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Computational Intelligent Techniques in Mechatronics -

Computational Intelligent Techniques in Mechatronics

Buch | Hardcover
544 Seiten
2024
Wiley-Scrivener (Verlag)
978-1-394-17464-5 (ISBN)
CHF 296,75 inkl. MwSt
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This book, set against the backdrop of huge advancements in artificial intelligence and machine learning within mechatronic systems, serves as a comprehensive guide to navigating the intricacies of mechatronics and harnessing its transformative potential.

Mechatronics has been a revolutionary force in engineering and medical robotics over the past decade. It will lead to a major industrial revolution and affect research in every field of engineering. This book covers the basics of mechatronics, computational intelligence approaches, simulation and modeling concepts, architectures, nanotechnology, real-time monitoring and control, different actuators, and sensors. The book explains clearly and comprehensively the engineering design process at different stages. As the historical divisions between the various branches of engineering and computer science become less clearly defined, mechatronics may provide a roadmap for nontraditional engineering students studying within the traditional university structure. This book covers all the algorithms and techniques found in mechatronics engineering, well explained with real-time examples, especially lab experiments that will be very informative to students and scholars.

Audience

This resource is important for R & D departments in academia, government, and industry. It will appeal to mechanical engineers, electronics engineers, computer scientists, robotics engineers, professionals in manufacturing, automation and related industries, as well as innovators and entrepreneurs.

Kolla Bhanu Prakash, PhD, is a professor and associate dean and R & D head for A.I. & Data Science Research Group at K L University, Vijayawada, Andhra Pradesh, India. He is also an adjunct professor atTaylors University, Malaysia. He has published 150+ research papers in international and national journals and conferences. He has authored two and edited 12 books as well as published 15 patents. His research interests include deep learning, data science, and quantum computing. Satish Kumar Peddapelli, PhD, is the Director at the Rajiv Gandhi University of Knowledge Technologies, IIIT-Basara, and Professor of Electrical Engineering, University College of Engineering, Osmania University, Hyderabad, India. His areas of interest are power electronics, drives, multi-level inverters, special machines and renewable energy systems. Ivan C.K. Tam, PhD, is an associate professor in the Dept. of Marine Engineering Design & Technology, as well as the Director of Innovation & Engagement at the University of Newcastle in Singapore. He has a wealth of experience in multi-disciplinary research and a strong track record of leading innovative projects. His research interests are in the clean fuel combustion process, exhaust emission control, energy management and renewable energy technology. Wai Lok Woo, PhD, received his doctorate in statistical machine learning from Newcastle University, UK. Prof Woo currently holds the Chair in Machine Learning with Northumbria University, UK. He is the Faculty Director of Research (Engineering and Environment), and Head of Research for Data Science and Artificial Intelligence. He was previously the Director of Research for Newcastle Research and Innovation Institute, and Director of Operations of Newcastle University. His major research is in mathematical theory and algorithms for data science and analytics. Vishal Jain, PhD, is an associate professor in the Department of Computer Science and Engineering, Sharda School of Engineering and Technology, Sharda University, Greater Noida, India. He has more than 16 years of experience in academics and has authored more than 100 research papers in reputed journals and conferences as well as edited several books with the Wiley-Scrivener imprint.

Preface xxi

1 AI in Mechatronics 1
Vansh Gehlot and Prashant Singh Rana

1.1 Introduction to AI Techniques for Mechatronics 2

1.2 Machine Learning for Mechatronic Systems 5

1.3 Computer Vision for Mechatronic Perception 9

1.4 Soft Computing Techniques 13

1.5 AI Planning and Decision-Making 16

1.6 Natural Language Interaction 19

1.7 AI in Mechatronic System Design 21

1.8 Challenges and Future Outlook 26

1.9 Artificial General Intelligence (AGI) 30

1.10 Conclusion 35

References 38

2 Thermodynamics for Mechatronics 41
Yadav Krishnakumar Rajnath, Shrikant Tiwari and Virendra Kumar

2.1 Introduction 42

2.2 Defining Mechatronics and Its Interdisciplinary Nature 43

2.3 Fundamentals of Thermodynamics for Mechatronics 46

2.4 Enhancing Efficiency in Mechatronics Through Thermodynamics 52

2.5 Sustainability and Thermodynamics in Mechatronics 58

2.6 Innovative Applications and Future Trends 66

2.7 Educational and Professional Implications 72

References 79

3 Role of Data Acquisition, Sensors, and Actuators in Mechatronics Industry 83
Harpreet Kaur Channi

3.1 Introduction 84

3.2 Literature Survey 86

3.3 Fundamentals of Data Acquisition 87

3.4 Coordination and Synchronization in Mechatronic Systems 94

3.5 Industrial Automation and Robotics 95

3.6 Technical Challenges in Integration and Compatibility 97

3.7 Future Trends and Implications 100

3.8 Conclusion 102

References 103

4 Optimization Techniques for Mechatronics: A Comprehensive Review and Future Directions 109
Ikvinderpal Singh and Sapandeep Kaur Dhillon

4.1 Introduction 110

4.2 Related Work 111

4.3 Optimization in Mechatronics Design 113

4.4 Optimization in Mechatronics Control 116

4.5 Optimization in Mechatronics Manufacturing 118

4.6 Multi-Objective Optimization in Mechatronics 121

4.7 Real-Time Optimization for Mechatronics 123

4.8 Challenges in Optimization for Mechatronics 126

4.9 Opportunities in Optimization for Mechatronics 127

4.10 Future Directions in Optimization for Mechatronics 128

4.11 Conclusion 130

References 132

5 Reinforcement Learning for Adaptive Mechatronics Systems 135
D. Sathya, G. Saravanan and R. Thangamani

5.1 Introduction to Adaptive Mechatronics Systems 136

5.2 Fundamentals of Reinforcement Learning 139

5.3 Reinforcement Learning Algorithms for Mechatronics 142

5.4 Adaptive Control Strategies in Mechatronics 144

5.5 Autonomous Decision-Making in Mechatronics 147

5.6 Optimization and Energy Efficiency in Mechatronics 149

5.7 Safety and Robustness in Reinforcement Learning 153

5.8 Real-World Applications and Case Studies 155

5.9 Challenges and Future Directions 174

5.10 Ethical and Societal Implications 176

5.11 Conclusion 178

References 179

Further Reading 181

6 Application of PLC in the Mechatronics Industry 185
Harpreet Kaur Channi, Pulkit Kumar and Arvind Dhingra

6.1 Introduction 186

6.2 Role of PLC in Mechatronics System Integration 191

6.3 PLC Applications in Mechatronics Industry 195

6.4 PLC in Mechatronics System Design 197

6.5 Safety in Mechatronics Systems 199

6.6 Case Studies for Mechatronics Systems Using PLCs 202

6.7 Challenges and Future Trends 204

6.8 Conclusion 206

References 207

7 Fuzzy Logic and Its Applications in Mechatronic Control Systems 211
D. Sathya, G. Saravanan and R. Thangamani

7.1 Introduction 212

7.2 Fuzzy Control Systems 215

7.3 Fuzzy Logic Applications in Mechatronic Control Systems 220

7.4 Fuzzy Expert Systems in Mechatronics 221

7.5 Fuzzy Logic and Machine Learning in Mechatronics 223

7.6 Fuzzy Control in Multivariable Mechatronic Systems 227

7.7 Industrial Automation and Fuzzy Logic 230

7.8 Challenges and Future Directions 233

7.9 Conclusion 235

References 236

Further Reading 237

8 Drones and Autonomous Robotics Incorporating Computational Intelligence 243
R. Thangamani, R. K. Suguna and G. K. Kamalam

8.1 Introduction 244

8.2 Literature Review 248

8.3 Navigation and Path Planning 252

8.4 Perception and Object Detection 258

8.5 Adaptive Control and Decision-Making 265

8.6 Swarm Robotics and Multi-Agent Systems 266

8.7 Autonomous Drone Delivery Systems 270

8.8 Human–Robot Interaction and Collaboration 277

8.9 Future Trends and Challenges 284

8.10 Ethical Implications of Autonomous Robotics and Drones 289

8.11 Conclusion 293

References 294

9 Exploring the Convergence of Artificial Intelligence and Mechatronics in Autonomous Driving 297
Ritika Wason, Parul Arora, Vishal Jain, Devansh Arora and M. N. Hoda

9.1 Introduction 297

9.2 Key Components of Advanced Driver Systems 301

9.3 Current State of AI-Enabled Self-Driving Mechatronics 303

9.4 Challenges in Self-Driving Mechatronics 305

9.5 Advantages of Self-Driving Mechatronics 307

9.6 Self-Driving and Environmental Sustainability 308

9.7 Legal and Safety Issues in Autonomous Driving 310

9.8 Conclusion 310

9.9 Future Directions in Self-Driving Mechatronics 313

References 313

10 Improving Power Quality for Industry Control Using Mechatronics Devices 317
Pulkit Kumar, Harpreet Kaur Channi and Surbhi Gupta

10.1 Introduction 318

10.2 Power Quality in Industrial Settings 322

10.3 Mechatronics Devices for Power Quality Improvement 324

10.4 Case Studies of Mechatronics Devices in Industry Control 330

10.5 Integration of Mechatronics Devices in Industrial Control Systems 333

10.6 Future Trends and Innovations in Mechatronics for Power Quality Improvement 337

10.7 Conclusion 342

References 342

11 Study on Integrated Neural Networks and Fuzzy Logic Control for Autonomous Electric Vehicles 347
S. Boopathi

11.1 Introduction 348

11.2 Fundamentals of Neural Networks and Fuzzy Logic 351

11.3 Autonomous Electric Vehicles: Challenges and Control Requirements 354

11.4 Neural Network–Based Control for Autonomous Electric Vehicles 357

11.5 Fuzzy Logic Control for Energy-Efficient Driving 361

11.6 Integration of Neural Networks and Fuzzy Logic for Enhanced Autonomy 367

11.7 Case Studies and Applications 372

11.8 Future Prospects and Challenges 374

11.9 Conclusions 375

List of Abbreviations 375

References 375

12 Advancing Mechatronics Through Artificial Intelligence 381
Pawan Whig, Jhansi Bharathi Madavarapu, Venugopal Reddy Modhugu, Balaram Yadav Kasula and Ashima Bhatnagar Bhatia

12.1 Introduction 381

12.2 Foundations of Mechatronics and Artificial Intelligence 386

12.3 Synergies Between Artificial Intelligence and Mechatronics 388

12.4 Case Studies: AI-Driven Advances in Mechatronics 390

12.5 Challenges and Opportunities 392

12.6 Future Directions and Trends 395

12.7 Conclusion 397

12.8 Future Scope 398

References 398

13 Computational Intelligent Techniques in Mechatronics: Emerging Trends and Case Studies 401
Anita Mohanty, Ambarish G. Mohapatra, Subrat Kumar Mohanty, Bright Keswani and Sasmita Nayak

13.1 Introduction to Mechatronics and Computational Intelligence 402

13.2 Artificial Neural Networks (ANNs) in Mechatronics 403

13.3 Reinforcement Learning in Mechatronics 407

13.4 Evolutionary Algorithms for Mechatronic System Design 412

13.5 Emerging Trends in Mechatronics with Computational Intelligence 419

13.6 Real-World Case Studies 427

13.7 Conclusion 439

References 441

14 Advanced Sensing Systems in Automobiles: Computational Intelligence Approach 445
Mamta B. Savadatti and Ajay Sudhir Bale

14.1 Introduction 445

14.2 Computational Intelligence Approach 447

14.3 Methodology 463

14.4 Conclusions 466

References 467

15 Design of Arduino UNO–Based Novel Multi-Featured Robot 471
Jaspinder Kaur, Rohit Anand, Nidhi Sindhwani, Ajay Kumar Sharma and Vishal Jain

15.1 Introduction 472

15.2 Design Implementation 473

15.3 Proposed Model 477

15.4 Process and Working Methodology 478

15.5 Experiment and Applications 482

15.6 Conclusion 484

15.7 Future Scope 485

Acknowledgments 485

References 485

16 Integrating Mechatronics in Autonomous Agricultural Machinery: A Case Study 491
N. V. Suresh, Ananth Selvakumar, Gajalakshmi Sridhar and Vishal Jain

16.1 Introduction 492

16.2 Case Background 493

16.3 Literature Review 495

16.4 Methodology 496

16.5 Implementation 498

16.6 Findings 501

16.7 Suggestion 502

16.8 Conclusion 504

References 505

Index 509

Erscheint lt. Verlag 26.12.2024
Sprache englisch
Themenwelt Informatik Theorie / Studium Künstliche Intelligenz / Robotik
Technik Maschinenbau
ISBN-10 1-394-17464-0 / 1394174640
ISBN-13 978-1-394-17464-5 / 9781394174645
Zustand Neuware
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