iOS & Android
eBook - PDF

Aerial Vehicles

About this book

This book contains 35 chapters written by experts in developing techniques for making aerial vehicles more intelligent, more reliable, more flexible in use, and safer in operation.It will also serve as an inspiration for further improvement of the design and application of aeral vehicles. The advanced techniques and research described here may also be applicable to other high-tech areas such as robotics, avionics, vetronics, and space.

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Yes, you can access Aerial Vehicles by Thanh Mung Lam in PDF and/or ePUB format, as well as other popular books in Technology & Engineering & Robotics. We have over one million books available in our catalogue for you to explore.

Table of contents

  1. Aerial Vehicles
  2. Contents
  3. Preface
  4. 1. Design and Development of a Fly-by-Wireless UAV Platform
  5. 2. Combining Occupancy Grids with a Polygonal Obstacle World Model for Autonomous Flights
  6. 3. Field Programmable Gate Array (FPGA) for Bio-inspired visuo-motor control systems applied to Micro-Air Vehicles
  7. 4. Advanced UAV Trajectory Generation: Planning and Guidance
  8. 5. Modelling and Control Prototyping of Unmanned Helicopters
  9. 6. Stabilization of Scale Model Vertical Take-Off and Landing Vehicles without Velocity Measurements
  10. 7. Flight Control System Design Optimisation via Genetic Programming
  11. 8. Fly-The-Camera Perspective: Control of a Remotely Operated Quadrotor UAV and Camera Unit
  12. 9. A Flight Strategy for Intelligent Aerial Vehicles Learned from Dragonfly
  13. 10. DC Supply System Detector of UAV
  14. 11. Unmanned Aerial Vehicle Formation Flight Using Sliding Mode Disturbance Observers
  15. 12. Autonomous Formation Flight– Design and Experiments
  16. 13. Vibration-induced PM Noise in Oscillators and its Suppression
  17. 14. Neural Network Control and Wireless Sensor Network-based Localization of Quadrotor UAV Formations
  18. 15. Asymmetric Hovering Flapping Flight: a Computational Study
  19. 16. UAV Path Planning in Search Operations
  20. 17. Optimal Circular Flight of Multiple UAVs for Target Tracking in Urban Areas1
  21. 18. Stiffness-Force Feedback in UAV Tele-operation
  22. 19. Objectively Optimized Earth Observing Systems
  23. 20. Performance Evaluation of an Unmanned Airborne Vehicle Multi-Agent System
  24. 21. Forced Landing Technologies for Unmanned Aerial Vehicles: Towards Safer Operations
  25. 22. Design Considerations for Long Endurance Unmanned Aerial Vehicles
  26. 23. Tracking a Moving Target from a Moving Camera with Rotation-Compensated Imagery
  27. 24. An Open Architecture for the Integration of UAV Civil Applications
  28. 25. Design, Implement and Testing of a Rotorcraft UAV System
  29. 26. Attitude and Position Control of a Flapping Micro Aerial Vehicle
  30. 27. UAV Trajectory Planning for Static and Dynamic Environments
  31. 28. Modelling and Identification of Flight Dynamics in Mini-Helicopters Using Neural Networks
  32. 29. An Evasive Maneuvering Algorithm for UAV sin Sense-and-Avoid Situations
  33. 30. UAS Safety in Non-segregated Airspace
  34. 31. A vision-based steering control system for aerial vehicles
  35. 32. Robust Path-Following for UAV Using Pure Pursuit Guidance
  36. 33.Flapping Wings with Micro Sensors and Flexible Framework to Modify the Aerodynamic Forces of a Micro Aerial Vehicle (MAV)
  37. 34. Autonomous Guidance of UAVs for Real-Time Target Tracking in Adversarial Environments
  38. 35. Optic Flow Based Visual Guidance: From Flying Insects to Miniature Aerial Vehicles