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Multicopter flight control = fundamentals of flight mechanics, control allocation, and control design /

Record Type:	Electronic resources : Monograph/item
Title/Author:	Multicopter flight control/ by Johannes Stephan.
Reminder of title:	fundamentals of flight mechanics, control allocation, and control design /
Author:	Stephan, Johannes.
Published:	Cham :Springer Nature Switzerland : : 2025.,
Description:	xxi, 504 p. :ill. (chiefly color), digital ;24 cm.
[NT 15003449]:	Chapter 1. Introduction -- Chapter 2. Multicopter Control Fundamentals -- Chapter 3. Flight Mechanical Model -- Chapter 4. Control Allocation -- Chapter 5. Low-level Control -- Chapter 6. High-level Control: Guidance -- Chapter 7. Automatic Flight -- Chapter 8. State Estimation -- Chapter 9. Propulsion Failure -- Appendix.
Contained By:	Springer Nature eBook
Subject:	Drone aircraft - Control systems. -
Online resource:	https://doi.org/10.1007/978-3-031-78487-3
ISBN:	9783031784873

Multicopter flight control = fundamentals of flight mechanics, control allocation, and control design /
Stephan, Johannes.

Multicopter flight controlfundamentals of flight mechanics, control allocation, and control design /[electronic resource] :by Johannes Stephan. - Cham :Springer Nature Switzerland :2025. - xxi, 504 p. :ill. (chiefly color), digital ;24 cm. - Advances in industrial control,2193-1577. - Advances in industrial control..

Chapter 1. Introduction -- Chapter 2. Multicopter Control Fundamentals -- Chapter 3. Flight Mechanical Model -- Chapter 4. Control Allocation -- Chapter 5. Low-level Control -- Chapter 6. High-level Control: Guidance -- Chapter 7. Automatic Flight -- Chapter 8. State Estimation -- Chapter 9. Propulsion Failure -- Appendix.

This book presents a comprehensive discussion of the mechanical modelling and control of multicopters, more commonly referred to as drones. By selecting concepts for presentation based on their ease of comprehension and suitability for practical application, the author employs a straightforward and concise approach. A main objective is to examine both the theoretical and practical aspects, as well as their interrelationship. The book presents the fundamental functional algorithms of a multicopter flight control system, specifically: control allocation, or the distribution of a control demand among redundant actuators; low-level control loops to control rotational and vertical motion; simple guidance loops controlling the translational motion of a multicopter; and an introduction to Kalman filtering, which addresses the fusion of direct sensor measurement in order to estimate the state of the drone. These methods enable remotely piloted operation and preplanned path following. Multicopter Flight Control will be of particular interest to academic researchers and graduate students working in the field of aerospace engineering, as well as to practising engineers engaged in the development of drones and electric vertical take-off and landing aircraft. It provides a comprehensive and practical guide to the fundamentals of flight control and guidance techniques, offering valuable insights for those seeking to gain a deeper understanding of these topics. In order to derive the greatest benefit from reading this monograph, readers should possess a fundamental understanding of multiple-input, multiple-output system theory, particularly state-space representation, stability and feedback control. Additionally, a basic comprehension of rotor aerodynamics and rigid-body dynamics is essential.

ISBN: 9783031784873

Standard No.: 10.1007/978-3-031-78487-3doiSubjects--Topical Terms:

896751
Drone aircraft
--Control systems.

LC Class. No.: TL589.4

Dewey Class. No.: 629.1326

Multicopter flight control = fundamentals of flight mechanics, control allocation, and control design /
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245 1 0 $a Multicopter flight control $h [electronic resource] : $b fundamentals of flight mechanics, control allocation, and control design / $c by Johannes Stephan.
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300 $a xxi, 504 p. : $b ill. (chiefly color), digital ; $c 24 cm.
490 1 $a Advances in industrial control, $x 2193-1577
505 0 $a Chapter 1. Introduction -- Chapter 2. Multicopter Control Fundamentals -- Chapter 3. Flight Mechanical Model -- Chapter 4. Control Allocation -- Chapter 5. Low-level Control -- Chapter 6. High-level Control: Guidance -- Chapter 7. Automatic Flight -- Chapter 8. State Estimation -- Chapter 9. Propulsion Failure -- Appendix.
520 $a This book presents a comprehensive discussion of the mechanical modelling and control of multicopters, more commonly referred to as drones. By selecting concepts for presentation based on their ease of comprehension and suitability for practical application, the author employs a straightforward and concise approach. A main objective is to examine both the theoretical and practical aspects, as well as their interrelationship. The book presents the fundamental functional algorithms of a multicopter flight control system, specifically: control allocation, or the distribution of a control demand among redundant actuators; low-level control loops to control rotational and vertical motion; simple guidance loops controlling the translational motion of a multicopter; and an introduction to Kalman filtering, which addresses the fusion of direct sensor measurement in order to estimate the state of the drone. These methods enable remotely piloted operation and preplanned path following. Multicopter Flight Control will be of particular interest to academic researchers and graduate students working in the field of aerospace engineering, as well as to practising engineers engaged in the development of drones and electric vertical take-off and landing aircraft. It provides a comprehensive and practical guide to the fundamentals of flight control and guidance techniques, offering valuable insights for those seeking to gain a deeper understanding of these topics. In order to derive the greatest benefit from reading this monograph, readers should possess a fundamental understanding of multiple-input, multiple-output system theory, particularly state-space representation, stability and feedback control. Additionally, a basic comprehension of rotor aerodynamics and rigid-body dynamics is essential.
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