Hybrid Intelligence for Smart Grid Systems
Herausgeber: Kumar, Seelam Vsv Prabhu Deva; Kim, Hee-Je; Akashe, Shyam
Hybrid Intelligence for Smart Grid Systems
Herausgeber: Kumar, Seelam Vsv Prabhu Deva; Kim, Hee-Je; Akashe, Shyam
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This book provides an overview of distributed control and distributed optimization theory with specific details on industrial applications to smart grid systems. It discusses the fundamental analysis and design schemes for developing actual working smart grids and covers all aspects concerning the conventional and nonconventional methods.
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This book provides an overview of distributed control and distributed optimization theory with specific details on industrial applications to smart grid systems. It discusses the fundamental analysis and design schemes for developing actual working smart grids and covers all aspects concerning the conventional and nonconventional methods.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 188
- Erscheinungstermin: 22. Oktober 2021
- Englisch
- Abmessung: 234mm x 156mm x 13mm
- Gewicht: 467g
- ISBN-13: 9780367699093
- ISBN-10: 0367699095
- Artikelnr.: 62219734
- Verlag: Taylor & Francis Ltd (Sales)
- Seitenzahl: 188
- Erscheinungstermin: 22. Oktober 2021
- Englisch
- Abmessung: 234mm x 156mm x 13mm
- Gewicht: 467g
- ISBN-13: 9780367699093
- ISBN-10: 0367699095
- Artikelnr.: 62219734
Seelam VSV Prabhu Deva Kumar is an Assistant Researcher (R&D) in JoongAng Control Co., Ltd. South Korea. He graduated Masters in Electrical Engineering, Pusan National University, South Korea, and Bachelors in Electronics and Communication Engineering, ITM University, M.P. India. He is also a certified Chartered Engineer (C.Eng) and member of IET (UK), IEI (India), SESI (India). His research area focuses on DC-DC Converters and On/Off-Grid Inverters. Shyam Akashe got PhD from Electronics and Communication Engineering, Thapar University, Panjab, India. At present he is professor of Department of Electronics and Communication Engineering in ITM University, Gwalior, India. He is a Board Member of VLSI Circuits and Systems Letter, IEEE African Journal of Computing & ICTS, IE, IETE, ISTE, ISOI, VSI. Biography published in Marquis¿s Whös Who in Engineering Field, USA awarded by Marquis, 2015 Our research area mainly in Designing of low power CMOS circuits, Modelling, FinFET based memory design, Implementation of control algorithms and digital design in FPGA boards, IoT application, Low voltage DC-DC converters. Hee-Je Kim got PhD of Energy Conversion, Kyushu University, Japan. At present he is professor of Department of Electrical Engineering in Pusan National University, South Korea. He is a Board Member of Journal [Energies], Korea Institute of Electrical Engineers and Renewable Energy. Our research area mainly in Fabrication and commercialization of next-generation solar cells such as dye synthesized, perovskite solar cells etc... Improving efficiency of existing solar and wind hybrid systems using different techniques. High energy and power density flexible super-capacitor for hybrid-energy storage system. Converter, MPPT, PV Inverter, Remote-control by smart-phone with novel algorithm for Power conditioning system. Chinmay Chakraborty is an Assistant Professor (Sr.) in the Department of Electronics and Communication Engineering, BIT Mesra, India. His primary areas of research include Wireless body area network, Internet of Medical Things, point-of-care diagnosis, Smart City, Green Technology, m-Health/e-health, and Medical imaging. He has published more than 15 edited books, and co-editing 10 books on Smart IoMT, Healthcare Technology, and Sensor Data Analytics with CRC Press, IET, Pan Stanford, and Springer. He received a Young Research Excellence Award, Global Peer Review Award, Young Faculty Award, and Outstanding Researcher Award.
1. Performance Comparison of Various FACTS Devices in Combined LFC and AVR
of Multi-Area System for Simultaneous Frequency and Coltage Stabilization.
2. Reliable Energy Storage System for the Grid Integration. 3.
Implementation of Solar, UC/Battery-Based Hybrid Electric Vehicle with an
Efficient Controller. 4. Recreation and Control of Multi Rotor Wind Power
Generating Scheme for Pumping Applications. 5. Analytical Study of DC-to-DC
Power Converter. 6. Controller for a Remotely Located PV/Wind Hybrid Energy
System Implemented via Internet of Things. 7. Facile Hydrothermal Synthesis
of CuS/MnS Composite Material Improved Improved the Power Conversion
Efficiency of Quantum-Dot Sensitized Solar Cells. 8. Performance
Investigation of LG-SDM-FSO Transmission Link under Snow Weather
Conditions. 9. Optimization of Energy Consumption in the Wireless Sensor
Network (WSN) Using IoT-Based Cross-Layer Model. 10. Study and Analysis of
Average Throughput Based on the Performance of Broadcast Scheme in Wireless
Ad-hoc Networks. 11. Advanced Metering in Smart Distributions Grid.
of Multi-Area System for Simultaneous Frequency and Coltage Stabilization.
2. Reliable Energy Storage System for the Grid Integration. 3.
Implementation of Solar, UC/Battery-Based Hybrid Electric Vehicle with an
Efficient Controller. 4. Recreation and Control of Multi Rotor Wind Power
Generating Scheme for Pumping Applications. 5. Analytical Study of DC-to-DC
Power Converter. 6. Controller for a Remotely Located PV/Wind Hybrid Energy
System Implemented via Internet of Things. 7. Facile Hydrothermal Synthesis
of CuS/MnS Composite Material Improved Improved the Power Conversion
Efficiency of Quantum-Dot Sensitized Solar Cells. 8. Performance
Investigation of LG-SDM-FSO Transmission Link under Snow Weather
Conditions. 9. Optimization of Energy Consumption in the Wireless Sensor
Network (WSN) Using IoT-Based Cross-Layer Model. 10. Study and Analysis of
Average Throughput Based on the Performance of Broadcast Scheme in Wireless
Ad-hoc Networks. 11. Advanced Metering in Smart Distributions Grid.
1. Performance Comparison of Various FACTS Devices in Combined LFC and AVR
of Multi-Area System for Simultaneous Frequency and Coltage Stabilization.
2. Reliable Energy Storage System for the Grid Integration. 3.
Implementation of Solar, UC/Battery-Based Hybrid Electric Vehicle with an
Efficient Controller. 4. Recreation and Control of Multi Rotor Wind Power
Generating Scheme for Pumping Applications. 5. Analytical Study of DC-to-DC
Power Converter. 6. Controller for a Remotely Located PV/Wind Hybrid Energy
System Implemented via Internet of Things. 7. Facile Hydrothermal Synthesis
of CuS/MnS Composite Material Improved Improved the Power Conversion
Efficiency of Quantum-Dot Sensitized Solar Cells. 8. Performance
Investigation of LG-SDM-FSO Transmission Link under Snow Weather
Conditions. 9. Optimization of Energy Consumption in the Wireless Sensor
Network (WSN) Using IoT-Based Cross-Layer Model. 10. Study and Analysis of
Average Throughput Based on the Performance of Broadcast Scheme in Wireless
Ad-hoc Networks. 11. Advanced Metering in Smart Distributions Grid.
of Multi-Area System for Simultaneous Frequency and Coltage Stabilization.
2. Reliable Energy Storage System for the Grid Integration. 3.
Implementation of Solar, UC/Battery-Based Hybrid Electric Vehicle with an
Efficient Controller. 4. Recreation and Control of Multi Rotor Wind Power
Generating Scheme for Pumping Applications. 5. Analytical Study of DC-to-DC
Power Converter. 6. Controller for a Remotely Located PV/Wind Hybrid Energy
System Implemented via Internet of Things. 7. Facile Hydrothermal Synthesis
of CuS/MnS Composite Material Improved Improved the Power Conversion
Efficiency of Quantum-Dot Sensitized Solar Cells. 8. Performance
Investigation of LG-SDM-FSO Transmission Link under Snow Weather
Conditions. 9. Optimization of Energy Consumption in the Wireless Sensor
Network (WSN) Using IoT-Based Cross-Layer Model. 10. Study and Analysis of
Average Throughput Based on the Performance of Broadcast Scheme in Wireless
Ad-hoc Networks. 11. Advanced Metering in Smart Distributions Grid.