Learning-Based Control Systems: Techniques in Neural, Fuzzy, and Adaptive Control
Autor Robert Paskoen Limba Engleză Hardback – 31 iul 2027
Designed for graduate students, advanced undergraduates, and practicing engineers in control systems and AI, the text assumes familiarity with classical control, Python programming, and machine learning fundamentals. Readers gain hands-on experience building intelligent controllers through project-driven tutorials that address real-world deployment challenges, validation strategies, and the practical realities of learning-based control, including the absence of classical stability guarantees and the need for empirical validation.
With coverage spanning system identification, vision-based perception, model predictive control, and deployment on embedded platforms, this book serves as both a practical manual and technical reference for designing, implementing, and deploying AI-enabled control architectures.
- Emphasizes hands-on controller construction, data preparation, training workflows, and simulation setup rather than pure theory.
- Presents AI-control algorithms as implementation tutorials using Python and Simulink examples.
- Includes complete project walkthroughs for neural network controllers, reinforcement learning navigation, and hybrid fuzzy-AI systems.
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Specificații
ISBN-13: 9781041370475
ISBN-10: 1041370474
Pagini: 480
Ilustrații: 206
Dimensiuni: 156 x 234 mm
Ediția:1
Editura: CRC Press
Colecția CRC Press
ISBN-10: 1041370474
Pagini: 480
Ilustrații: 206
Dimensiuni: 156 x 234 mm
Ediția:1
Editura: CRC Press
Colecția CRC Press
Public țintă
GeneralCuprins
Preface
Acknowledgments
About the Author
1 Introduction to AI Control
2 AI Techniques for Control
3 Neural Computation and Optimization
4 Neural Network Control
5 Reinforcement Learning for Control
6 Fuzzy Logic for Control
7 System Identification
8 CNN
9 Simulation and Deployment Tools
10 Advanced AI Control
11 Transformers for Control and ID
12 Hybrid Fuzzy-AI Control
13 Best Practices
14 Conclusion and Future Directions 433
Appendix
Index
Acknowledgments
About the Author
1 Introduction to AI Control
2 AI Techniques for Control
3 Neural Computation and Optimization
4 Neural Network Control
5 Reinforcement Learning for Control
6 Fuzzy Logic for Control
7 System Identification
8 CNN
9 Simulation and Deployment Tools
10 Advanced AI Control
11 Transformers for Control and ID
12 Hybrid Fuzzy-AI Control
13 Best Practices
14 Conclusion and Future Directions 433
Appendix
Index
Notă biografică
Robert Pasko, Jr., MS, holds a Master of Science in Engineering with a concentration in Control Systems, with a focus on classical control theory, AI-based control strategies, intelligent simulation environments, and neural network architectures. He also holds a Master of Science in Microbiology, during which he conducted original research and published a thesis on molecular plant-microbe interactions, with particular emphasis on symbiotic signaling pathways.
Mr. Pasko brings an unusually diverse and interdisciplinary background to his work, integrating deep experience from scientific, technical, and applied domains. This broad foundation supports his current focus on intelligent control systems and neural adaptive algorithms, particularly where real-time decision-making intersects with safety-critical environments.
His research and engineering projects explore the interface between machine learning, simulation, and control, bridging theoretical methods with hands-on system development. He has also contributed to educational materials and academic publishing efforts in the field of AI control.
His research interests include learning-augmented predictive control within structure-constrained feedback architectures; adaptive modeling and perception modules that support closed-loop regulation of nonlinear dynamical systems; and bounded hybrid adaptation methods. Across these areas, methods are evaluated with respect to state constraints, actuator limits, and failure-mode analysis.
Mr. Pasko brings an unusually diverse and interdisciplinary background to his work, integrating deep experience from scientific, technical, and applied domains. This broad foundation supports his current focus on intelligent control systems and neural adaptive algorithms, particularly where real-time decision-making intersects with safety-critical environments.
His research and engineering projects explore the interface between machine learning, simulation, and control, bridging theoretical methods with hands-on system development. He has also contributed to educational materials and academic publishing efforts in the field of AI control.
His research interests include learning-augmented predictive control within structure-constrained feedback architectures; adaptive modeling and perception modules that support closed-loop regulation of nonlinear dynamical systems; and bounded hybrid adaptation methods. Across these areas, methods are evaluated with respect to state constraints, actuator limits, and failure-mode analysis.
Descriere
This comprehensive guide bridges classical control theory and modern AI-driven control systems, demonstrating how neural networks, fuzzy logic, and reinforcement learning enable adaptive controllers that learn from data and handle complex nonlinearities.