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Multisensor Attitude Estimation: Fundamental Concepts and Applications de Hassen Fourati

Multisensor Attitude Estimation: Fundamental Concepts and Applications: Devices, Circuits, and Systems

Editat de Hassen Fourati, Djamel Eddine Chouaib Belkhiat
en Limba Engleză Hardback – 15 aug 2016
There has been an increasing interest in multi-disciplinary research on multisensor attitude estimation technology driven by its versatility and diverse areas of application, such as sensor networks, robotics, navigation, video, biomedicine, etc. Attitude estimation consists of the determination of rigid bodies’ orientation in 3D space. This research area is a multilevel, multifaceted process handling the automatic association, correlation, estimation, and combination of data and information from several sources. Data fusion for attitude estimation is motivated by several issues and problems, such as data imperfection, data multi-modality, data dimensionality, processing framework, etc. While many of these problems have been identified and heavily investigated, no single data fusion algorithm is capable of addressing all the aforementioned challenges. The variety of methods in the literature focus on a subset of these issues to solve, which would be determined based on the application in hand. Historically, the problem of attitude estimation has been introduced by Grace Wahba in 1965 within the estimate of satellite attitude and aerospace applications.
This book intends to provide the reader with both a generic and comprehensive view of contemporary data fusion methodologies for attitude estimation, as well as the most recent researches and novel advances on multisensor attitude estimation task. It explores the design of algorithms and architectures, benefits, and challenging aspects, as well as a broad array of disciplines, including: navigation, robotics, biomedicine, motion analysis, etc. A number of issues that make data fusion for attitude estimation a challenging task, and which will be discussed through the different chapters of the book, are related to: 1) The nature of sensors and information sources (accelerometer, gyroscope, magnetometer, GPS, inclinometer, etc.); 2) The computational ability at the sensors; 3) The theoretical developments and convergence proofs; 4) The system architecture, computational resources, fusion level.
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Specificații

ISBN-13: 9781498745710
ISBN-10: 1498745717
Pagini: 606
Ilustrații: 246
Dimensiuni: 178 x 254 mm
Greutate: 1.25 kg
Ediția:1
Editura: CRC Press
Colecția CRC Press
Seria Devices, Circuits, and Systems

Locul publicării:Boca Raton, United States

Cuprins

Section I Preliminaries on Attitude Representations and Rotations. What Are Quaternions and Why Haven’t I Heard of Them? Rotation in 3D Space. Attitude Parametrization, Kinematics, and Dynamics. Section II Multisensor Filtering for Attitude Estimation: Theories and Applications. Stable Estimation of Rigid Body Motion Based on the Lagrange–d’Alembert Principle. The Additive and Multiplicative Approaches to Quaternion Kalman Filtering. Spacecraft Attitude Determination. How to Deal with the External Acceleration When Estimating the Attitude Using Inertial Measurement Units: A Linear Kalman-Based Filtering Approach. From Attitude Estimation to Pose Estimation Using Dual Quaternions. Distributed Estimation for Spatial Rigid Motion Based on Dual Quaternions. A Quaternion Orientation from Earth Field Observations Using the Algebraic Quaternion Algorithm: Analysis and Applications in Fusion Algorithms. Recent Nonlinear Attitude Estimation Algorithms. Low Complexity Sensor Fusion Solution for Accurate Estimation of Gravity and Linear Acceleration. Deterministic Attitude Estimation. Attitude Estimations with Intermittent Observations. Estimation of Attitude from a Single-Direction Sensor. Cooperative Attitude Estimation Based on Remote-Access Observations. Nonlinear Observer for Attitude, Position, and Velocity: Theory and Experiments. Spacecraft Attitude Estimation Using Sparse Grid Quadrature Filtering. Attitude Estimation for Small, Low-Cost UAVs: A Tutorial Approach. 3D Orientation Estimation Using Wearable MEMS Inertial/Magnetic Sensors. Adaptive Data Fusion of Multiple Sensors for Vehicle Pose Estimation. Optimal Invariant Observers Theory for Nonlinear State Estimation. Design and Implementation of Low-Cost Attitude Heading References Systems for Micro Aerial Vehicles. Small Satellite Attitude Determination. A Hybrid Data Fusion Approach for Robust Attitude Estimation. Integration of Single-Frame and Filtering Methods for Nanosatellite Attitude Estimation. Ego-Motion Tracking in Dynamic Environments Using Wearable Visual-Inertial Sensors. Attitude Estimation for a Small-Scale Flybarless Helicopter. A Comparison of Multisensor Attitude Estimation Algorithms. Low-Cost and Accurate Reconstruction of Postures via IMU. Attitude Estimation of a UAV Using Optical Flow. Index.

Descriere

This book provides the reader with a generic and comprehensive view of contemporary data fusion methodologies for attitude estimation, as well as the most recent research and novel advances on task exploring, the design of algorithms and architectures, benefits, and challenging aspects, for a broad array of disciplines including navigation, robotics, biomedicine, and motion analysis. Issues arise from the data to be fused, imperfection and diversity of the sensor technologies, and the nature of the application environment. This book will help the reader understand the basics of data fusion in attitude estimation, mathematical representations of attitude, and the main used sensors.

Notă biografică

Hassen Fourati, PhD, is currently an associate professor of the electrical engineering and computer science at the University of Grenoble Alpes, Grenoble, France, and a member of the Networked Controlled Systems Team (NeCS), affiliated to the Automatic Control Department of the GIPSA-Lab. He earned his Bachelor of Engineering degree in Electrical Engineering at the National Engineering School of Sfax, Tunisia in 2006; his Master's degree in Automated Systems and Control at the University of Claude Bernard, Lyon, France in 2007; and his PhD degree in Automatic Control at the University of Strasbourg, France in 2010. His research interests include nonlinear filtering and estimation and multisensor fusion with applications in navigation, robotics, and traffic management. Dr. Fourati has published several research papers in scientific journals, international conferences, and book chapters. He can be reached at hassen.fourati@gipsa-lab.fr.


Djamel Eddine Chouaib Belkhiat, PhD, is an associate professor in the department of physics at the Ferhat Abbas University, Setif 1, Algeria where he is also a member of Intelligent Systems Laboratory. He received the Bachelor of Engineering degree in Electrical Engineering from the Ferhat Abbas University, Setif 1, Algeria in 2007, the Master degree in Automatic Control from the University of Poitiers, France in 2008, and the Ph.D. degree in Automatic Control from the University of Reims Champagne Ardenne, France in 2011. His research interests lie in the area of monitoring and diagnosis of Hybrid Systems. Dr. Belkhiat has published several research papers in scientific journals, international conferences and book chapters. He can be reached at djamel.belkhiat@yahoo.fr.