Unmanned Rotorcraft Systems

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Springer Science & Business Media, 1. jun. 2011 - 270 strani
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An unmanned aerial vehicle (UAV) is an aircraft that is equipped with necessary data processing units, sensors, automatic control and communications systems, and is capable of performing autonomously flight missions without a human pilot. Unmanned Rotorcraft Systems provides a complete treatment of the design of fully autonomous miniature rotorcraft UAVs. It is an integration of advanced technologies developed in communications, computing and control areas. In particular, it focuses on:

•the systematic hardware construction;

•software systems integration;

•aerodynamic modeling; and

•automatic flight control system design.

Emphasis is extended to the cooperative control and flight formation of multiple UAVs, and vision-based ground target tracking and landing on moving platforms. Other issues such as the development of GPSless indoor micro aerial vehicles and vision-based navigation are also highlighted.

The proposed monograph aims to explore the research and development of fully functional miniature UAV (unmanned-aerial-vehicle) rotorcraft. This consists of a small-scale basic rotorcraft with all necessary accessories onboard, and a ground station. The unmanned system is an integration of advanced technologies developed in communications, computing and control areas. It is an excellent testing ground for trialing and implementing modern control techniques. It is however a highly challenging process. The aerodynamics of a small-scale rotorcraft such as a hobby helicopter are similar to its full-scale counterpart but has some unique characteristics, such as the utilization of stabilizer bar and higher main/tail rotors rotation speed. Besides these, the strict limitation on payload also increases the difficulty on upgrading a small-scale rotorcraft to a UAV with full capacities. Based on its various characteristics and limitations, a light-weight but effective onboard computer system with corresponding onboard/ground software should be carefully designed to realize the system identification and automatic flight requirements. These issues will be addressed in detail in this monograph. Research on the following will be detailed:

•utilizing the vision-based system for accomplishing ground target tracking;

•attacking and landing;

•cooperative control and flight formation of muitiple unmanned rotorcraft;

•future research directions on the related areas.

The book will be a good reference for researchers and students working on the related subjects. Unmanned Rotorcraft Systems will be of great value to practicing engineers in rotorcraft industries and to researchers in areas related to the development of unmanned systems in general. It may be used as a reference for advanced undergraduate and graduate students in aeronautics and astrinautics, electrical and mechanical engineering.

 

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Vsebina

Introduction
1
Coordinate Systems and Transformations
23
Platform Design and Construction
35
Software Design and Integration
59
Measurement Signal Enhancement
83
Flight Dynamics Modeling
97
InnerLoop Flight Control
137
OuterLoop Flight Control
161
Flight Simulation and Experiment
179
Flight Formation of Multiple UAVs
205
VisionBased Target Following
223
References
255
Index
263
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O avtorju (2011)

Guowei Cai's research area is the development of unmanned aerial systems, aerodynamic modeling and flight control systems.

Ben M. Chen's research areas include the development of unmanned systems, robust and non-linear control, and systems theory and control applications.

Tong H. Lee's main research foci are in unmanned aerial systems, adaptive control systems, knowledge-based control and intelligent motion control.

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