This book is a collection of selected research papers presented at the International Conference on Innovations in Electrical and Electronics Engineering (ICIEEE 2019), which was organized by the Guru Nanak Institutions, Ibrahimpatnam, Hyderabad, Telangana, India, on July 26-27, 2019. The book highlights the latest developments in electrical and electronics engineering, especially in the areas of power systems, power electronics, control systems, electrical machinery, and renewable energy. The solutions discussed here will encourage and inspire researchers, industry professionals, and policymakers to put these methods into practice.…mehr
This book is a collection of selected research papers presented at the International Conference on Innovations in Electrical and Electronics Engineering (ICIEEE 2019), which was organized by the Guru Nanak Institutions, Ibrahimpatnam, Hyderabad, Telangana, India, on July 26-27, 2019. The book highlights the latest developments in electrical and electronics engineering, especially in the areas of power systems, power electronics, control systems, electrical machinery, and renewable energy. The solutions discussed here will encourage and inspire researchers, industry professionals, and policymakers to put these methods into practice.
Dr. H. S. Saini is a Managing Director for Guru Nanak Institutions and obtained his Ph.D. in the field of Computer Science. He has over 22 years of experience at university/college level in teaching UG/PG students and has guided several B.Tech., M.Tech., and Ph.D. projects. He has published/presented more than 30 high-quality research papers in international and national journals and proceedings of international conferences. He is the editor for Journal of Innovations in Electrical and Electronics Engineering (JIEEE) published by Guru Nanak Publishers. He has two books to his credit. Dr. H. S. Saini is a lover of innovation and is an advisor for NBA/NAAC accreditation process to many institutions in India and abroad. Dr. T. Srinivasulu, Dean, Department of Electronics & Communication Engineering, Kakatiya University, Warangal, obtained M.Tech. from IIT Dhanbad, and Ph.D. degree from Kyushu University, Japan. He was completed proficiency courses and diplomas from IIScBangalore, IIT Kharagpur, CEDT Gorakhpur, and NRDC New Delhi. He worked as Scientist at NIRM, Government of India Research Institute, around two decades. He published over 142 research papers in various international and national journals and conferences. He is reviewer for International Journal of Measurements, Elsevier Publisher, and ISOI Journal. He obtained product patent of MBSC system and commercialized. He is regular reviewer to Indian and abroad IEEE conference papers as TPC member. He has successfully completed 15 industry-, DST-, and AICTE-sponsored research projects. He is author to a book entitled Real Time Systems for Coal Mine Applications. He has received several awards, honors and distinctions, International Bridge Fellowship, International JSPS Fellowship, International JSPS Medals, best paper awards, Gold Card NSL USA. He is Fellow of Institution of Electronics and Telecommunication Engineers and Fellow of Telangana Academy of Sciences. He is the advisory board member of IC, Cambridge University, UK. He was secretary to Instrument Society of India, Hyderabad, and EC member of IJAA. He is the life member of ISTE, BCSI, ISCA, and ISOI. His areas of research include real-time systems, wireless sensor networks/IOT, and cognitive radios. Dr. D. M. Vinod Kumar joined at National Institute of Technology Warangal in 1981 as a faculty member. He was Head, Department of Electrical Engineering, during 2007-2009, and Dean (Academic) during 2009-2011. He was Chairman, Institution of Engineers (India) Warangal Local Chapter during 2012-2014. At present, he is a Professor of Electrical Engineering at National Institute of Technology, Warangal. He obtained his B.E. and M.Tech. degrees from Osmania University, Hyderabad, during 1979 and 1981, respectively. He earned his Ph.D. degree from IIT Kanpur in the year 1996. During 2002-2003, he was Post-Doctoral Fellow at Howard University, Washington, D.C., USA. He has published more than 100 papersin international journals and conferences. He is Fellow of Institution of Engineers (India) Kolkata and the life member of Systems Society of India (SSI). He is the member of Board of Studies of the Department of Electrical Engineering, Osmania University, Hyderabad, and JNTU, Hyderabad, Kakinada, and Anantapur. He delivered expert lectures on neural networks and fuzzy logic at various institutions. His areas of interest are power systems operation and control, power system stability and security, neural networks and fuzzy logic applications, flexible AC transmission systems, power system deregulation and restructuring and smart grid technologies, multi-objective evolutionary algorithm applications, and renewable energy systems. Dr. K. S. Chandragupta Mauryan is working as a Professor in EEE and Assistant Dean R&D, Guru Nanak Institutions Technical Campus, Hyderabad. He has completed Ph.D. in Electrical Engineering from Anna University, Chennai, in the year 2015, M.E. in Power Systems Engineering from PSG College of Technology, Coimbatore, in the year 2004, and B.E. in Electrical and Electronics Engineering from Bharathiar University, Coimbatore, in the year 2001. He has also qualified the GATE 2001 Examination in Electrical and Electronics. He has published more than 30 technical papers in international and national journals. He has published 6 patents and filed 1 patent in Patent Office, India. He has presented more than 25 research papers in international and national conferences. He is the member of professional societies like IEEE, ISTE, ISRD, IRED, and IAENG. He is having 15 years of teaching and 11 years of research experience. His research interests are power systems optimization, smart grid technologies, soft computing applications, renewable energy sources, and electric vehicle.
Inhaltsangabe
Part 1: Power Electronics.- Chapter 1. Power System Security Analysis using FACTS Devices by Means of Intelligent and Hybrid Techniques under Different Loading Conditions.- Chapter 2. Implementation of Three Phase Shunt Active Filter using Instantaneous Real Power Calculation and Triangular Carrier Current Control.- Chapter 3. A Small DC-Link Capacitor Inverter Fed by Front-end Three-Phase Diode Rectifiers used to Control Induction Motor.- Chapter 4. Different Topologies of Inverter: A Literature Survey.- Chapter 5. Analysis and Design of Extended Range Zero Voltage Switching (ZVS) Active-Clamping Current-Fed Push-Pull Converter.- Chapter 6. Switched Reluctance Motor Converter Topologies: A Review.- Chapter 7. Design of Five Level Cascaded H-Bridge Multilevel Inverter.- Chapter 8. Performance Analysis of Asymmetrical Cascaded H Bridge Multilevel Inverter using Multi Carrier Pulse Width Modulation Techniques.- Chapter 9. Novel Field Oriented Direct Control Using SVPWM for Analysis of Induction Motor.- Chapter 10. Interoperable Wireless Charging for Electric Vehicles.- Chapter 11. Power Quality Enhancement Using STATCOM with Reduced Switch Based Multilevel Converter.- Chapter 12. Dual Input Multi Output Using Non Cloistered DC-DC Boost Converter.- Chapter 13. Mitigation of Harmonics by using Active Power Filter Scheme with Different Control Strategies.- Chapter 14. Application of non linear and Optimal Control Technique to High Gain DC-DC Converter.- Chapter 15. An Innovative Multi Input Boost Chopper for EHV.
Part 1: Power Electronics.- Chapter 1. Power System Security Analysis using FACTS Devices by Means of Intelligent and Hybrid Techniques under Different Loading Conditions.- Chapter 2. Implementation of Three Phase Shunt Active Filter using Instantaneous Real Power Calculation and Triangular Carrier Current Control.- Chapter 3. A Small DC-Link Capacitor Inverter Fed by Front-end Three-Phase Diode Rectifiers used to Control Induction Motor.- Chapter 4. Different Topologies of Inverter: A Literature Survey.- Chapter 5. Analysis and Design of Extended Range Zero Voltage Switching (ZVS) Active-Clamping Current-Fed Push-Pull Converter.- Chapter 6. Switched Reluctance Motor Converter Topologies: A Review.- Chapter 7. Design of Five Level Cascaded H-Bridge Multilevel Inverter.- Chapter 8. Performance Analysis of Asymmetrical Cascaded H Bridge Multilevel Inverter using Multi Carrier Pulse Width Modulation Techniques.- Chapter 9. Novel Field Oriented Direct Control Using SVPWM for Analysis of Induction Motor.- Chapter 10. Interoperable Wireless Charging for Electric Vehicles.- Chapter 11. Power Quality Enhancement Using STATCOM with Reduced Switch Based Multilevel Converter.- Chapter 12. Dual Input Multi Output Using Non Cloistered DC-DC Boost Converter.- Chapter 13. Mitigation of Harmonics by using Active Power Filter Scheme with Different Control Strategies.- Chapter 14. Application of non linear and Optimal Control Technique to High Gain DC-DC Converter.- Chapter 15. An Innovative Multi Input Boost Chopper for EHV.
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