Buch, Englisch, 832 Seiten, Format (B × H): 183 mm x 260 mm, Gewicht: 1733 g
Buch, Englisch, 832 Seiten, Format (B × H): 183 mm x 260 mm, Gewicht: 1733 g
ISBN: 978-1-4398-6300-8
Verlag: CRC Press
Going beyond the traditional field of robotics to include other mobile vehicles, Mobile Intelligent Autonomous Systems describes important theoretical concepts, techniques, approaches, and applications that can be used to build truly mobile intelligent autonomous systems (MIAS). It offers a comprehensive treatment of robotics and MIAS, as well as related disciplines, helping readers understand the subject from a system-theoretic and practical point of view. Organized into three sections, the book progresses from conceptual foundations to MIAS and robotics systems and then examines allied technologies. With an emphasis on recent research and developments, experts from various fields cover key aspects of this rapidly emerging area, including:
- Path and motion planning
- Obstacle avoidance in a dynamic environment
- Direct biological-brain control of a mobile robot
- Sensor and image data fusion
- Autonomous decision making and behavior modeling in robots
- Hydro-MiNa robot technology
- Adaptive algorithms for smart antennas
- Control methods for autonomous micro-air vehicles
- Neuro-fuzzy fault-tolerant auto-landing for aircraft
- H-infinity filter based estimation for simultaneous localization and mapping
Where relevant, concepts and theories are illustrated with block/flow diagrams and numerical simulations in MATLAB®. An integrated exploration of the theory and practice of MIAS and robotics, this is a valuable reference and recipe book for research and industry.
Zielgruppe
Professional Practice & Development
Autoren/Hrsg.
Fachgebiete
- Technische Wissenschaften Maschinenbau | Werkstoffkunde Produktionstechnik Fertigungstechnik, Automatisierung
- Mathematik | Informatik EDV | Informatik Informatik Künstliche Intelligenz
- Technische Wissenschaften Elektronik | Nachrichtentechnik Elektronik Robotik
- Technische Wissenschaften Verkehrstechnik | Transportgewerbe Intelligente & automatisierte Transportsysteme
Weitere Infos & Material
Introduction. Part I Conceptual Foundations for MIAS: Neuro-Fuzzy–GA–AI Paradigms. Mathematical Models of Robot Motion. Data Fusion in Mobile Intelligent Autonomous Systems. Image Registration and Fusion. Multi-Sensor Image Fusion Using Discrete Cosine Transform. Motion Segmentation Using Spectral Framework. Formation Control in Multi-Agent Systems over Packet Dropping Links. Part II MIAS and Robotics: Robot’s Sensors and Instrumentation. Robot Navigation and Guidance. Robot Path and Motion Planning. Out-of-Sequence Measurements: Missing Data Problem. Robotic Path-Planning in Dynamic and Uncertain Environment Using Genetic Algorithm. Temporal Logic Motion Planning in Robotics. A Constraint Programming Solution for the Military Unit Path Finding Problem. Simultaneous Localization and Mapping for a Mobile Vehicle. Robotic and Moving Vehicle Architectures. Multi-Robot Coordination. Autonomous Mobile Robot with a Biological Brain. Safe and Effective Autonomous Decision Making in Mobile Robots. Partially Integrated Guidance and Control of Unmanned Aerial Vehicles for Reactive Obstacle Avoidance. Impedance-Controlled Mechatronic Systems for Autonomous Intelligent Devices. Hydro-MiNa Robot Technology for Micro- and Nano-Manipulation in Manufacturing of Micro-Products. Part III Allied Technologies for MIAS/Robotics: Real-Time System Identification of an Unstable Vehicle within a Closed Loop. Smart Antennas for Mobile Autonomous Systems: Adaptive Algorithms for Acceleration. Integrated Modelling, Simulation and Controller Design for an Autonomous Quadrotor Micro Air Vehicle. Determination of Impact and Launch Points of a Mobile Vehicle Using Kalman Filter and Smoother. Novel Stability Augmentation System for Micro Air Vehicle: Towards Autonomous Flight. Neuro-Fuzzy Fault-Tolerant Aircraft Autoland Controllers. Reconfiguration in Flight Critical Aerospace Applications. Study of Three Different Philosophies to Automatic Target Recognition: Classical, Bayesian and Neural Networks. Real-Time Implementation of a Novel Fault Detection and Accommodation Algorithm for an Air-Breathing Combustion System. Fuzzy Logic-Based Sensor and Control Surface Fault Detection and Reconfiguration. Target Tracking Using a 2D Radar. Investigating the Use of Bayesian Network and k-NN Models to Develop Behaviours for Autonomous Robots. Modelling Out-of-Sequence Measurements: A Copulas-Based Approach. Appendix A: Statistical and Numerical Concepts. Appendix B: Notes on Software and Algorithms Related to Robotics. Index
