This book discusses systematic designs of stable adaptive fuzzy logic controllers employing hybridizations of Lyapunov strategy-based approaches/H∞ theory-based approaches and contemporary stochastic optimization techniques. The text demonstrates how candidate stochastic optimization techniques like Particle swarm optimization (PSO), harmony search (HS) algorithms, covariance matrix adaptation (CMA) etc. can be utilized in conjunction with the Lyapunov theory/H∞ theory to develop such hybrid control strategies. The goal of developing a series of such hybridization processes is to combine the strengths of both Lyapunov theory/H∞ theory-based local search methods and stochastic optimization-based global search methods, so as to attain superior control algorithms that can simultaneously achieve desired asymptotic performance and provide improved transient responses. The book also demonstrates how these intelligent adaptive control algorithms can be effectively utilized in real-life applications such as in temperature control for air heater systems with transportation delay, vision-based navigation of mobile robots, intelligent control of robot manipulators etc.
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The book also demonstrates how these intelligent adaptive control algorithms can be effectively utilized in real-life applications such as in temperature control for air heater systems with transportation delay, vision-based navigation of mobile robots, intelligent control of robot manipulators etc.
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Part 1_ Prologue.- Chapter 1. Intelligent Adaptive Fuzzy Control.- Chapter 2. Some Contemporary Stochastic Algorithms: A Glimps.- Chpater 3. Fuzzy Controller Design-I: Stochastic Algorithm Based Approac.- Part II_Lyapunov Strategy Based Design Methodologie.-  Chapter 4. Fuzzy Controller Design-II: Lyapunov Strategy Based Adaptive Approac.- Chapter 5. Fuzzy Controller Design-III: Hybrid Adaptive Approache.- Part III_H∞ Strategy Based Design Methodologies.-  Chapter 6. Fuzzy Controller Design-IV: H∞ Strategy Based Robust Approac.- Chapter 7. Fuzzy Controller Design-V: Robust Hybrid Adaptive Approaches.- Part IV _Applications.-  Chapter 8. Experimental Study-I: Temperature Control of an Air Heater System with Transportation Delay.- Chapter 9. Experimental Study-II: Vision Based Control of Robot Manipulators.- Chapter 10. Experimental Study-III: Vision Based Navigation of Mobile Robots.- Part V_Epilogue.- Chapter 11. Emerging Areas in Intelligent FuzzyControl and Future Research Scopes.
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This book discusses systematic designs of stable adaptive fuzzy logic controllers employing hybridizations of Lyapunov strategy-based approaches/H∞ theory-based approaches and contemporary stochastic optimization techniques. The text demonstrates how candidate stochastic optimization techniques like Particle swarm optimization (PSO), harmony search (HS) algorithms, covariance matrix adaptation (CMA) etc. can be utilized in conjunction with the Lyapunov theory/H∞ theory to develop such hybrid control strategies. The goal of developing a series of such hybridization processes is to combine the strengths of both Lyapunov theory/H∞theory-based local search methods and stochastic optimization-based global search methods, so as to attain superior control algorithms that can simultaneously achieve desired asymptotic performance and provide improved transient responses. The book also demonstrates how these intelligent adaptive control algorithms can be effectively utilized in real-life applications such as in temperature control for air heater systems with transportation delay, vision-based navigation of mobile robots, intelligent control of robot manipulators etc.
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“First, the book is well-structured and well-suited for familiarizing yourself with it. Second, the delivery is rigorous, clear and hands-on. … Overall, this work is a great confluence of mathematical soundness, computer science and engineering applications, making it a good fit for either a mathematics undergraduate’s library, a reseacher’s desk, or a computer engineer’s toolbox.” (Nataliya O. Sedova, zbMATH 1428.93001, 2020)
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Reinforces the concepts of hybridizing stochastic optimization techniques Elaborates on how to tackle the process of transport delay with variable disturbances employing hybrid adaptive fuzzy controllers Reflects on the application of hybrid adaptive tracking control schemes for the movement of manipulator robot and for the navigation of vision based mobile robot
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Produktdetaljer

ISBN
9789811346033
Publisert
2018-12-16
Utgiver
Vendor
Springer Verlag, Singapore
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Heftet

Om bidragsyterne

Dr. Kaushik Das Sharma received the B.Tech. and M.Tech. degrees in Electrical Engineering from Department of Applied Physics, University of Calcutta, Kolkata, India, in 2001, 2004 respectively and Ph.D. degree from Jadavpur University, Kolkata, India, in 2012. He is currently serving as an Associate Professor in Electrical Engineering Section of Department of Applied Physics, University of Calcutta, Kolkata, India. He is a recipient of the Kanodia Research Scholarship in 2002 and University Gold Medal in 2004 from University of Calcutta. Dr. Das Sharma’s key research interests include fuzzy control, stochastic optimization, machine learning, robotics and systems biology. He has authored/coauthored about 45 technical articles, including 20 international journal papers. Dr. Das Sharma is a Senior Member of the IEEE (USA), Member of the IET (UK) and a Life Member of Indian Science Congress Association. He has served/is serving in important positions in several International Conference Committees all over the world. Presently he also serves as Secretary of IEEE Joint CSS-IMS Kolkata Chapter, an Executive Committee Members of IEEE Kolkata Section and IET (UK) Kolkata Local Network. 

Amitava Chatterjee did his BEE, MEE and PhD from Electrical Engineering Department of Jadavpur University, Kolkata, in 1991, 1994 and 2002, respectively. He is currently serving as a Professor in Electrical Engineering Department of Jadavpur University, Kolkata, India. He is a recipient of the Japanese Government (Monbukagakusho) Scholarship in 2003 and a recipient of the Japan Society for the Promotion of Science (JSPS) Post-Doctoral Fellowship in 2004. In 2004, and in 2009 he visited University of Paris XII, Val de Marne, France, and in 2017 he visited University of Paris-Est, France as an Invited Teacher. Dr. Chatterjee's key research interests includenonlinear control, intelligent instrumentation, signal processing, computer vision, robotics, image processing and pattern recognition. Dr. Chatterjee has co-authored a book and co-edited two books all published by Springer-Verlag, Germany. He presently serves as an Editor of IEEE Transactions on Vehicular Technology and Engineering Applications of Artificial Intelligence Journal (Elsevier) and as an Associate Editor of IEEE Transactions on Instrumentation and Measurement, and IEEE Sensors Journal. He has authored/coauthored more than 145 technical articles, including 90 international journal papers. Dr. Chatterjee is a member of the Technical Committee on “Imaging Measurements and Systems” of IEEE Instrumentation & Measurement Society, USA. He is a Fellow of the IETE (India), a Fellow of the Institution of Engineers (India), and a Senior Member of the IEEE (USA). He has served/is serving in important positions in several International Conference Committees all over the world, including several flagship IEEE Conferences.

Anjan Rakshit received the ME and PhD degrees in Electrical Engineering from Jadavpur University, Kolkata, India, in 1977 and 1987, respectively. He is a retired Professor from the Department of Electrical Engineering, Jadavpur University. His research interests include digital signal and image processing, Internet-based instrumentation, smart instrumentation, intelligent control, and design of real-time systems. He has published about 75 technical papers in his areas of research interest.