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Convergence of antenna technologies, electronics, and AI

Record Type:	Electronic resources : Monograph/item
Title/Author:	Convergence of antenna technologies, electronics, and AI/ Zakia Hammouch, Ouazzani Jamil, editors.
remainder title:	Convergence of antenna technologies, electronics, and artificial intelligence
other author:	Jamil, Ouazzani.
Published:	Hershey, Pennsylvania :IGI Global, : 2025.,
Description:	1 online resource (xxxiv, 554 p.) :ill.
[NT 15003449]:	Preface -- Chapter 1. Smart Antennas: Revolutionizing Connectivity Through Technology Convergence and AI -- Chapter 2. Smart Antennas and Their Applications -- Chapter 3. Theoretical Analysis of Microstrip Patch and Modeling of Artificial Neural Network -- Chapter 4. Enhancing Connectivity for Remote Monitoring and Management Through IoT Empowerment -- Chapter 5. Applications of PNC in Artificial Intelligence -- Chapter 6. Envisioning the Future: Exploring Revolutionary Trends and Breakthroughs in Massive MIMO for the Future of Wireless Systems -- Chapter 7. Bridging Innovation With Tunnel Field-Effect Transistors: Paving the Way for Advanced Biomedical Devices -- Chapter 8. Artificial Intelligence in Communications -- Chapter 9. Improving the Life of 1070 Al Evaporator Tube Failed by the Pitting/Crevice Corrosion Based on Quantum/Transported Life-Stress and Sample Size -- Chapter 10. Personalized Communication: AI-Driven Solutions for Enhanced Collaboration -- Chapter 11. Design of Smart Antennas and Their Applications: MIMO Antenna for 5G Applications -- Chapter 12. Revolutionizing Healthcare: The Power of Computer Vision Artificial Intelligence -- Chapter 13. Enhancing Wireless Connectivity Through AI-Driven Antenna Technologies -- Chapter 14. Design and Optimization of a CMOS-Based Li-Ion Battery Charger With LDO Regulator -- Chapter 15. Switching Power Supply Boost Converter Using 180 nm CMOS Technology -- Chapter 16. A Voltage-Mode PID-Controlled DC-DC Buck Converter Design for Automotive Applications -- Chapter 17. Designing a DC-DC Buck Converter in CMOS 180nm Technology -- Chapter 18. A Dynamic Enhancement of Full-On Chip CMOS LDO Slew-Rate for Battery-Powered Applications -- Chapter 19. Low Dropout Voltage Regulator With TSMC 0.18μm CMOS Technology for Battery Low-Powered Embedded Systems -- Chapter 20. Analyzing the Performance of a 5G Silo Slotted Dual-Band Antenna Using an Equivalent Circuit Model -- Chapter 21. New Compact Microstrip Rectangular Antenna for 28 GHz IoT Applications -- Chapter 22. Design of a Smart RFID Tags Antenna Using an Inductively Coupled Loop -- Chapter 23. Design of a Very Low Power Temperature Sensor in 65 nm CMOS Technology -- Chapter 24. Design of a Handheld Button Antenna With an Operating Frequency of 60 GHz in the 5G Millimeter Brand -- Chapter 25. Analysis and Design of a Rectangular Microstrip Antenna forRFID Applications -- Chapter 26. Design of a Bandpass Filter Based on Metamaterials -- Compilation of References -- About the Contributors -- Index.
Subject:	Antennas (Electronics) -
Online resource:	https://services.igi-global.com/resolvedoi/resolve.aspx?doi=10.4018/979-8-3693-3775-2
ISBN:	9798369337769

Convergence of antenna technologies, electronics, and AI
Convergence of antenna technologies, electronics, and AI[electronic resource] /Convergence of antenna technologies, electronics, and artificial intelligenceZakia Hammouch, Ouazzani Jamil, editors. - Hershey, Pennsylvania :IGI Global,2025. - 1 online resource (xxxiv, 554 p.) :ill. - Advances in computational intelligence and robotics (ACIR) book series. - Advances in computational intelligence and robotics (ACIR) book series..

Includes bibliographical references and index.

Preface -- Chapter 1. Smart Antennas: Revolutionizing Connectivity Through Technology Convergence and AI -- Chapter 2. Smart Antennas and Their Applications -- Chapter 3. Theoretical Analysis of Microstrip Patch and Modeling of Artificial Neural Network -- Chapter 4. Enhancing Connectivity for Remote Monitoring and Management Through IoT Empowerment -- Chapter 5. Applications of PNC in Artificial Intelligence -- Chapter 6. Envisioning the Future: Exploring Revolutionary Trends and Breakthroughs in Massive MIMO for the Future of Wireless Systems -- Chapter 7. Bridging Innovation With Tunnel Field-Effect Transistors: Paving the Way for Advanced Biomedical Devices -- Chapter 8. Artificial Intelligence in Communications -- Chapter 9. Improving the Life of 1070 Al Evaporator Tube Failed by the Pitting/Crevice Corrosion Based on Quantum/Transported Life-Stress and Sample Size -- Chapter 10. Personalized Communication: AI-Driven Solutions for Enhanced Collaboration -- Chapter 11. Design of Smart Antennas and Their Applications: MIMO Antenna for 5G Applications -- Chapter 12. Revolutionizing Healthcare: The Power of Computer Vision Artificial Intelligence -- Chapter 13. Enhancing Wireless Connectivity Through AI-Driven Antenna Technologies -- Chapter 14. Design and Optimization of a CMOS-Based Li-Ion Battery Charger With LDO Regulator -- Chapter 15. Switching Power Supply Boost Converter Using 180 nm CMOS Technology -- Chapter 16. A Voltage-Mode PID-Controlled DC-DC Buck Converter Design for Automotive Applications -- Chapter 17. Designing a DC-DC Buck Converter in CMOS 180nm Technology -- Chapter 18. A Dynamic Enhancement of Full-On Chip CMOS LDO Slew-Rate for Battery-Powered Applications -- Chapter 19. Low Dropout Voltage Regulator With TSMC 0.18μm CMOS Technology for Battery Low-Powered Embedded Systems -- Chapter 20. Analyzing the Performance of a 5G Silo Slotted Dual-Band Antenna Using an Equivalent Circuit Model -- Chapter 21. New Compact Microstrip Rectangular Antenna for 28 GHz IoT Applications -- Chapter 22. Design of a Smart RFID Tags Antenna Using an Inductively Coupled Loop -- Chapter 23. Design of a Very Low Power Temperature Sensor in 65 nm CMOS Technology -- Chapter 24. Design of a Handheld Button Antenna With an Operating Frequency of 60 GHz in the 5G Millimeter Brand -- Chapter 25. Analysis and Design of a Rectangular Microstrip Antenna forRFID Applications -- Chapter 26. Design of a Bandpass Filter Based on Metamaterials -- Compilation of References -- About the Contributors -- Index.

"In a rapidly evolving technological landscape, the integration of antenna technologies, electronics, and artificial intelligence (AI) poses a significant challenge: the complexity of these converging domains often surpasses the capacity of traditional educational resources and has been an area of research that is largely understudied. This creates a challenge for researchers attempting to gain a full understanding of the issue, as the lack of cohesive literature thatbridges the gaps between these disciplines is significant. Researchers, engineers, and enthusiasts are hampered in their efforts to grasp the full potential of this convergence. Convergence of Antenna Technologies, Electronics, and AI offers a unique perspective to this problem by synthesizing the fundamental principles, cutting-edge advancements, and practical applications of these interconnected domains. This book serves as a comprehensive guide for navigating the complexities of this multidisciplinary frontier. It provides a cohesive framework that not only elucidates the interconnections between antennas, electronics, and AI but also empowers readers to leverage this knowledge in developing transformative innovations."--

Mode of access: World Wide Web.

ISBN: 9798369337769Subjects--Topical Terms:

649359
Antennas (Electronics)
Subjects--Index Terms:

Adaptive and Self-Learning Antennas.Index Terms--Genre/Form:

542853
Electronic books.

LC Class. No.: TK7871.6 / .C66 2025eb

Dewey Class. No.: 621.3

Convergence of antenna technologies, electronics, and AI
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245 0 0 $a Convergence of antenna technologies, electronics, and AI $h [electronic resource] / $c Zakia Hammouch, Ouazzani Jamil, editors.
246 3 $a Convergence of antenna technologies, electronics, and artificial intelligence
260 $a Hershey, Pennsylvania : $b IGI Global, $c 2025.
300 $a 1 online resource (xxxiv, 554 p.) : $b ill.
490 1 $a Advances in computational intelligence and robotics (ACIR) book series
504 $a Includes bibliographical references and index.
505 0 $a Preface -- Chapter 1. Smart Antennas: Revolutionizing Connectivity Through Technology Convergence and AI -- Chapter 2. Smart Antennas and Their Applications -- Chapter 3. Theoretical Analysis of Microstrip Patch and Modeling of Artificial Neural Network -- Chapter 4. Enhancing Connectivity for Remote Monitoring and Management Through IoT Empowerment -- Chapter 5. Applications of PNC in Artificial Intelligence -- Chapter 6. Envisioning the Future: Exploring Revolutionary Trends and Breakthroughs in Massive MIMO for the Future of Wireless Systems -- Chapter 7. Bridging Innovation With Tunnel Field-Effect Transistors: Paving the Way for Advanced Biomedical Devices -- Chapter 8. Artificial Intelligence in Communications -- Chapter 9. Improving the Life of 1070 Al Evaporator Tube Failed by the Pitting/Crevice Corrosion Based on Quantum/Transported Life-Stress and Sample Size -- Chapter 10. Personalized Communication: AI-Driven Solutions for Enhanced Collaboration -- Chapter 11. Design of Smart Antennas and Their Applications: MIMO Antenna for 5G Applications -- Chapter 12. Revolutionizing Healthcare: The Power of Computer Vision Artificial Intelligence -- Chapter 13. Enhancing Wireless Connectivity Through AI-Driven Antenna Technologies -- Chapter 14. Design and Optimization of a CMOS-Based Li-Ion Battery Charger With LDO Regulator -- Chapter 15. Switching Power Supply Boost Converter Using 180 nm CMOS Technology -- Chapter 16. A Voltage-Mode PID-Controlled DC-DC Buck Converter Design for Automotive Applications -- Chapter 17. Designing a DC-DC Buck Converter in CMOS 180nm Technology -- Chapter 18. A Dynamic Enhancement of Full-On Chip CMOS LDO Slew-Rate for Battery-Powered Applications -- Chapter 19. Low Dropout Voltage Regulator With TSMC 0.18μm CMOS Technology for Battery Low-Powered Embedded Systems -- Chapter 20. Analyzing the Performance of a 5G Silo Slotted Dual-Band Antenna Using an Equivalent Circuit Model -- Chapter 21. New Compact Microstrip Rectangular Antenna for 28 GHz IoT Applications -- Chapter 22. Design of a Smart RFID Tags Antenna Using an Inductively Coupled Loop -- Chapter 23. Design of a Very Low Power Temperature Sensor in 65 nm CMOS Technology -- Chapter 24. Design of a Handheld Button Antenna With an Operating Frequency of 60 GHz in the 5G Millimeter Brand -- Chapter 25. Analysis and Design of a Rectangular Microstrip Antenna forRFID Applications -- Chapter 26. Design of a Bandpass Filter Based on Metamaterials -- Compilation of References -- About the Contributors -- Index.
520 3 $a "In a rapidly evolving technological landscape, the integration of antenna technologies, electronics, and artificial intelligence (AI) poses a significant challenge: the complexity of these converging domains often surpasses the capacity of traditional educational resources and has been an area of research that is largely understudied. This creates a challenge for researchers attempting to gain a full understanding of the issue, as the lack of cohesive literature thatbridges the gaps between these disciplines is significant. Researchers, engineers, and enthusiasts are hampered in their efforts to grasp the full potential of this convergence. Convergence of Antenna Technologies, Electronics, and AI offers a unique perspective to this problem by synthesizing the fundamental principles, cutting-edge advancements, and practical applications of these interconnected domains. This book serves as a comprehensive guide for navigating the complexities of this multidisciplinary frontier. It provides a cohesive framework that not only elucidates the interconnections between antennas, electronics, and AI but also empowers readers to leverage this knowledge in developing transformative innovations."-- $c Provided by publisher.
538 $a Mode of access: World Wide Web.
650 0 $a Antennas (Electronics) $3 649359
650 0 $a Electrical engineering. $3 649834
650 0 $a Signal processing. $3 533904
650 0 $a Image processing. $3 621117
650 0 $a Electronics. $3 517156
650 0 $a Artificial intelligence. $3 516317
653 $a Adaptive and Self-Learning Antennas.
653 $a Advancements in Electronics.
653 $a Artificial Intelligence in Communications.
653 $a Convergence of Antennas and Electronics.
653 $a Foundations of Antenna Technologies.
653 $a IoT and Connectivity.
653 $a Machine Learning Applications in Antenna Design.
653 $a Neural Networks for Pattern Recognition in Antenna Arrays.
653 $a Smart Antennas and Their Applications.
655 4 $a Electronic books. $2 lcsh $3 542853
700 1 $a Jamil, Ouazzani. $3 3793514
700 1 $a Hammouch, Zakia. $3 3487752
710 2 $a IGI Global. $3 1361470
776 0 8 $i Print version: $z 9798369337752
830 0 $a Advances in computational intelligence and robotics (ACIR) book series. $3 3311060
856 4 0 $u https://services.igi-global.com/resolvedoi/resolve.aspx?doi=10.4018/979-8-3693-3775-2