Microstrip Antenna Design for Wireless Applications

This book focuses on recent advances in the field of microstrip antenna design and its applications in various fields including space communication, mobile communication, wireless communication, medical implants and wearable applications. Scholars as well as researchers and those in the electronics/ electrical/ instrumentation engineering fields will benefit from this book. The book shall provides the necessary literature and techniques using which to assist students and researchers would design antennas for the above- mentioned applications and will ultimately enable users to take measurements in different environments. It is intended to help scholars and researchers in their studies, by enhancing their the knowledge and skills in on the latest applications of microstrip antennas in the world of communications such as world like IoT, D2D, satellites and wearable devices, to name a few.

FEATURES

• Addresses the complete functional framework workflow in printed antenna design systems
• Explores the basic and high-level concepts, including advanced aspects in planer design issues, thus serving as a manual for those in the the industry while also assisting beginners
• Provides the latest techniques used for antennas in terms of structure, defected ground, MIMO and fractal designs
• Discusses case studies related to data-intensive technologies in microchip antennas in terms of the most recent applications and similar uses for the Internet of Things and device-to-device communication

Overview and Introduction: 1. Microstrip Patch Antenna Technique for Wireless Applications. 2. A Review-Microstrip Patch antenna for Ultra Wideband (UWB. Performance Analysis Of Micro-Strip Antenna3. Design And Performance Analysis Of Microstrip Antenna For Wireless Applications. 4. Design And Simulation Of High Gain Microstrip Patch Antenna Using Fabricated Perovskite Manganite Added Polymer Nanocomposite For Multiple Input And Multiple Output System. 5. Compact Microstrip Patch Antenna Design With Three I, Two L, One E And One F Shaped Patch For Wireless Applications. 6.Design of Elliptically Etched Circular And Elliptical Printed Antennas For Dual-Band 5G Mobile Applications. 7. Design and Analyses of Dual-band Microstrip Patch Antennas for Wireless Communications. Multiple input multiple output (MIMO) antenna design and it’s applications: 8. Multiple Input Multiple-Output (MIMO) Antenna Design And Application. 9. A Survey Of Fifth Generation (5G) Cellular Communication Using MIMO For Iot Application. 10. Design Considerations in MIMO Antenna for Next Generation 5G Wireless Communication. 11. Design and Development of MIMO Antennas for Smart 5G Devices. Fractal and defected ground structure Micro-strip antenna: 12. Compact Rhombus Rectangular Microstrip Fractal Antenna with Vertically Periodic Defected Ground Structure for Wireless Applications. 13. Design and Analysis of Heptagon shaped Multi band Antenna with Multiple Notching for Wireless Applications. Micro-strip antenna in vehicular communication:14. Multifunctional Integrated Hybrid Rectangular Dielectric Resonator Antenna for High-Speed Communication. Importance and uses of Micro-strip antenna in IoT: 15. Importance and uses of Microstrip Antenna in IoT: Opportunities and challenges. 16. Importance and Uses of Microstrip Antenna In IoT. 17. Design of a Microstrip Patch Antenna Based on Fractal Geometry for IoT Applications. Ultra-wide-band antenna design for wearable applications: 18. UWB and NB Performance Integrated Antenna for Cognitive Radio Applications – A Survey. 19. An Ultra-wideband wearable Vivaldi antenna for Bio-Medical applications. 20. Ultra-Wide-band Antenna Design for Wearable Applications. 21. An Orthogonal Quad-Port Wearable MIMO Antenna for UWB Applications. Micro-strip antenna design for Misc applications: 22. Design and Simulation of 5G Microstrip Patch Antenna with Phase Shifter and Dodecagonal Prism (12-Sided Prism) Shape Base Station.

Praveen Malik is a Professor in the School of Electronics and Electrical Engineering, Lovely Professional University, Phagwara, Punjab, India.

Sanjeevikumar Padmanaban is a Faculty Member with the CTIF Global Capsule (CGC) Laboratory, Department of Business Development and Technology, Aarhus University, Denmark.

Jens Bo Holm-Nielsen is Head of Research Group of Bioenergy and Green Engineering, Department of Energy Technology, Aalborg University, Denmark.