This book covers both transmitters and receivers of modern microwave devices designed for a wide range of practical applications. It focuses on different types of antennas, filters, amplifiers, and oscillators and their optimization techniques for the design of networks, which are most useful in modern communication systems such as the Internet of Things, remote sensing, and space applications.
Key Features:
• Focuses on specific applications of microwave device design, such as wearable, implantable, body-centric networks, wearable, implantable, and Internet of Medical Things.
• Covers the design and implementation of the defense networks and discusses the application of RADAR optimization algorithms.
• Presents advanced topics such as the integration of machine learning, and artificial intelligence for designing microwave devices.
• Examines modern microwave devices for next-generation communication systems, such as 5G and beyond, satellites, and RADAR applications.
• Explains the implementation and challenges for unmanned aerial vehicles, ground-penetrating radar, and remote sensing applications on aerial platforms.
This book is primarily written for senior undergraduates, graduate students, and academic researchers in the fields of electrical engineering, electronics and communication engineering, computer science and engineering, and telecommunications.
The text begins by covering different types of practical antenna design and analysis such as microstrip, metamaterials, dielectric resonator, and substrate integrated waveguide. It further discusses techniques to design several types of practical antennas for diverse types of applications such as single band, narrowband, and multiband.
1. Different Feeding Networks to Generate Wideband Circular Polarization
Waves in Different Shapes of Dielectric Resonators.
2. Development and
Analysis of Symmetric Circular Rings Incorporated Modified Circular Patch
Antenna for Numerous Wireless Applications.
3. On the Behavior of Multiband,
High Gain Fractal Curves based Microstrip Patch Antenna.
4. MIMO Antenna
Systems for 5G and Beyond Wireless Communication.
5. Design and Performance
Analysis of Metamaterials Incorporated Microstrip Antennas for 5G and Beyond
Wireless Applications.
6. Flexible Antennas for Wireless Body Area Network
Applications.
7. Metamaterial Based Antennas for Biomedical Applications.
8.
A gm/Id based Low Power High Gain CMOS Folded Cascode OTA for Biomedical.
9.
Design and Investigations on Conformal Vivaldi Antenna for Wireless Capsule
Endoscopic System.
10. The Practical Implementations of Microwave Devices for
IoMT, Wearable, Sensors and Healthcare Applications.
11. 5G Beam Steering
Techniques.
12. Design Principles and Numerical Analysis of Ultrathin
Polarization-Insensitive Hybrid FSS: Dual Wide-Stopband and Triple Passband
Characteristics Exploration.
13. RF Energy Harvesting, IOT, Flexible and
Implanted Microwave Device.
14. Machine Learning Methods in Drone Detection:
A Comprehensive Survey.
Rajkishor Kumar is an Associate professor at the School of Electronics Engineering, Vellore Institute of Technology, Vellore, Tamil Nadu, India. He has authored/ coauthored more than 60+ research papers in journals and conferences of national and international repute. His current research interests include radio frequency (RF) and microwave antennas, microwave filters, RF energy harvesting and transfer systems, antennas in biomedical applications, artificial intelligence, and machine learning approaches in antennas as well as Internet of Thingsbased smart antennas.
Avinash Chandra is an associate professor at the School of Electronics Engineering, Vellore Institute of Technology, Vellore, Tamil Nadu, India. He has published over 35 papers in leading journals and conferences. His current research areas include waveguides, reconfigurable arrays, and antennas for 6G applications.
Indrasen Singh is an assistant professor at the School of Electronics Engineering, Vellore Institute of Technology, Vellore, Tamil Nadu, India. He has published more than 20 research papers in national and international journals and conferences. His research interests are in the areas of cooperative communication, stochastic geometry, modeling of wireless networks, heterogeneous networks, millimeter wave communications, devicetodevice communication, and 5G and 6G communications.
Vijay Kumar is a professor at the School of Electronics Engineering, Vellore Institute of Technology, Vellore, Tamil Nadu, India. He has worked as a research associate at the Indian Institute of Bombay, India, and focused on specific absorption rate (SAR) interferometry and polarimetry. His research focus is on microwave radar imaging, SAR imaging system development, RF frontend development for communication applications about earth observation, and reconnaissance from spaceborne, airborne, and unmanned aerial vehicle platforms. He has published research papers in journals and conferences of national and international repute.
YuChen Hu is a professor in the Department of Computer Science at Tunghai University, Taiwan. He is a senior member of IEEE. He is also a member of the Chinese Cryptology and Information Security Association, Computer Science and Information Management, and Phi Tau Phi Society of the Republic of China. His research interests include digital forensics, information hiding, image and signal processing, data compression, information security, computer networks, deep learning, and bioinformatics. He has published research papers in national and international journals and conferences.
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