Buch, Englisch, 350 Seiten, Format (B × H): 191 mm x 235 mm, Gewicht: 449 g
Solving Real-World Problems in Electronic Systems Design
Buch, Englisch, 350 Seiten, Format (B × H): 191 mm x 235 mm, Gewicht: 449 g
ISBN: 978-0-443-27580-7
Verlag: Elsevier Science
The convergence of computational intelligence (CI) and applied electronics has heralded a new era of innovation and advancement in various fields. Computational intelligence techniques, including artificial neural networks, fuzzy logic, evolutionary algorithms, and swarm intelligence, offer powerful tools for solving complex problems in applied electronics. From optimizing circuit designs to enhancing signal processing algorithms, CI has demonstrated its efficacy in addressing challenges across diverse domains such as telecommunications, consumer electronics, renewable energy systems, and medical devices. As the demand for intelligent electronic systems continues to grow, understanding and harnessing the potential of computational intelligence becomes imperative for researchers, engineers, and practitioners in the field of applied electronics. Computational Intelligence in Mechatronics provides a comprehensive exploration of the diverse applications of computational intelligence in the realm of applied electronics. By compiling cutting-edge research and practical case studies, this book bridges the gap between theory and practice, offering insights into how CI techniques can be effectively utilized to solve real-world problems in electronic systems design, analysis, and optimization. Through a combination of theoretical foundations, algorithmic implementations, and practical examples, the reader will gain a deeper understanding of the potential benefits and limitations of CI in various applications within the field of applied electronics.
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Weitere Infos & Material
1, Design and Optimization of Electronic Components using Genetic Algorithms
2. Embedded Systems Design: Challenges and Innovations Using Computational Intelligence
3. Medical Device Development and Optimization Techniques: A Review
4. Optimization of Energy Consumption in Unmanned Aerial Vehicles (UAVs) using Particle Swarm Optimization
5. Signal Processing Techniques for Advanced Embedded Communication Systems
6. Fault Diagnosis in Electronic Systems Using Computational Intelligence: State-of-the-Art Approaches
7. Prognostics and Health Management in Electronic Devices by Deep Learning
8. Lifetime and Lifecycle Prediction of Electronic Components using Machine Learning
9. Obsolescence Replacement Strategies: A Systematic Approach based on Computational Intelligence
10. Genetic Algorithms in Circuit Design Optimization
11. Particle Swarm Optimization for Efficient Embedded System Design
12. Advanced Signal Processing Techniques using Artificial Neural Networks
13. Application of Ant Colony Optimization in UAV Routing and Control
14. Fuzzy Logic Applications in Medical Device Design and Optimization
15. Brain-Inspired Computing for Enhanced Embedded Systems
16. Hybrid Optimization Techniques for Fault Diagnosis in Electronic Circuits
17. Designing Efficient Medical Devices using Differential Evolution
18. Cuckoo Algorithm for Lifecycle Prediction of Electronic Components
19. Artificial Bee Colony Optimization for UAV Mission Planning
20. Integrating Fuzzy Logic with Artificial Neural Networks for Signal Processing Applications
