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Antennas for portable devices / / [editor] Zhi Ning Chen
Antennas for portable devices / / [editor] Zhi Ning Chen
Pubbl/distr/stampa Chichester, England : , : John Wiley & Sons, , c2007
Descrizione fisica 1 online resource (306 p.)
Disciplina 621.3824
Altri autori (Persone) ChenZhi Ning
Soggetto topico Antennas (Electronics) - Design and construction
Wireless communication systems - Equipment and supplies - Design and construction
ISBN 1-280-83943-0
9786610839438
0-470-31964-X
1-60119-370-X
0-470-31965-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Foreword -- Acknowledgements -- List of Contributors -- 1 Introduction (Zhi Ning Chen) -- References -- 2 Handset Antennas (Brian S. Collins) -- 2.1 Introduction -- 2.2 Performance Requirements -- 2.3 Electrically Small Antennas -- 2.4 Classes of Handset Antennas -- 2.5 The Quest for Efficiency and Extended Bandwidth -- 2.5.1 Handset Geometries -- 2.5.2 Antenna Position in the Handset -- 2.5.3 The Effect of the User -- 2.5.4 Antenna Volume -- 2.5.5 Impedance Behavior of a Typical Antenna in the Low Band -- 2.5.6 Fields and Currents on Handsets -- 2.5.7 Managing the Length / Bandwidth Relationship -- 2.5.8 The Effect on RF Efficiency of Other Components of the Handset -- 2.5.9 Specific Absorption Rate -- 2.5.10 Hearing Aid Compliance -- 2.5.11 Economic Considerations -- 2.6 Practical Design -- 2.6.1 Simulations -- 2.6.2 Materials and Construction -- 2.6.3 Recycling -- 2.6.4 Building the Prototype -- 2.6.5 Measurement -- 2.6.6 Design Optimization -- 2.7 Starting Points for Design and Optimization -- 2.7.1 External Antennas -- 2.7.2 Balanced Antennas -- 2.7.3 Antennas for Other Services -- 2.7.4 Dual-Antenna Interference Cancellation -- 2.7.5 Multiple Input, Multiple Output -- 2.7.6 Antennas for Lower-Frequency Bands / TV and Radio Services -- 2.8 The RF Performance of Typical Handsets -- 2.9 Conclusion -- References -- 3 RFID Tag Antennas (Xianming Qing and Zhi Ning Chen) -- 3.1 Introduction -- 3.2 RFID Fundamentals -- 3.2.1 RFID System Configuration -- 3.2.2 Classification of RFID Systems -- 3.2.3 Principles of Operation -- 3.2.4 Frequencies, Regulations and Standardization -- 3.3 Design Considerations for RFID Tag Antennas -- 3.3.1 Near-field RFID Tag Antennas -- 3.3.2 Far-field RFID Tag Antennas -- 3.4 Effect of Environment on RFID Tag Antennas -- 3.4.1 Near-field Tags -- 3.4.2 Far-field Tags -- 3.4.3 Case Study -- 3.5 Summary -- References -- 4 Laptop Antenna Design and Evaluation (Duixian Liu and Brian Gaucher) -- 4.1 Introduction -- 4.2 Laptop-Related Antenna Issues.
4.2.1 Typical Laptop Display Construction -- 4.2.2 Possible Antennas for Laptop Applications -- 4.2.3 Mechanical and Industrial Design Restrictions -- 4.2.4 LCD Surface Treatment in Simulations -- 4.2.5 Antenna Orientation in Display -- 4.2.6 The Difference between Laptop and Cellphone Antennas -- 4.2.7 Antenna Location Evaluations -- 4.3 Antenna Design Methodology -- 4.3.1 Modeling -- 4.3.2 Cut-and-Try -- 4.3.3 Measurements -- 4.4 PC Card Antenna Performance and Evaluation -- 4.5 Link Budget Model -- 4.6 An INF Antenna Implementation -- 4.7 Integrated and PC Card Solutions Comparison -- 4.8 Dualband Examples -- 4.8.1 An Inverted-F Antenna with Coupled Elements -- 4.8.2 A Dualband PCB Antenna with Coupled Floating Elements -- 4.8.3 A Loop Related Dualband Antenna -- 4.9 Remarks on WLAN Antenna Design and Evaluations -- 4.10 Antennas for Wireless Wide Area Network Applications -- 4.10.1 INF Antenna Height Effects on Bandwidth -- 4.10.2 A WWAN Dualband Example -- 4.11 Ultra-Wide Band Antennas -- 4.11.1 Description of the UWB Antenna -- 4.11.2 UWB Antenna Measurement Results -- References -- 5 Antenna Issues in Microwave Thermal Therapies (Koichi Ito and Kazuyuki Saito) -- 5.1 Microwave Thermal Therapies -- 5.1.1 Introduction -- 5.1.2 Classification by Therapeutic Temperature -- 5.1.3 Heating Schemes -- 5.2 Interstitial Microwave Hyperthermia -- 5.2.1 Introduction and Requirements -- 5.2.2 Coaxial-Slot Antenna -- 5.2.3 Numerical Calculation -- 5.2.4 Performance of the Coaxial-Slot Antenna -- 5.2.5 Temperature Distributions Around the Antennas -- 5.3 Clinical Trials -- 5.3.1 Equipment -- 5.3.2 Treatment by Use of a Single Antenna -- 5.3.3 Treatment by Use of an Array Applicator -- 5.3.4 Results of the Treatment -- 5.4 Other Applications -- 5.4.1 Treatment of Brain Tumors -- 5.4.2 Intracavitary Microwave Hyperthermia for Bile Duct Carcinoma -- 5.5 Summary -- References -- 6 Antennas for Wearable Devices (Akram Alomainy, Yang Hao and Frank Pasveer) -- 6.1 Introduction -- 6.1.1 Wireless Body Area Networks.
6.1.2 Antenna Design Requirements for Wireless BAN/PAN -- 6.2 Modelling and Characterization of Wearable Antennas -- 6.2.1 Wearable Antennas for BANs/PANs -- 6.2.2 UWB Wearable Antennas -- 6.3 WBAN Radio Channel Characterization and Effect of Wearable Antennas -- 6.3.1 Radio Propagation Measurement for WBANs -- 6.3.2 Propagation Channel Characteristics -- 6.4 Case Study: A Compact Wearable Antenna for Healthcare Sensors -- 6.4.1 Application Requirements -- 6.4.2 Theoretical Antenna Considerations -- 6.4.3 Sensor Antenna Modelling and Characterization -- 6.4.4 Propagation Channel Characterization -- 6.5 Summary -- References -- 7 Antennas for UWB Applications (Zhi Ning Chen and Terence S.P. See) -- 7.1 UWB Wireless Systems -- 7.2 Challenges in UWB Antenna Design -- 7.3 State-of-the-Art Solutions -- 7.3.1 Frequency-Independent Designs -- 7.3.2 Planar Broadband Designs -- 7.3.3 Crossed and Rolled Planar Broadband Designs -- 7.3.4 Planar Printed PCB Designs -- 7.3.5 Planar Antipodal Vivaldi Designs -- 7.4 Case Study -- 7.4.1 Small Printed Antenna with Reduced Ground-Plane Effect -- 7.4.2 Wireless USB -- 7.5 Summary -- References -- Index.
Record Nr. UNINA-9910143590003321
Chichester, England : , : John Wiley & Sons, , c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Antennas for portable devices / / [editor] Zhi Ning Chen
Antennas for portable devices / / [editor] Zhi Ning Chen
Pubbl/distr/stampa Chichester, England : , : John Wiley & Sons, , c2007
Descrizione fisica 1 online resource (306 p.)
Disciplina 621.3824
Altri autori (Persone) ChenZhi Ning
Soggetto topico Antennas (Electronics) - Design and construction
Wireless communication systems - Equipment and supplies - Design and construction
ISBN 1-280-83943-0
9786610839438
0-470-31964-X
1-60119-370-X
0-470-31965-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Foreword -- Acknowledgements -- List of Contributors -- 1 Introduction (Zhi Ning Chen) -- References -- 2 Handset Antennas (Brian S. Collins) -- 2.1 Introduction -- 2.2 Performance Requirements -- 2.3 Electrically Small Antennas -- 2.4 Classes of Handset Antennas -- 2.5 The Quest for Efficiency and Extended Bandwidth -- 2.5.1 Handset Geometries -- 2.5.2 Antenna Position in the Handset -- 2.5.3 The Effect of the User -- 2.5.4 Antenna Volume -- 2.5.5 Impedance Behavior of a Typical Antenna in the Low Band -- 2.5.6 Fields and Currents on Handsets -- 2.5.7 Managing the Length / Bandwidth Relationship -- 2.5.8 The Effect on RF Efficiency of Other Components of the Handset -- 2.5.9 Specific Absorption Rate -- 2.5.10 Hearing Aid Compliance -- 2.5.11 Economic Considerations -- 2.6 Practical Design -- 2.6.1 Simulations -- 2.6.2 Materials and Construction -- 2.6.3 Recycling -- 2.6.4 Building the Prototype -- 2.6.5 Measurement -- 2.6.6 Design Optimization -- 2.7 Starting Points for Design and Optimization -- 2.7.1 External Antennas -- 2.7.2 Balanced Antennas -- 2.7.3 Antennas for Other Services -- 2.7.4 Dual-Antenna Interference Cancellation -- 2.7.5 Multiple Input, Multiple Output -- 2.7.6 Antennas for Lower-Frequency Bands / TV and Radio Services -- 2.8 The RF Performance of Typical Handsets -- 2.9 Conclusion -- References -- 3 RFID Tag Antennas (Xianming Qing and Zhi Ning Chen) -- 3.1 Introduction -- 3.2 RFID Fundamentals -- 3.2.1 RFID System Configuration -- 3.2.2 Classification of RFID Systems -- 3.2.3 Principles of Operation -- 3.2.4 Frequencies, Regulations and Standardization -- 3.3 Design Considerations for RFID Tag Antennas -- 3.3.1 Near-field RFID Tag Antennas -- 3.3.2 Far-field RFID Tag Antennas -- 3.4 Effect of Environment on RFID Tag Antennas -- 3.4.1 Near-field Tags -- 3.4.2 Far-field Tags -- 3.4.3 Case Study -- 3.5 Summary -- References -- 4 Laptop Antenna Design and Evaluation (Duixian Liu and Brian Gaucher) -- 4.1 Introduction -- 4.2 Laptop-Related Antenna Issues.
4.2.1 Typical Laptop Display Construction -- 4.2.2 Possible Antennas for Laptop Applications -- 4.2.3 Mechanical and Industrial Design Restrictions -- 4.2.4 LCD Surface Treatment in Simulations -- 4.2.5 Antenna Orientation in Display -- 4.2.6 The Difference between Laptop and Cellphone Antennas -- 4.2.7 Antenna Location Evaluations -- 4.3 Antenna Design Methodology -- 4.3.1 Modeling -- 4.3.2 Cut-and-Try -- 4.3.3 Measurements -- 4.4 PC Card Antenna Performance and Evaluation -- 4.5 Link Budget Model -- 4.6 An INF Antenna Implementation -- 4.7 Integrated and PC Card Solutions Comparison -- 4.8 Dualband Examples -- 4.8.1 An Inverted-F Antenna with Coupled Elements -- 4.8.2 A Dualband PCB Antenna with Coupled Floating Elements -- 4.8.3 A Loop Related Dualband Antenna -- 4.9 Remarks on WLAN Antenna Design and Evaluations -- 4.10 Antennas for Wireless Wide Area Network Applications -- 4.10.1 INF Antenna Height Effects on Bandwidth -- 4.10.2 A WWAN Dualband Example -- 4.11 Ultra-Wide Band Antennas -- 4.11.1 Description of the UWB Antenna -- 4.11.2 UWB Antenna Measurement Results -- References -- 5 Antenna Issues in Microwave Thermal Therapies (Koichi Ito and Kazuyuki Saito) -- 5.1 Microwave Thermal Therapies -- 5.1.1 Introduction -- 5.1.2 Classification by Therapeutic Temperature -- 5.1.3 Heating Schemes -- 5.2 Interstitial Microwave Hyperthermia -- 5.2.1 Introduction and Requirements -- 5.2.2 Coaxial-Slot Antenna -- 5.2.3 Numerical Calculation -- 5.2.4 Performance of the Coaxial-Slot Antenna -- 5.2.5 Temperature Distributions Around the Antennas -- 5.3 Clinical Trials -- 5.3.1 Equipment -- 5.3.2 Treatment by Use of a Single Antenna -- 5.3.3 Treatment by Use of an Array Applicator -- 5.3.4 Results of the Treatment -- 5.4 Other Applications -- 5.4.1 Treatment of Brain Tumors -- 5.4.2 Intracavitary Microwave Hyperthermia for Bile Duct Carcinoma -- 5.5 Summary -- References -- 6 Antennas for Wearable Devices (Akram Alomainy, Yang Hao and Frank Pasveer) -- 6.1 Introduction -- 6.1.1 Wireless Body Area Networks.
6.1.2 Antenna Design Requirements for Wireless BAN/PAN -- 6.2 Modelling and Characterization of Wearable Antennas -- 6.2.1 Wearable Antennas for BANs/PANs -- 6.2.2 UWB Wearable Antennas -- 6.3 WBAN Radio Channel Characterization and Effect of Wearable Antennas -- 6.3.1 Radio Propagation Measurement for WBANs -- 6.3.2 Propagation Channel Characteristics -- 6.4 Case Study: A Compact Wearable Antenna for Healthcare Sensors -- 6.4.1 Application Requirements -- 6.4.2 Theoretical Antenna Considerations -- 6.4.3 Sensor Antenna Modelling and Characterization -- 6.4.4 Propagation Channel Characterization -- 6.5 Summary -- References -- 7 Antennas for UWB Applications (Zhi Ning Chen and Terence S.P. See) -- 7.1 UWB Wireless Systems -- 7.2 Challenges in UWB Antenna Design -- 7.3 State-of-the-Art Solutions -- 7.3.1 Frequency-Independent Designs -- 7.3.2 Planar Broadband Designs -- 7.3.3 Crossed and Rolled Planar Broadband Designs -- 7.3.4 Planar Printed PCB Designs -- 7.3.5 Planar Antipodal Vivaldi Designs -- 7.4 Case Study -- 7.4.1 Small Printed Antenna with Reduced Ground-Plane Effect -- 7.4.2 Wireless USB -- 7.5 Summary -- References -- Index.
Record Nr. UNINA-9910830913303321
Chichester, England : , : John Wiley & Sons, , c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Antennas for portable devices / / Zhi Ning Chen (editor)
Antennas for portable devices / / Zhi Ning Chen (editor)
Pubbl/distr/stampa Chichester, : John Wiley, 2007
Descrizione fisica 1 online resource (306 p.)
Disciplina 621.3824
Altri autori (Persone) ChenZhi Ning
Soggetto topico Antennas (Electronics) - Design and construction
Wireless communication systems - Equipment and supplies - Design and construction
ISBN 9786610839438
9781280839436
1280839430
9780470319642
047031964X
9781601193704
160119370X
9780470319659
0470319658
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Foreword -- Acknowledgements -- List of Contributors -- 1 Introduction (Zhi Ning Chen) -- References -- 2 Handset Antennas (Brian S. Collins) -- 2.1 Introduction -- 2.2 Performance Requirements -- 2.3 Electrically Small Antennas -- 2.4 Classes of Handset Antennas -- 2.5 The Quest for Efficiency and Extended Bandwidth -- 2.5.1 Handset Geometries -- 2.5.2 Antenna Position in the Handset -- 2.5.3 The Effect of the User -- 2.5.4 Antenna Volume -- 2.5.5 Impedance Behavior of a Typical Antenna in the Low Band -- 2.5.6 Fields and Currents on Handsets -- 2.5.7 Managing the Length / Bandwidth Relationship -- 2.5.8 The Effect on RF Efficiency of Other Components of the Handset -- 2.5.9 Specific Absorption Rate -- 2.5.10 Hearing Aid Compliance -- 2.5.11 Economic Considerations -- 2.6 Practical Design -- 2.6.1 Simulations -- 2.6.2 Materials and Construction -- 2.6.3 Recycling -- 2.6.4 Building the Prototype -- 2.6.5 Measurement -- 2.6.6 Design Optimization -- 2.7 Starting Points for Design and Optimization -- 2.7.1 External Antennas -- 2.7.2 Balanced Antennas -- 2.7.3 Antennas for Other Services -- 2.7.4 Dual-Antenna Interference Cancellation -- 2.7.5 Multiple Input, Multiple Output -- 2.7.6 Antennas for Lower-Frequency Bands / TV and Radio Services -- 2.8 The RF Performance of Typical Handsets -- 2.9 Conclusion -- References -- 3 RFID Tag Antennas (Xianming Qing and Zhi Ning Chen) -- 3.1 Introduction -- 3.2 RFID Fundamentals -- 3.2.1 RFID System Configuration -- 3.2.2 Classification of RFID Systems -- 3.2.3 Principles of Operation -- 3.2.4 Frequencies, Regulations and Standardization -- 3.3 Design Considerations for RFID Tag Antennas -- 3.3.1 Near-field RFID Tag Antennas -- 3.3.2 Far-field RFID Tag Antennas -- 3.4 Effect of Environment on RFID Tag Antennas -- 3.4.1 Near-field Tags -- 3.4.2 Far-field Tags -- 3.4.3 Case Study -- 3.5 Summary -- References -- 4 Laptop Antenna Design and Evaluation (Duixian Liu and Brian Gaucher) -- 4.1 Introduction -- 4.2 Laptop-Related Antenna Issues.
4.2.1 Typical Laptop Display Construction -- 4.2.2 Possible Antennas for Laptop Applications -- 4.2.3 Mechanical and Industrial Design Restrictions -- 4.2.4 LCD Surface Treatment in Simulations -- 4.2.5 Antenna Orientation in Display -- 4.2.6 The Difference between Laptop and Cellphone Antennas -- 4.2.7 Antenna Location Evaluations -- 4.3 Antenna Design Methodology -- 4.3.1 Modeling -- 4.3.2 Cut-and-Try -- 4.3.3 Measurements -- 4.4 PC Card Antenna Performance and Evaluation -- 4.5 Link Budget Model -- 4.6 An INF Antenna Implementation -- 4.7 Integrated and PC Card Solutions Comparison -- 4.8 Dualband Examples -- 4.8.1 An Inverted-F Antenna with Coupled Elements -- 4.8.2 A Dualband PCB Antenna with Coupled Floating Elements -- 4.8.3 A Loop Related Dualband Antenna -- 4.9 Remarks on WLAN Antenna Design and Evaluations -- 4.10 Antennas for Wireless Wide Area Network Applications -- 4.10.1 INF Antenna Height Effects on Bandwidth -- 4.10.2 A WWAN Dualband Example -- 4.11 Ultra-Wide Band Antennas -- 4.11.1 Description of the UWB Antenna -- 4.11.2 UWB Antenna Measurement Results -- References -- 5 Antenna Issues in Microwave Thermal Therapies (Koichi Ito and Kazuyuki Saito) -- 5.1 Microwave Thermal Therapies -- 5.1.1 Introduction -- 5.1.2 Classification by Therapeutic Temperature -- 5.1.3 Heating Schemes -- 5.2 Interstitial Microwave Hyperthermia -- 5.2.1 Introduction and Requirements -- 5.2.2 Coaxial-Slot Antenna -- 5.2.3 Numerical Calculation -- 5.2.4 Performance of the Coaxial-Slot Antenna -- 5.2.5 Temperature Distributions Around the Antennas -- 5.3 Clinical Trials -- 5.3.1 Equipment -- 5.3.2 Treatment by Use of a Single Antenna -- 5.3.3 Treatment by Use of an Array Applicator -- 5.3.4 Results of the Treatment -- 5.4 Other Applications -- 5.4.1 Treatment of Brain Tumors -- 5.4.2 Intracavitary Microwave Hyperthermia for Bile Duct Carcinoma -- 5.5 Summary -- References -- 6 Antennas for Wearable Devices (Akram Alomainy, Yang Hao and Frank Pasveer) -- 6.1 Introduction -- 6.1.1 Wireless Body Area Networks.
6.1.2 Antenna Design Requirements for Wireless BAN/PAN -- 6.2 Modelling and Characterization of Wearable Antennas -- 6.2.1 Wearable Antennas for BANs/PANs -- 6.2.2 UWB Wearable Antennas -- 6.3 WBAN Radio Channel Characterization and Effect of Wearable Antennas -- 6.3.1 Radio Propagation Measurement for WBANs -- 6.3.2 Propagation Channel Characteristics -- 6.4 Case Study: A Compact Wearable Antenna for Healthcare Sensors -- 6.4.1 Application Requirements -- 6.4.2 Theoretical Antenna Considerations -- 6.4.3 Sensor Antenna Modelling and Characterization -- 6.4.4 Propagation Channel Characterization -- 6.5 Summary -- References -- 7 Antennas for UWB Applications (Zhi Ning Chen and Terence S.P. See) -- 7.1 UWB Wireless Systems -- 7.2 Challenges in UWB Antenna Design -- 7.3 State-of-the-Art Solutions -- 7.3.1 Frequency-Independent Designs -- 7.3.2 Planar Broadband Designs -- 7.3.3 Crossed and Rolled Planar Broadband Designs -- 7.3.4 Planar Printed PCB Designs -- 7.3.5 Planar Antipodal Vivaldi Designs -- 7.4 Case Study -- 7.4.1 Small Printed Antenna with Reduced Ground-Plane Effect -- 7.4.2 Wireless USB -- 7.5 Summary -- References -- Index.
Record Nr. UNINA-9911020221903321
Chichester, : John Wiley, 2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Handbook of Antenna Technologies [[electronic resource] /] / edited by Zhi Ning Chen
Handbook of Antenna Technologies [[electronic resource] /] / edited by Zhi Ning Chen
Pubbl/distr/stampa Singapore : , : Springer Singapore : , : Imprint : Springer, , 2020
Descrizione fisica 1 online resource (1800 p.)
Disciplina 621.382
Soggetto topico Electrical engineering
Signal processing
Image processing
Speech processing systems
Microwaves
Optical engineering
Communications Engineering, Networks
Signal, Image and Speech Processing
Microwaves, RF and Optical Engineering
ISBN 981-4560-75-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910736026703321
Singapore : , : Springer Singapore : , : Imprint : Springer, , 2020
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Handbook of Antenna Technologies / / edited by Zhi Ning Chen, Duixian Liu, Hisamatsu Nakano, Xianming Qing, Thomas Zwick
Handbook of Antenna Technologies / / edited by Zhi Ning Chen, Duixian Liu, Hisamatsu Nakano, Xianming Qing, Thomas Zwick
Edizione [1st ed. 2016.]
Pubbl/distr/stampa Singapore : , : Springer Singapore : , : Imprint : Springer, , 2016
Descrizione fisica 1 online resource (2473 illus., 1425 illus. in color. eReference.)
Disciplina 621.3824
Soggetto topico Electrical engineering
Signal processing
Image processing
Speech processing systems
Microwaves
Optical engineering
Communications Engineering, Networks
Signal, Image and Speech Processing
Microwaves, RF and Optical Engineering
ISBN 981-4560-44-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Theory -- Design -- Applications. .
Record Nr. UNINA-9910254234203321
Singapore : , : Springer Singapore : , : Imprint : Springer, , 2016
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Substrate-integrated millimeter-wave antennas for next-generation communication and radar systems / / editors, Zhi Ning Chen, Xianming Qing
Substrate-integrated millimeter-wave antennas for next-generation communication and radar systems / / editors, Zhi Ning Chen, Xianming Qing
Pubbl/distr/stampa Hoboken, NJ : , : Wiley, , [2021]
Descrizione fisica 1 online resource (323 pages)
Disciplina 621.3824
Collana IEEE Press series on electromagnetic wave theory
Soggetto topico Antennas (Electronics)
ISBN 1-119-61115-6
1-119-61112-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Title Page -- Copyright -- Contents -- Editor Biographies -- Contributors -- Foreword -- Preface -- Chapter 1 Introduction to Millimeter Wave Antennas -- 1.1 Millimeter Waves -- 1.2 Propagation of Millimeter Waves -- 1.3 Millimeter Wave Technology -- 1.3.1 Important Features -- 1.3.2 Major Modern Applications -- 1.3.2.1 Next‐Generation Wireless Communications -- 1.3.2.2 High‐Definition Video and Virtual Reality Headsets -- 1.3.2.3 Automotive Communications and Radars -- 1.3.2.4 Body Scanners and Imaging -- 1.4 Unique Challenges of Millimeter Wave Antennas -- 1.5 Briefing of State‐of‐the‐Art Millimeter Wave Antennas -- 1.6 Implementation Considerations of Millimeter Wave Antennas -- 1.6.1 Fabrication Processes and Materials of the Antennas -- 1.6.2 Commonly Used Transmission Line Systems for Antennas -- 1.7 Note on Losses in Microstrip‐Lines and Substrate Integrated Waveguides -- 1.8 Update of Millimeter Wave Technology in 5G NR and Beyond -- 1.9 Organization of the book -- 1.10 Summary -- References -- Chapter 2 Measurement Methods and Setups of Antennas at 60-325 GHz Bands -- 2.1 Introduction -- 2.1.1 Far‐Field Antenna Measurement Setup -- 2.1.1.1 Free‐Space Range Using Anechoic Chamber -- 2.1.1.2 Compact Range -- 2.1.2 Near‐Field Antenna Measurement Setup -- 2.2 State‐of‐the‐Art mmW Measurement Systems -- 2.2.1 Commercially Available mmW Measurement Systems -- 2.2.2 Customized mmW Measurement Systems -- 2.3 Considerations for Measurement Setup Configuration -- 2.3.1 Far‐Field versus Near‐Field versus Compact Range -- 2.3.1.1 Far‐Field Measurement -- 2.3.1.2 Near‐Field Measurement -- 2.3.1.3 Compact Antenna Test Range -- 2.3.2 RF System -- 2.3.3 Interface Between the RF Instrument and AUT -- 2.3.4 On‐Wafer Antenna Measurement -- 2.3.4.1 Feeding and Movement Limitations -- 2.3.4.2 Reflection Caused by Probes/Metallic Environment.
2.3.4.3 Undesired Coupling Effects Caused by Measurement Probes -- 2.4 mmW Measurement Setup Examples -- 2.4.1 60‐GHz Antenna Measurement Setup -- 2.4.2 140‐GHz Antenna Measurement Setup -- 2.4.3 270‐GHz Antenna Measurement Setup -- 2.5 Summary -- References -- Chapter 3 Substrate Integrated mmW Antennas on LTCC -- 3.1 Introduction -- 3.1.1 Unique Design Challenges and Promising Solutions -- 3.1.2 SIW Slot Antennas and Arrays on LTCC -- 3.2 High‐Gain mmW SIW Slot Antenna Arrays on LTCC -- 3.2.1 SIW Three‐Dimensional Corporate Feed -- 3.2.2 Substrate Integrated Cavity Antenna Array at 60 GHz -- 3.2.3 Simplified Designs and High‐Order‐Mode Antenna Array at 140 GHz -- 3.2.3.1 140‐GHz Slot Antenna Array with a Large‐Via‐Fence Dielectric Loading -- 3.2.3.2 140‐GHz Slot Antenna Array with a Large‐Via‐Fence and Large‐Slot Dielectric Loading -- 3.2.3.3 140‐GHz Slot Antenna Array Operating at a Higher‐Order Mode (TE20 Mode) -- 3.2.4 Fully Substrate Integrated Antennas at 270 GHz -- 3.2.4.1 Analysis of LTCC‐Based Substrate Integrated Structures -- 3.2.4.2 Fresnel Zone Plate Antenna in LTCC at 270 GHz -- 3.3 Summary -- References -- Chapter 4 Broadband Metamaterial‐Mushroom Antenna Array at 60 GHz Bands -- 4.1 Introduction -- 4.2 Broadband Low‐Profile CRLH‐Mushroom Antenna -- 4.2.1 Working Principle -- 4.2.2 Impedance Matching -- 4.3 Broadband LTCC Metamaterial‐Mushroom Antenna Array at 60 GHz -- 4.3.1 SIW Fed CRLH‐Mushroom Antenna Element -- 4.3.2 Self‐Decoupling Functionality -- 4.3.3 Self‐Decoupled Metamaterial‐Mushroom Subarray -- 4.3.4 Metamaterial‐Mushroom Antenna Array -- 4.4 Summary -- References -- Chapter 5 Narrow‐Wall‐Fed Substrate Integrated Cavity Antenna at 60 GHz -- 5.1 Introduction -- 5.2 Broadband Techniques for Substrate Integrated Antennas -- 5.2.1 Enhancement of the Impedance Matching for SIW Antennas.
5.2.2 Multi‐Mode Substrate Integrated Cavity Antennas -- 5.2.3 Substrate Integrated Cavity Backed Slot Antenna -- 5.2.4 Patch Loaded Substrate Integrated Cavity Antenna -- 5.2.5 Traveling‐Wave Elements Loaded Substrate Integrated Cavity Antenna -- 5.3 SIW Narrow Wall Fed SIC Antennas at Ka‐ and V‐Bands -- 5.3.1 SIW Narrow Wall Fed SIC Antenna -- 5.3.2 SIW Narrow Wall Fed SIC Antenna Array at 35 GHz -- 5.3.3 60‐GHz SIW Narrow Wall Fed SIC Antenna Array -- 5.4 Summary -- References -- Chapter 6 Cavity‐Backed SIW Slot Antennas at 60 GHz -- 6.1 Introduction -- 6.2 Operating Principle of the Cavity‐Backed Antenna -- 6.2.1 Configuration -- 6.2.2 Analysis of the Backing‐Cavity -- 6.2.3 Design of the Backing‐Cavity -- 6.3 Cavity‐Backed SIW Slot Antenna -- 6.3.1 Feeding Techniques -- 6.3.2 SIW Backing‐Cavity -- 6.3.3 Radiating Slot -- 6.4 Types of SIW CBSAs -- 6.4.1 Wideband CBSAs -- 6.4.2 Dual‐Band CBSAs -- 6.4.3 Dual‐Polarized and Circularly Polarized CBSAs -- 6.4.4 Miniaturized CBSAs -- 6.5 CBSA Design Examples at 60 GHz -- 6.5.1 SIW CBSA with Different Slot WLR -- 6.5.2 Array Examples with Different WLRs of Slot -- 6.6 Summary -- References -- Chapter 7 Circularly Polarized SIW Slot LTCC Antennas at 60 GHz -- 7.1 Introduction -- 7.2 Key Techniques of mmW CP Antenna Array -- 7.2.1 Antenna Element Selection -- 7.2.2 AR Bandwidth Enhancement Methods -- 7.3 Wideband CP LTCC SIW Antenna Array at 60 GHz -- 7.3.1 Wideband AR Element -- 7.3.2 Isolation Consideration -- 7.3.3 Experiment Results and Discussion -- 7.4 Summary -- References -- Chapter 8 Gain Enhancement of LTCC Microstrip Patch Antenna by Suppressing Surface Waves -- 8.1 Introduction -- 8.1.1 Surface Waves in Microstrip Patch Antennas -- 8.1.2 Surface Waves Effects on Microstrip Patch Antenna -- 8.2 State‐of‐the‐Art Methods for Suppressing Surface Waves in Microstrip Patch Antennas.
8.3 Microstrip Patch Antennas with Partial Substrate Removal -- 8.3.1 Technique of Partial Substrate Removal -- 8.3.2 60‐GHz LTCC Antenna with Partial Substrate Removal -- 8.4 Summary -- References -- Chapter 9 Substrate Integrated Antennas for Millimeter Wave Automotive Radars -- 9.1 Introduction -- 9.1.1 Automotive Radar Classification -- 9.1.2 Frequency Bands for Automotive Radars -- 9.1.3 Comparison of 24 GHz and 77 GHz Bands -- 9.1.4 Antenna System Considerations for Automotive Radar Sensors -- 9.1.4.1 Lens Antenna and Reflector Antenna -- 9.1.4.2 Planar Antennas -- 9.1.5 Fabrication and Packaging Considerations -- 9.2 State‐of‐the‐Art Antennas for 24‐GHz and 77‐GHz Automotive Radars -- 9.2.1 Selected State‐of‐the‐Art Antennas for 24‐GHz Automotive Radars -- 9.2.1.1 Shorted Parasitic Rhombic Patch Antenna Array with Lower Cross‐Polarization Levels -- 9.2.1.2 Compact Two‐Layer Rotman Lens‐Fed Microstrip Antenna Array -- 9.2.1.3 SIW Parasitic Antenna Array Without Feeding Network -- 9.2.1.4 SIW Pillbox Antenna Integrating Monopulse Amplitude‐Comparison Technique -- 9.2.2 Selected State‐of‐the‐Art Antennas for 77‐GHz Automotive Radars -- 9.2.2.1 SIW Slot Array for Both Medium‐ and Long‐Range Automotive Radar Sensor -- 9.2.2.2 16 × 16 Phased Array Antenna/Receiver Packaged Using Bond‐Wire Technique -- 9.2.2.3 Antenna/Module in Package -- 9.3 Single‐Layer SIW Slot Antenna Array for 24‐GHz Automotive Radars -- 9.3.1 Antenna Configuration -- 9.3.2 Slot Array Design -- 9.3.3 Feeding Network Design -- 9.3.4 Experiment Results -- 9.4 Transmit‐Array Antenna for 77‐GHz Automotive Radars -- 9.4.1 Unit Cell -- 9.4.2 Four‐Beam Transmit‐Array -- 9.4.3 Results -- 9.5 Summary -- Acknowledgments -- References -- Chapter 10 Sidelobe Reduction of Substrate Integrated Antenna Arrays at Ka‐Band -- 10.1 Introduction.
10.2 Feeding Networks for Substrate Integrated Antenna Array -- 10.2.1 Series Feeding Network -- 10.2.2 Parallel/Corporate Feeding Network -- 10.2.3 Flat Lens/Reflector‐Based Quasi‐Optics Feeding Network -- 10.2.4 Power Dividers -- 10.3 SIW Antenna Arrays with Sidelobe Reduction at Ka‐Band -- 10.3.1 Double‐Layer 8 × 8 SIW Slot Array -- 10.3.1.1 Parameter Extraction of Radiating Slots -- 10.3.1.2 Feeding Network -- 10.3.1.3 Simulations and Experiments -- 10.3.2 16 × 16 Monopulse SIW Slot Array -- 10.3.2.1 Series T‐Junction Feeding Network -- 10.3.2.2 Sum‐Difference Network -- 10.3.2.3 Simulations and Experiments -- 10.4 Summary -- References -- Chapter 11 Substrate Edge Antennas -- 11.1 Introduction -- 11.2 State‐of‐the‐Art -- 11.2.1 End‐Fire SEAs -- 11.2.2 Leaky‐Wave SEAs -- 11.3 Tapered Strips for Wideband Impedance Matching -- 11.3.1 Tapered Triangular Strips -- 11.3.2 Tapered Rectangular Strips -- 11.4 Embedded Planar Lens for Gain Enhancement -- 11.4.1 Embedded Metallic Lens -- 11.4.2 Embedded Gap Lens -- 11.5 Prism Lens for Broadband Fixed‐Beam Leaky‐Wave SEAs -- 11.6 Summary -- References -- Index -- EULA.
Record Nr. UNINA-9910555049103321
Hoboken, NJ : , : Wiley, , [2021]
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Substrate-integrated millimeter-wave antennas for next-generation communication and radar systems / / editors, Zhi Ning Chen, Xianming Qing
Substrate-integrated millimeter-wave antennas for next-generation communication and radar systems / / editors, Zhi Ning Chen, Xianming Qing
Pubbl/distr/stampa Hoboken, NJ : , : Wiley, , [2021]
Descrizione fisica 1 online resource (323 pages)
Disciplina 621.3824
Collana IEEE Press series on electromagnetic wave theory
Soggetto topico Antennas (Electronics)
ISBN 1-119-61115-6
1-119-61112-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Title Page -- Copyright -- Contents -- Editor Biographies -- Contributors -- Foreword -- Preface -- Chapter 1 Introduction to Millimeter Wave Antennas -- 1.1 Millimeter Waves -- 1.2 Propagation of Millimeter Waves -- 1.3 Millimeter Wave Technology -- 1.3.1 Important Features -- 1.3.2 Major Modern Applications -- 1.3.2.1 Next‐Generation Wireless Communications -- 1.3.2.2 High‐Definition Video and Virtual Reality Headsets -- 1.3.2.3 Automotive Communications and Radars -- 1.3.2.4 Body Scanners and Imaging -- 1.4 Unique Challenges of Millimeter Wave Antennas -- 1.5 Briefing of State‐of‐the‐Art Millimeter Wave Antennas -- 1.6 Implementation Considerations of Millimeter Wave Antennas -- 1.6.1 Fabrication Processes and Materials of the Antennas -- 1.6.2 Commonly Used Transmission Line Systems for Antennas -- 1.7 Note on Losses in Microstrip‐Lines and Substrate Integrated Waveguides -- 1.8 Update of Millimeter Wave Technology in 5G NR and Beyond -- 1.9 Organization of the book -- 1.10 Summary -- References -- Chapter 2 Measurement Methods and Setups of Antennas at 60-325 GHz Bands -- 2.1 Introduction -- 2.1.1 Far‐Field Antenna Measurement Setup -- 2.1.1.1 Free‐Space Range Using Anechoic Chamber -- 2.1.1.2 Compact Range -- 2.1.2 Near‐Field Antenna Measurement Setup -- 2.2 State‐of‐the‐Art mmW Measurement Systems -- 2.2.1 Commercially Available mmW Measurement Systems -- 2.2.2 Customized mmW Measurement Systems -- 2.3 Considerations for Measurement Setup Configuration -- 2.3.1 Far‐Field versus Near‐Field versus Compact Range -- 2.3.1.1 Far‐Field Measurement -- 2.3.1.2 Near‐Field Measurement -- 2.3.1.3 Compact Antenna Test Range -- 2.3.2 RF System -- 2.3.3 Interface Between the RF Instrument and AUT -- 2.3.4 On‐Wafer Antenna Measurement -- 2.3.4.1 Feeding and Movement Limitations -- 2.3.4.2 Reflection Caused by Probes/Metallic Environment.
2.3.4.3 Undesired Coupling Effects Caused by Measurement Probes -- 2.4 mmW Measurement Setup Examples -- 2.4.1 60‐GHz Antenna Measurement Setup -- 2.4.2 140‐GHz Antenna Measurement Setup -- 2.4.3 270‐GHz Antenna Measurement Setup -- 2.5 Summary -- References -- Chapter 3 Substrate Integrated mmW Antennas on LTCC -- 3.1 Introduction -- 3.1.1 Unique Design Challenges and Promising Solutions -- 3.1.2 SIW Slot Antennas and Arrays on LTCC -- 3.2 High‐Gain mmW SIW Slot Antenna Arrays on LTCC -- 3.2.1 SIW Three‐Dimensional Corporate Feed -- 3.2.2 Substrate Integrated Cavity Antenna Array at 60 GHz -- 3.2.3 Simplified Designs and High‐Order‐Mode Antenna Array at 140 GHz -- 3.2.3.1 140‐GHz Slot Antenna Array with a Large‐Via‐Fence Dielectric Loading -- 3.2.3.2 140‐GHz Slot Antenna Array with a Large‐Via‐Fence and Large‐Slot Dielectric Loading -- 3.2.3.3 140‐GHz Slot Antenna Array Operating at a Higher‐Order Mode (TE20 Mode) -- 3.2.4 Fully Substrate Integrated Antennas at 270 GHz -- 3.2.4.1 Analysis of LTCC‐Based Substrate Integrated Structures -- 3.2.4.2 Fresnel Zone Plate Antenna in LTCC at 270 GHz -- 3.3 Summary -- References -- Chapter 4 Broadband Metamaterial‐Mushroom Antenna Array at 60 GHz Bands -- 4.1 Introduction -- 4.2 Broadband Low‐Profile CRLH‐Mushroom Antenna -- 4.2.1 Working Principle -- 4.2.2 Impedance Matching -- 4.3 Broadband LTCC Metamaterial‐Mushroom Antenna Array at 60 GHz -- 4.3.1 SIW Fed CRLH‐Mushroom Antenna Element -- 4.3.2 Self‐Decoupling Functionality -- 4.3.3 Self‐Decoupled Metamaterial‐Mushroom Subarray -- 4.3.4 Metamaterial‐Mushroom Antenna Array -- 4.4 Summary -- References -- Chapter 5 Narrow‐Wall‐Fed Substrate Integrated Cavity Antenna at 60 GHz -- 5.1 Introduction -- 5.2 Broadband Techniques for Substrate Integrated Antennas -- 5.2.1 Enhancement of the Impedance Matching for SIW Antennas.
5.2.2 Multi‐Mode Substrate Integrated Cavity Antennas -- 5.2.3 Substrate Integrated Cavity Backed Slot Antenna -- 5.2.4 Patch Loaded Substrate Integrated Cavity Antenna -- 5.2.5 Traveling‐Wave Elements Loaded Substrate Integrated Cavity Antenna -- 5.3 SIW Narrow Wall Fed SIC Antennas at Ka‐ and V‐Bands -- 5.3.1 SIW Narrow Wall Fed SIC Antenna -- 5.3.2 SIW Narrow Wall Fed SIC Antenna Array at 35 GHz -- 5.3.3 60‐GHz SIW Narrow Wall Fed SIC Antenna Array -- 5.4 Summary -- References -- Chapter 6 Cavity‐Backed SIW Slot Antennas at 60 GHz -- 6.1 Introduction -- 6.2 Operating Principle of the Cavity‐Backed Antenna -- 6.2.1 Configuration -- 6.2.2 Analysis of the Backing‐Cavity -- 6.2.3 Design of the Backing‐Cavity -- 6.3 Cavity‐Backed SIW Slot Antenna -- 6.3.1 Feeding Techniques -- 6.3.2 SIW Backing‐Cavity -- 6.3.3 Radiating Slot -- 6.4 Types of SIW CBSAs -- 6.4.1 Wideband CBSAs -- 6.4.2 Dual‐Band CBSAs -- 6.4.3 Dual‐Polarized and Circularly Polarized CBSAs -- 6.4.4 Miniaturized CBSAs -- 6.5 CBSA Design Examples at 60 GHz -- 6.5.1 SIW CBSA with Different Slot WLR -- 6.5.2 Array Examples with Different WLRs of Slot -- 6.6 Summary -- References -- Chapter 7 Circularly Polarized SIW Slot LTCC Antennas at 60 GHz -- 7.1 Introduction -- 7.2 Key Techniques of mmW CP Antenna Array -- 7.2.1 Antenna Element Selection -- 7.2.2 AR Bandwidth Enhancement Methods -- 7.3 Wideband CP LTCC SIW Antenna Array at 60 GHz -- 7.3.1 Wideband AR Element -- 7.3.2 Isolation Consideration -- 7.3.3 Experiment Results and Discussion -- 7.4 Summary -- References -- Chapter 8 Gain Enhancement of LTCC Microstrip Patch Antenna by Suppressing Surface Waves -- 8.1 Introduction -- 8.1.1 Surface Waves in Microstrip Patch Antennas -- 8.1.2 Surface Waves Effects on Microstrip Patch Antenna -- 8.2 State‐of‐the‐Art Methods for Suppressing Surface Waves in Microstrip Patch Antennas.
8.3 Microstrip Patch Antennas with Partial Substrate Removal -- 8.3.1 Technique of Partial Substrate Removal -- 8.3.2 60‐GHz LTCC Antenna with Partial Substrate Removal -- 8.4 Summary -- References -- Chapter 9 Substrate Integrated Antennas for Millimeter Wave Automotive Radars -- 9.1 Introduction -- 9.1.1 Automotive Radar Classification -- 9.1.2 Frequency Bands for Automotive Radars -- 9.1.3 Comparison of 24 GHz and 77 GHz Bands -- 9.1.4 Antenna System Considerations for Automotive Radar Sensors -- 9.1.4.1 Lens Antenna and Reflector Antenna -- 9.1.4.2 Planar Antennas -- 9.1.5 Fabrication and Packaging Considerations -- 9.2 State‐of‐the‐Art Antennas for 24‐GHz and 77‐GHz Automotive Radars -- 9.2.1 Selected State‐of‐the‐Art Antennas for 24‐GHz Automotive Radars -- 9.2.1.1 Shorted Parasitic Rhombic Patch Antenna Array with Lower Cross‐Polarization Levels -- 9.2.1.2 Compact Two‐Layer Rotman Lens‐Fed Microstrip Antenna Array -- 9.2.1.3 SIW Parasitic Antenna Array Without Feeding Network -- 9.2.1.4 SIW Pillbox Antenna Integrating Monopulse Amplitude‐Comparison Technique -- 9.2.2 Selected State‐of‐the‐Art Antennas for 77‐GHz Automotive Radars -- 9.2.2.1 SIW Slot Array for Both Medium‐ and Long‐Range Automotive Radar Sensor -- 9.2.2.2 16 × 16 Phased Array Antenna/Receiver Packaged Using Bond‐Wire Technique -- 9.2.2.3 Antenna/Module in Package -- 9.3 Single‐Layer SIW Slot Antenna Array for 24‐GHz Automotive Radars -- 9.3.1 Antenna Configuration -- 9.3.2 Slot Array Design -- 9.3.3 Feeding Network Design -- 9.3.4 Experiment Results -- 9.4 Transmit‐Array Antenna for 77‐GHz Automotive Radars -- 9.4.1 Unit Cell -- 9.4.2 Four‐Beam Transmit‐Array -- 9.4.3 Results -- 9.5 Summary -- Acknowledgments -- References -- Chapter 10 Sidelobe Reduction of Substrate Integrated Antenna Arrays at Ka‐Band -- 10.1 Introduction.
10.2 Feeding Networks for Substrate Integrated Antenna Array -- 10.2.1 Series Feeding Network -- 10.2.2 Parallel/Corporate Feeding Network -- 10.2.3 Flat Lens/Reflector‐Based Quasi‐Optics Feeding Network -- 10.2.4 Power Dividers -- 10.3 SIW Antenna Arrays with Sidelobe Reduction at Ka‐Band -- 10.3.1 Double‐Layer 8 × 8 SIW Slot Array -- 10.3.1.1 Parameter Extraction of Radiating Slots -- 10.3.1.2 Feeding Network -- 10.3.1.3 Simulations and Experiments -- 10.3.2 16 × 16 Monopulse SIW Slot Array -- 10.3.2.1 Series T‐Junction Feeding Network -- 10.3.2.2 Sum‐Difference Network -- 10.3.2.3 Simulations and Experiments -- 10.4 Summary -- References -- Chapter 11 Substrate Edge Antennas -- 11.1 Introduction -- 11.2 State‐of‐the‐Art -- 11.2.1 End‐Fire SEAs -- 11.2.2 Leaky‐Wave SEAs -- 11.3 Tapered Strips for Wideband Impedance Matching -- 11.3.1 Tapered Triangular Strips -- 11.3.2 Tapered Rectangular Strips -- 11.4 Embedded Planar Lens for Gain Enhancement -- 11.4.1 Embedded Metallic Lens -- 11.4.2 Embedded Gap Lens -- 11.5 Prism Lens for Broadband Fixed‐Beam Leaky‐Wave SEAs -- 11.6 Summary -- References -- Index -- EULA.
Record Nr. UNINA-9910831063903321
Hoboken, NJ : , : Wiley, , [2021]
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Ultra wideband wireless communication [[electronic resource] /] / edited by Hüseyin Arslan, Zhi Ning Chen, Maria-Gabriella Di Benedetto
Ultra wideband wireless communication [[electronic resource] /] / edited by Hüseyin Arslan, Zhi Ning Chen, Maria-Gabriella Di Benedetto
Pubbl/distr/stampa Hoboken, N.J., : Wiley-Interscience, c2006
Descrizione fisica 1 online resource (523 p.)
Disciplina 621.384
Altri autori (Persone) ArslanHüseyin <1968->
ChenZhi Ning
Di BenedettoMaria-Gabriella
Soggetto topico Broadband communication systems
Ultra-wideband devices
Wireless communication systems
Soggetto genere / forma Electronic books.
ISBN 1-280-65440-6
9786610654406
0-470-04239-7
0-470-04238-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ULTRA WIDEBAND WIRELESS COMMUNICATION; CONTENTS; Preface; ACKNOWLEDGMENTS; Contributors; Chapter 1 Introduction to Ultra Wideband; 1.1 Introduction; 1.1.1 Benefits of UWB; 1.1.2 Applications; 1.1.3 Challenges; 1.2 Scope of the Book; Chapter 2 UWB Channel Estimation and Synchronization; 2.1 Introduction; 2.2 Channel Estimation at SubNyquist Sampling Rate; 2.2.1 UWB Channel Model; 2.2.2 Frequency-Domain Channel Estimation; 2.2.3 Polynomial Realization of the Model-Based Methods; 2.2.4 Subspace-Based Approach; 2.2.5 Estimation of Closely Spaced Paths; 2.3 Performance Evaluation
2.3.1 Analysis of Noise Sensitivity2.3.2 Computational Complexity and Alternative Solutions; 2.3.3 Numerical Example; 2.4 Estimating UWB Channels with Frequency-Dependent Distortion; 2.4.1 Algorithm Outline; 2.5 Channel Estimation from Multiple Bands; 2.5.1 Filter Bank Approach; 2.5.2 Estimation from Nonadjacent Bands; 2.6 Low-Complexity Rapid Acquisition in UWB Localizers; 2.6.1 Two-Step Estimation; 2.7 Conclusions; Chapter 3 Ultra Wideband Geolocation; 3.1 Introduction; 3.2 Signal Model; 3.3 Positioning Techniques; 3.3.1 Angle of Arrival; 3.3.2 Received Signal Strength
3.3.3 Time-Based Approaches3.4 Main Sources of Error in Time-Based Positioning; 3.4.1 Multipath Propagation; 3.4.2 Multiple Access Interference; 3.4.3 Nonline-of-Sight Propagation; 3.4.4 High Time Resolution of UWB Signals; 3.5 Ranging and Positioning; 3.5.1 Relationship Between Ranging and Optimal Positioning Algorithms; 3.5.2 ToA Estimation Algorithms; 3.5.3 Two-Way Ranging Protocols; 3.6 Location-Aware Applications; 3.7 Conclusions; Chapter 4 UWB Modulation Options; 4.1 Introduction; 4.2 UWB Signaling Techniques; 4.2.1 UWB-IR Signaling; 4.2.2 Multiband UWB; 4.2.3 Multicarrier UWB
4.2.4 OFDM4.3 Data Mapping; 4.3.1 Binary Data Mapping Schemes; 4.3.2 M-ary Data Mapping Schemes; 4.4 Spectral Characteristics; 4.5 Data Mapping and Transceiver Complexity; 4.6 Modulation Performances in Practical Conditions; 4.6.1 Effects of Multipath; 4.6.2 Effects of Multiple Access Interference; 4.6.3 Effects of Timing Jitter and Finger Estimation Error; 4.7 Conclusion; Chapter 5 Ultra Wideband Pulse Shaper Design; 5.1 Introduction; 5.2 Transmit Spectrum and Pulse Shaper; 5.3 FIR Digital Pulse Design; 5.4 Optimal UWB Single Pulse Design; 5.4.1 Parks-McClellan Algorithm
5.4.2 Optimal UWB Pulse Design via Direct Maximization of NESP5.4.3 Constrained Frequency Response Approximation; 5.4.4 Constrained Frequency Response Design with Linear Phase Filters; 5.5 Optimal UWB Orthogonal Pulse Design; 5.5.1 Orthogonality Formulation; 5.5.2 Sequential UWB Pulse Design; 5.5.3 Sequential UWB Pulse Design with Linear Phase Filters; 5.6 Design Examples and Comparisons; 5.6.1 Single-Pulse Designs and their Spectral Utilization Efficiency; 5.6.2 Multiband Pulse Design; 5.6.3 Multiple Orthogonal Pulse Design; 5.6.4 Pulse Designs for Narrowband Interference Avoidance
5.6.5 Impact of Pulse Designs on Transceiver Power Efficiency
Record Nr. UNINA-9910143572603321
Hoboken, N.J., : Wiley-Interscience, c2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Ultra wideband wireless communication [[electronic resource] /] / edited by Hüseyin Arslan, Zhi Ning Chen, Maria-Gabriella Di Benedetto
Ultra wideband wireless communication [[electronic resource] /] / edited by Hüseyin Arslan, Zhi Ning Chen, Maria-Gabriella Di Benedetto
Pubbl/distr/stampa Hoboken, N.J., : Wiley-Interscience, c2006
Descrizione fisica 1 online resource (523 p.)
Disciplina 621.384
Altri autori (Persone) ArslanHüseyin <1968->
ChenZhi Ning
Di BenedettoMaria-Gabriella
Soggetto topico Broadband communication systems
Ultra-wideband devices
Wireless communication systems
ISBN 1-280-65440-6
9786610654406
0-470-04239-7
0-470-04238-9
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ULTRA WIDEBAND WIRELESS COMMUNICATION; CONTENTS; Preface; ACKNOWLEDGMENTS; Contributors; Chapter 1 Introduction to Ultra Wideband; 1.1 Introduction; 1.1.1 Benefits of UWB; 1.1.2 Applications; 1.1.3 Challenges; 1.2 Scope of the Book; Chapter 2 UWB Channel Estimation and Synchronization; 2.1 Introduction; 2.2 Channel Estimation at SubNyquist Sampling Rate; 2.2.1 UWB Channel Model; 2.2.2 Frequency-Domain Channel Estimation; 2.2.3 Polynomial Realization of the Model-Based Methods; 2.2.4 Subspace-Based Approach; 2.2.5 Estimation of Closely Spaced Paths; 2.3 Performance Evaluation
2.3.1 Analysis of Noise Sensitivity2.3.2 Computational Complexity and Alternative Solutions; 2.3.3 Numerical Example; 2.4 Estimating UWB Channels with Frequency-Dependent Distortion; 2.4.1 Algorithm Outline; 2.5 Channel Estimation from Multiple Bands; 2.5.1 Filter Bank Approach; 2.5.2 Estimation from Nonadjacent Bands; 2.6 Low-Complexity Rapid Acquisition in UWB Localizers; 2.6.1 Two-Step Estimation; 2.7 Conclusions; Chapter 3 Ultra Wideband Geolocation; 3.1 Introduction; 3.2 Signal Model; 3.3 Positioning Techniques; 3.3.1 Angle of Arrival; 3.3.2 Received Signal Strength
3.3.3 Time-Based Approaches3.4 Main Sources of Error in Time-Based Positioning; 3.4.1 Multipath Propagation; 3.4.2 Multiple Access Interference; 3.4.3 Nonline-of-Sight Propagation; 3.4.4 High Time Resolution of UWB Signals; 3.5 Ranging and Positioning; 3.5.1 Relationship Between Ranging and Optimal Positioning Algorithms; 3.5.2 ToA Estimation Algorithms; 3.5.3 Two-Way Ranging Protocols; 3.6 Location-Aware Applications; 3.7 Conclusions; Chapter 4 UWB Modulation Options; 4.1 Introduction; 4.2 UWB Signaling Techniques; 4.2.1 UWB-IR Signaling; 4.2.2 Multiband UWB; 4.2.3 Multicarrier UWB
4.2.4 OFDM4.3 Data Mapping; 4.3.1 Binary Data Mapping Schemes; 4.3.2 M-ary Data Mapping Schemes; 4.4 Spectral Characteristics; 4.5 Data Mapping and Transceiver Complexity; 4.6 Modulation Performances in Practical Conditions; 4.6.1 Effects of Multipath; 4.6.2 Effects of Multiple Access Interference; 4.6.3 Effects of Timing Jitter and Finger Estimation Error; 4.7 Conclusion; Chapter 5 Ultra Wideband Pulse Shaper Design; 5.1 Introduction; 5.2 Transmit Spectrum and Pulse Shaper; 5.3 FIR Digital Pulse Design; 5.4 Optimal UWB Single Pulse Design; 5.4.1 Parks-McClellan Algorithm
5.4.2 Optimal UWB Pulse Design via Direct Maximization of NESP5.4.3 Constrained Frequency Response Approximation; 5.4.4 Constrained Frequency Response Design with Linear Phase Filters; 5.5 Optimal UWB Orthogonal Pulse Design; 5.5.1 Orthogonality Formulation; 5.5.2 Sequential UWB Pulse Design; 5.5.3 Sequential UWB Pulse Design with Linear Phase Filters; 5.6 Design Examples and Comparisons; 5.6.1 Single-Pulse Designs and their Spectral Utilization Efficiency; 5.6.2 Multiband Pulse Design; 5.6.3 Multiple Orthogonal Pulse Design; 5.6.4 Pulse Designs for Narrowband Interference Avoidance
5.6.5 Impact of Pulse Designs on Transceiver Power Efficiency
Record Nr. UNINA-9910830202603321
Hoboken, N.J., : Wiley-Interscience, c2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Ultra wideband wireless communication / / edited by Huseyin Arslan, Zhi Ning Chen, Maria-Gabriella Di Benedetto
Ultra wideband wireless communication / / edited by Huseyin Arslan, Zhi Ning Chen, Maria-Gabriella Di Benedetto
Pubbl/distr/stampa Hoboken, N.J., : Wiley-Interscience, c2006
Descrizione fisica 1 online resource (523 p.)
Disciplina 621.384
Altri autori (Persone) ArslanHuseyin <1968->
ChenZhi Ning
Di BenedettoMaria-Gabriella
Soggetto topico Broadband communication systems
Ultra-wideband devices
Wireless communication systems
ISBN 9786610654406
9781280654404
1280654406
9780470042397
0470042397
9780470042380
0470042389
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto ULTRA WIDEBAND WIRELESS COMMUNICATION; CONTENTS; Preface; ACKNOWLEDGMENTS; Contributors; Chapter 1 Introduction to Ultra Wideband; 1.1 Introduction; 1.1.1 Benefits of UWB; 1.1.2 Applications; 1.1.3 Challenges; 1.2 Scope of the Book; Chapter 2 UWB Channel Estimation and Synchronization; 2.1 Introduction; 2.2 Channel Estimation at SubNyquist Sampling Rate; 2.2.1 UWB Channel Model; 2.2.2 Frequency-Domain Channel Estimation; 2.2.3 Polynomial Realization of the Model-Based Methods; 2.2.4 Subspace-Based Approach; 2.2.5 Estimation of Closely Spaced Paths; 2.3 Performance Evaluation
2.3.1 Analysis of Noise Sensitivity2.3.2 Computational Complexity and Alternative Solutions; 2.3.3 Numerical Example; 2.4 Estimating UWB Channels with Frequency-Dependent Distortion; 2.4.1 Algorithm Outline; 2.5 Channel Estimation from Multiple Bands; 2.5.1 Filter Bank Approach; 2.5.2 Estimation from Nonadjacent Bands; 2.6 Low-Complexity Rapid Acquisition in UWB Localizers; 2.6.1 Two-Step Estimation; 2.7 Conclusions; Chapter 3 Ultra Wideband Geolocation; 3.1 Introduction; 3.2 Signal Model; 3.3 Positioning Techniques; 3.3.1 Angle of Arrival; 3.3.2 Received Signal Strength
3.3.3 Time-Based Approaches3.4 Main Sources of Error in Time-Based Positioning; 3.4.1 Multipath Propagation; 3.4.2 Multiple Access Interference; 3.4.3 Nonline-of-Sight Propagation; 3.4.4 High Time Resolution of UWB Signals; 3.5 Ranging and Positioning; 3.5.1 Relationship Between Ranging and Optimal Positioning Algorithms; 3.5.2 ToA Estimation Algorithms; 3.5.3 Two-Way Ranging Protocols; 3.6 Location-Aware Applications; 3.7 Conclusions; Chapter 4 UWB Modulation Options; 4.1 Introduction; 4.2 UWB Signaling Techniques; 4.2.1 UWB-IR Signaling; 4.2.2 Multiband UWB; 4.2.3 Multicarrier UWB
4.2.4 OFDM4.3 Data Mapping; 4.3.1 Binary Data Mapping Schemes; 4.3.2 M-ary Data Mapping Schemes; 4.4 Spectral Characteristics; 4.5 Data Mapping and Transceiver Complexity; 4.6 Modulation Performances in Practical Conditions; 4.6.1 Effects of Multipath; 4.6.2 Effects of Multiple Access Interference; 4.6.3 Effects of Timing Jitter and Finger Estimation Error; 4.7 Conclusion; Chapter 5 Ultra Wideband Pulse Shaper Design; 5.1 Introduction; 5.2 Transmit Spectrum and Pulse Shaper; 5.3 FIR Digital Pulse Design; 5.4 Optimal UWB Single Pulse Design; 5.4.1 Parks-McClellan Algorithm
5.4.2 Optimal UWB Pulse Design via Direct Maximization of NESP5.4.3 Constrained Frequency Response Approximation; 5.4.4 Constrained Frequency Response Design with Linear Phase Filters; 5.5 Optimal UWB Orthogonal Pulse Design; 5.5.1 Orthogonality Formulation; 5.5.2 Sequential UWB Pulse Design; 5.5.3 Sequential UWB Pulse Design with Linear Phase Filters; 5.6 Design Examples and Comparisons; 5.6.1 Single-Pulse Designs and their Spectral Utilization Efficiency; 5.6.2 Multiband Pulse Design; 5.6.3 Multiple Orthogonal Pulse Design; 5.6.4 Pulse Designs for Narrowband Interference Avoidance
5.6.5 Impact of Pulse Designs on Transceiver Power Efficiency
Record Nr. UNINA-9911019310703321
Hoboken, N.J., : Wiley-Interscience, c2006
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui