Prashant Ranjan, Ram Shringar Rao, Krishna Kumar, Pankaj Sharma
Wireless Communication (eBook, PDF)
Advancements and Challenges
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Prashant Ranjan, Ram Shringar Rao, Krishna Kumar, Pankaj Sharma
Wireless Communication (eBook, PDF)
Advancements and Challenges
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The reference text covers advanced wireless communication technologies and challenges in a comprehensive manner. It will be an ideal reference text for senior undergraduate, graduate students, and professional in the fields of electrical engineering, and electronics and communication engineering.
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The reference text covers advanced wireless communication technologies and challenges in a comprehensive manner. It will be an ideal reference text for senior undergraduate, graduate students, and professional in the fields of electrical engineering, and electronics and communication engineering.
Dieser Download kann aus rechtlichen Gründen nur mit Rechnungsadresse in A, B, BG, CY, CZ, D, DK, EW, E, FIN, F, GR, HR, H, IRL, I, LT, L, LR, M, NL, PL, P, R, S, SLO, SK ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Taylor & Francis
- Seitenzahl: 196
- Erscheinungstermin: 10. August 2022
- Englisch
- ISBN-13: 9781000630787
- Artikelnr.: 64206488
- Verlag: Taylor & Francis
- Seitenzahl: 196
- Erscheinungstermin: 10. August 2022
- Englisch
- ISBN-13: 9781000630787
- Artikelnr.: 64206488
- Herstellerkennzeichnung Die Herstellerinformationen sind derzeit nicht verfügbar.
Dr. Prashant Ranjan is presently working as an Associate Professor in the Department of Electronics and Communication Engineering, University of Engineering and Management Jaipur, Rajasthan, India. He received his M.Tech and Ph.D. degree from Motilal Nehru National Institute of Technology Allahabad, Prayagraj, Uttar Pradesh, India. He has more than 5 Years of teaching experience. He has published numerous research papers in international journals and conferences, including IEEE, Elsevier, Taylor and Francis. His present area of research includes the design and development of UWB filtering antennas, vehicle- to- vehicle wireless technology, Non-Invasive RF Sensors, Agricultural & Medical Applications.
Dr. Ram Shringar Rao received his Ph.D. (Computer Science and Technology) from School of Computer and Systems Sciences, Jawaharlal Nehru University, New Delhi, India. He has obtained his M. Tech (IT) and B. E. (CSE) 2005 and 2000 respectively. He has worked as an Associate Professor in the Department of Computer Science, Indira Gandhi National Tribal University (A Central University, MP) from April 2016 to March 2018. He is currently working in the Department of Computer Science and Engineering of Netaji Subhas University of Technology, East Campus, Delhi, India. He has more than 18 years of teaching, administrative and research experience. Currently, he is associated with a wide range of journals and conferences as chief editor, editor, chairs and members. Dr. Rao has published more than 100 research papers including edited books with good impact factors in reputed International Journals and Conferences including IEEE, Elsevier, Springer, Wiley & Sons, Taylor & Francis, IERI Letters, American Institute of Physics, etc. He has supervised 25 M. Tech and 04 PhD students for their dissertation and thesis work. His current research interest includes Mobile Ad hoc Networks, Vehicular Ad hoc Networks, Flying Ad-hoc Networks and Cloud Computing.
Mr. Krishna Kumar is presently working as a Research and Development Engineer at UJVN Ltd. Before joining UJVNL. He has worked as Assistant Professor at BTKIT, Dwarahat. He received his B.E. (Electronics and Communication Engineering) from Govind Ballabh Pant Engineering College, Pauri Garhwal, M.Tech (Digital Systems) from Motilal Nehru NIT Allahabad. He is presently pursuing a degree in his Ph.D. from the Indian Institute of Technology, Roorkee. He has more than 11 years of experience and has published numerous research papers in international journals like IEEE, Elsevier, Taylor & Francis, Springer, and Wiley. His research area includes Renewable Energy and Artificial Intelligence.
Mr. Pankaj Sharma is M.Sc. (Physics), M.Tech. (Microwave Electronics) from University of Delhi & MBA from Lancaster University (UK). He was a senior researcher at A*STAR (Singapore's premium research organization) and developed many wireless communication technologies & products with Indian and Singapore technology companies. He led many deployment projects in many countries. He filed many patents and published various research papers in reputed journals and conferences. He is currently CTO & Co-Founder of Whizpace Pvt. Ltd., a spin-off from A*STAR and running the company and secured many projects in Singapore & overseas, connecting the unconnected. Harnessing the power of TV White Space technology.
Dr. Ram Shringar Rao received his Ph.D. (Computer Science and Technology) from School of Computer and Systems Sciences, Jawaharlal Nehru University, New Delhi, India. He has obtained his M. Tech (IT) and B. E. (CSE) 2005 and 2000 respectively. He has worked as an Associate Professor in the Department of Computer Science, Indira Gandhi National Tribal University (A Central University, MP) from April 2016 to March 2018. He is currently working in the Department of Computer Science and Engineering of Netaji Subhas University of Technology, East Campus, Delhi, India. He has more than 18 years of teaching, administrative and research experience. Currently, he is associated with a wide range of journals and conferences as chief editor, editor, chairs and members. Dr. Rao has published more than 100 research papers including edited books with good impact factors in reputed International Journals and Conferences including IEEE, Elsevier, Springer, Wiley & Sons, Taylor & Francis, IERI Letters, American Institute of Physics, etc. He has supervised 25 M. Tech and 04 PhD students for their dissertation and thesis work. His current research interest includes Mobile Ad hoc Networks, Vehicular Ad hoc Networks, Flying Ad-hoc Networks and Cloud Computing.
Mr. Krishna Kumar is presently working as a Research and Development Engineer at UJVN Ltd. Before joining UJVNL. He has worked as Assistant Professor at BTKIT, Dwarahat. He received his B.E. (Electronics and Communication Engineering) from Govind Ballabh Pant Engineering College, Pauri Garhwal, M.Tech (Digital Systems) from Motilal Nehru NIT Allahabad. He is presently pursuing a degree in his Ph.D. from the Indian Institute of Technology, Roorkee. He has more than 11 years of experience and has published numerous research papers in international journals like IEEE, Elsevier, Taylor & Francis, Springer, and Wiley. His research area includes Renewable Energy and Artificial Intelligence.
Mr. Pankaj Sharma is M.Sc. (Physics), M.Tech. (Microwave Electronics) from University of Delhi & MBA from Lancaster University (UK). He was a senior researcher at A*STAR (Singapore's premium research organization) and developed many wireless communication technologies & products with Indian and Singapore technology companies. He led many deployment projects in many countries. He filed many patents and published various research papers in reputed journals and conferences. He is currently CTO & Co-Founder of Whizpace Pvt. Ltd., a spin-off from A*STAR and running the company and secured many projects in Singapore & overseas, connecting the unconnected. Harnessing the power of TV White Space technology.
Chapter 1: Internet of Things (IoT)
1.1 Introduction
1.2 The Continuing Evolution of IoT
1.3 The Key Drivers of Rapid Adoption of IoT
1.4 How Does IoT Work
1.5 Importance of IoT
1.6 Benefits of IoT to Businesses
1.7 Potential of IoT
1.8 Architecture of IoT
1.9 IoT Standards and Frameworks
1.10 Enabling Technologies for IoT
1.11 Future Technological Developments for IoT
1.12 Future Application Areas
1.13 Pros and Cons of IoT
1.14 IoT Security and Privacy Issues
1.15 Tips to Help Secure User's Smart Home and IoT Devices
1.16 Future Challenges for IoT
1.17 Conclusion
Chapter 2: Application of IoT for Pandemic Detection
2.1 Introduction
2.2 Emergency Care System
2.3 Previous Works
2.4 Application of IoT and Smart Technology for Pandemic Detection
2.5 Conclusion
Chapter 3: TV White Space (TVWS) Technology
3.1 Introduction
3.2 Underutilized Spectrum
3.3 Evolution of TVWS
3.4 Standardization of TVWS
3.5 Regulations on TVWS
3.6 The Limitations of TVWS Regulation
3.7 Commercial Pilots and Trials of TVWS
3.8 Applications and Use Cases of TVWS
3.9 SWOT Analysis
3.10 Conclusion
Chapter 4: Health Monitoring and Pandemic Detection using IoT and Wireless
Communication Technologies
4.1 Introduction
4.2 Previous Works
4.3 Proposed Model
4.4 Conclusions
Chapter 5: V2V: The Future of VANET's Communications
5.1 Vehicular Ad-hoc Network (VANET)
5.2 Communication Domains of VANET
5.3 VANET's Characteristics
5.4 VANET's Challenges
5.5 VANET Applications
5.6 Vehicle-to-Vehicle Communication (V2V)
5.7 Working of V2V Communication
5.8 Benefits of V2V Communications
5.9 V2V Tracking and Reporting
5.10 V2V Security in Communication
5.11 Future of V2V Communication
5.12 Conclusion
Chapter 6: IoT Based Flood Control and Disaster Management System for Dam
and Barrage
6.1 Introduction
6.2 Investigations on Dam and Barrage Monitoring
6.3 Circuit Configuration for Monitoring and Control of Dam/Barrage
6.4 Conclusions
Chapter 7: An Overview of Smart Antenna Technology for Wireless
Communication
7.1 Introduction
7.2 Smart Antenna
7.3 Advantages and Disadvantages of Smart Antennas
7.4 Types of Smart Antenna System
7.5 Difference Between Switched Beam System and Digitally Adaptive
Beamforming System
7.6 Applications of Smart Antenna System
7.7 Conclusion
Chapter 8: UAV: Communication and Object Detection System
8.1 Introduction
8.2 Application Scenarios of UAVs
8.3 Major Issues and Challenges of UAVs
8.4. UAV Communication
8.5 Conclusion
Chapter 9: Smart Pole System: A Connectivity to City Services
9.1 Introduction
9.2 Limitations of Conventional Pole System
9.3 Benefits of Smart Pole System
9.4 Smart Pole System Design
9.5 Conclusion
1.1 Introduction
1.2 The Continuing Evolution of IoT
1.3 The Key Drivers of Rapid Adoption of IoT
1.4 How Does IoT Work
1.5 Importance of IoT
1.6 Benefits of IoT to Businesses
1.7 Potential of IoT
1.8 Architecture of IoT
1.9 IoT Standards and Frameworks
1.10 Enabling Technologies for IoT
1.11 Future Technological Developments for IoT
1.12 Future Application Areas
1.13 Pros and Cons of IoT
1.14 IoT Security and Privacy Issues
1.15 Tips to Help Secure User's Smart Home and IoT Devices
1.16 Future Challenges for IoT
1.17 Conclusion
Chapter 2: Application of IoT for Pandemic Detection
2.1 Introduction
2.2 Emergency Care System
2.3 Previous Works
2.4 Application of IoT and Smart Technology for Pandemic Detection
2.5 Conclusion
Chapter 3: TV White Space (TVWS) Technology
3.1 Introduction
3.2 Underutilized Spectrum
3.3 Evolution of TVWS
3.4 Standardization of TVWS
3.5 Regulations on TVWS
3.6 The Limitations of TVWS Regulation
3.7 Commercial Pilots and Trials of TVWS
3.8 Applications and Use Cases of TVWS
3.9 SWOT Analysis
3.10 Conclusion
Chapter 4: Health Monitoring and Pandemic Detection using IoT and Wireless
Communication Technologies
4.1 Introduction
4.2 Previous Works
4.3 Proposed Model
4.4 Conclusions
Chapter 5: V2V: The Future of VANET's Communications
5.1 Vehicular Ad-hoc Network (VANET)
5.2 Communication Domains of VANET
5.3 VANET's Characteristics
5.4 VANET's Challenges
5.5 VANET Applications
5.6 Vehicle-to-Vehicle Communication (V2V)
5.7 Working of V2V Communication
5.8 Benefits of V2V Communications
5.9 V2V Tracking and Reporting
5.10 V2V Security in Communication
5.11 Future of V2V Communication
5.12 Conclusion
Chapter 6: IoT Based Flood Control and Disaster Management System for Dam
and Barrage
6.1 Introduction
6.2 Investigations on Dam and Barrage Monitoring
6.3 Circuit Configuration for Monitoring and Control of Dam/Barrage
6.4 Conclusions
Chapter 7: An Overview of Smart Antenna Technology for Wireless
Communication
7.1 Introduction
7.2 Smart Antenna
7.3 Advantages and Disadvantages of Smart Antennas
7.4 Types of Smart Antenna System
7.5 Difference Between Switched Beam System and Digitally Adaptive
Beamforming System
7.6 Applications of Smart Antenna System
7.7 Conclusion
Chapter 8: UAV: Communication and Object Detection System
8.1 Introduction
8.2 Application Scenarios of UAVs
8.3 Major Issues and Challenges of UAVs
8.4. UAV Communication
8.5 Conclusion
Chapter 9: Smart Pole System: A Connectivity to City Services
9.1 Introduction
9.2 Limitations of Conventional Pole System
9.3 Benefits of Smart Pole System
9.4 Smart Pole System Design
9.5 Conclusion
Chapter 1: Internet of Things (IoT)
1.1 Introduction
1.2 The Continuing Evolution of IoT
1.3 The Key Drivers of Rapid Adoption of IoT
1.4 How Does IoT Work
1.5 Importance of IoT
1.6 Benefits of IoT to Businesses
1.7 Potential of IoT
1.8 Architecture of IoT
1.9 IoT Standards and Frameworks
1.10 Enabling Technologies for IoT
1.11 Future Technological Developments for IoT
1.12 Future Application Areas
1.13 Pros and Cons of IoT
1.14 IoT Security and Privacy Issues
1.15 Tips to Help Secure User's Smart Home and IoT Devices
1.16 Future Challenges for IoT
1.17 Conclusion
Chapter 2: Application of IoT for Pandemic Detection
2.1 Introduction
2.2 Emergency Care System
2.3 Previous Works
2.4 Application of IoT and Smart Technology for Pandemic Detection
2.5 Conclusion
Chapter 3: TV White Space (TVWS) Technology
3.1 Introduction
3.2 Underutilized Spectrum
3.3 Evolution of TVWS
3.4 Standardization of TVWS
3.5 Regulations on TVWS
3.6 The Limitations of TVWS Regulation
3.7 Commercial Pilots and Trials of TVWS
3.8 Applications and Use Cases of TVWS
3.9 SWOT Analysis
3.10 Conclusion
Chapter 4: Health Monitoring and Pandemic Detection using IoT and Wireless
Communication Technologies
4.1 Introduction
4.2 Previous Works
4.3 Proposed Model
4.4 Conclusions
Chapter 5: V2V: The Future of VANET's Communications
5.1 Vehicular Ad-hoc Network (VANET)
5.2 Communication Domains of VANET
5.3 VANET's Characteristics
5.4 VANET's Challenges
5.5 VANET Applications
5.6 Vehicle-to-Vehicle Communication (V2V)
5.7 Working of V2V Communication
5.8 Benefits of V2V Communications
5.9 V2V Tracking and Reporting
5.10 V2V Security in Communication
5.11 Future of V2V Communication
5.12 Conclusion
Chapter 6: IoT Based Flood Control and Disaster Management System for Dam
and Barrage
6.1 Introduction
6.2 Investigations on Dam and Barrage Monitoring
6.3 Circuit Configuration for Monitoring and Control of Dam/Barrage
6.4 Conclusions
Chapter 7: An Overview of Smart Antenna Technology for Wireless
Communication
7.1 Introduction
7.2 Smart Antenna
7.3 Advantages and Disadvantages of Smart Antennas
7.4 Types of Smart Antenna System
7.5 Difference Between Switched Beam System and Digitally Adaptive
Beamforming System
7.6 Applications of Smart Antenna System
7.7 Conclusion
Chapter 8: UAV: Communication and Object Detection System
8.1 Introduction
8.2 Application Scenarios of UAVs
8.3 Major Issues and Challenges of UAVs
8.4. UAV Communication
8.5 Conclusion
Chapter 9: Smart Pole System: A Connectivity to City Services
9.1 Introduction
9.2 Limitations of Conventional Pole System
9.3 Benefits of Smart Pole System
9.4 Smart Pole System Design
9.5 Conclusion
1.1 Introduction
1.2 The Continuing Evolution of IoT
1.3 The Key Drivers of Rapid Adoption of IoT
1.4 How Does IoT Work
1.5 Importance of IoT
1.6 Benefits of IoT to Businesses
1.7 Potential of IoT
1.8 Architecture of IoT
1.9 IoT Standards and Frameworks
1.10 Enabling Technologies for IoT
1.11 Future Technological Developments for IoT
1.12 Future Application Areas
1.13 Pros and Cons of IoT
1.14 IoT Security and Privacy Issues
1.15 Tips to Help Secure User's Smart Home and IoT Devices
1.16 Future Challenges for IoT
1.17 Conclusion
Chapter 2: Application of IoT for Pandemic Detection
2.1 Introduction
2.2 Emergency Care System
2.3 Previous Works
2.4 Application of IoT and Smart Technology for Pandemic Detection
2.5 Conclusion
Chapter 3: TV White Space (TVWS) Technology
3.1 Introduction
3.2 Underutilized Spectrum
3.3 Evolution of TVWS
3.4 Standardization of TVWS
3.5 Regulations on TVWS
3.6 The Limitations of TVWS Regulation
3.7 Commercial Pilots and Trials of TVWS
3.8 Applications and Use Cases of TVWS
3.9 SWOT Analysis
3.10 Conclusion
Chapter 4: Health Monitoring and Pandemic Detection using IoT and Wireless
Communication Technologies
4.1 Introduction
4.2 Previous Works
4.3 Proposed Model
4.4 Conclusions
Chapter 5: V2V: The Future of VANET's Communications
5.1 Vehicular Ad-hoc Network (VANET)
5.2 Communication Domains of VANET
5.3 VANET's Characteristics
5.4 VANET's Challenges
5.5 VANET Applications
5.6 Vehicle-to-Vehicle Communication (V2V)
5.7 Working of V2V Communication
5.8 Benefits of V2V Communications
5.9 V2V Tracking and Reporting
5.10 V2V Security in Communication
5.11 Future of V2V Communication
5.12 Conclusion
Chapter 6: IoT Based Flood Control and Disaster Management System for Dam
and Barrage
6.1 Introduction
6.2 Investigations on Dam and Barrage Monitoring
6.3 Circuit Configuration for Monitoring and Control of Dam/Barrage
6.4 Conclusions
Chapter 7: An Overview of Smart Antenna Technology for Wireless
Communication
7.1 Introduction
7.2 Smart Antenna
7.3 Advantages and Disadvantages of Smart Antennas
7.4 Types of Smart Antenna System
7.5 Difference Between Switched Beam System and Digitally Adaptive
Beamforming System
7.6 Applications of Smart Antenna System
7.7 Conclusion
Chapter 8: UAV: Communication and Object Detection System
8.1 Introduction
8.2 Application Scenarios of UAVs
8.3 Major Issues and Challenges of UAVs
8.4. UAV Communication
8.5 Conclusion
Chapter 9: Smart Pole System: A Connectivity to City Services
9.1 Introduction
9.2 Limitations of Conventional Pole System
9.3 Benefits of Smart Pole System
9.4 Smart Pole System Design
9.5 Conclusion