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دانلود کتاب Transparent and Flexible MIMO Antenna Technologies for 5G Applications : Transforming 5G with Transparent & Flexible MIMO Antennas
دانلود کتاب فناوریهای آنتن MIMO شفاف و انعطافپذیر برای برنامههای 5G: تبدیل 5G با شفاف
مشخصات کتاب
Transparent and Flexible MIMO Antenna Technologies for 5G Applications : Transforming 5G with Transparent & Flexible MIMO Antennas
ویرایش: 1 نویسندگان: Jayshri Kulkarni, Arpan Desai, Heng Tung Hsu, Brian Garner, Yang Li, Chow-Yen-Desmond Sim, Vigneswaran Dhasarathan سری: EAI/Springer Innovations in Communication and Computing ISBN (شابک) : 9783031424854, 9783031424861 ناشر: Springer Nature Switzerland سال نشر: 2024 تعداد صفحات: 217 زبان: English فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) حجم فایل: 14 مگابایت
قیمت کتاب (تومان) : 67,000
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توجه داشته باشید کتاب فناوریهای آنتن MIMO شفاف و انعطافپذیر برای برنامههای 5G: تبدیل 5G با شفاف نسخه زبان اصلی می باشد و کتاب ترجمه شده به فارسی نمی باشد. وبسایت اینترنشنال لایبرری ارائه دهنده کتاب های زبان اصلی می باشد و هیچ گونه کتاب ترجمه شده یا نوشته شده به فارسی را ارائه نمی دهد.
توضیحاتی درمورد کتاب به خارجی
فهرست مطالب
Preface Contents Chapter 1: Introduction to the Flexible and Transparent Antennas 1.1 Introduction 1.2 Categories of Flexible Antennas 1.3 Advantages and Drawbacks of Flexible Antenna 1.3.1 Challenges of Flexible Antenna 1.3.2 Difference Between Conformable and Non-conformable Antenna 1.4 Substrate Properties 1.4.1 Dielectric Constant 1.4.2 Loss Tangent 1.4.3 Thickness 1.4.4 Dielectric Strength 1.5 Choice of Substrate for Flexible Antennas 1.5.1 Substrate Losses and Issues 1.5.2 Temperature Expansion 1.5.3 Conductive Material Properties 1.6 Flexible Substrates 1.6.1 Kapton Polyimide 1.6.2 Polydimethylsiloxane (PDMS) Substrates 1.6.3 Textile Substrates 1.6.4 Plastic Materials 1.6.5 Paper Materials 1.6.6 Other Substrate Materials 1.7 Fabrication Methods 1.7.1 Screen Printing 1.7.2 Inkjet Printing 1.7.3 Sewing and Embordering 1.7.4 Chemical Etching 1.8 Applications of Flexible Antenna 1.9 Case Studies: Flexible Antenna Design, Geometry, and Simulation Analysis 1.9.1 Dual-Band Flexible Concentric Rings Single Input Single Output Antenna 1.9.1.1 Overview of Existing Research Work 1.9.1.2 Design and Geometry 1.9.1.3 Evolution of Antenna Design 1.9.1.4 Simulated Analysis 1.9.1.4.1 Reflection Coefficient Characteristics (S11) 1.9.1.4.2 Radiation Patterns 1.9.1.4.3 Gain and Efficiency Simulations 1.9.1.5 Bending Analysis 1.9.1.6 Concluding Remarks 1.9.2 Decagon Antenna for GSM, LTE, 5G, and WLAN Applications 1.9.2.1 Overview of Existing State of Arts 1.9.2.2 Antenna Geometry 1.9.2.3 Simulated Analysis 1.9.2.3.1 Distribution of Current (A/m) 1.9.2.3.2 Reflection Coefficient Curve (S11) 1.9.2.3.3 Radiation Performance 1.9.2.3.4 Signal Strength and Efficiency 1.9.2.4 Bending Analysis 1.9.2.5 Concluding Remarks 1.9.3 Two-Dimensional (2-D) MIMO Antenna 1.9.3.1 State of Arts in MIMO Designs 1.9.3.2 MIMO Antenna Design 1.9.3.3 Performance Evaluation of MIMO Antennas 1.9.3.4 MIMO Antenna Diversity Performance Analysis 1.9.3.5 Performance Evaluation of MIMO Antenna Bending 1.9.3.6 Concluding Remarks 1.10 Transparent Antennas 1.10.1 Oxide based Transparent Antennas 1.10.1.1 Transparent Materials Having Conductive Properties 1.10.1.2 Transparent Conductive Oxides Material Properties (Tcos) 1.10.1.3 Applications of TCO Materials 1.10.1.4 Other Properties of Transparent Oxides 1.10.1.4.1 Transparency 1.10.1.4.2 Electrical Conductivity 1.10.1.4.3 Finding Conductivity of Thin Sheet from Sheet Resistance 1.10.1.4.4 Hardness of TCOs 1.11 Case Study of CPW-Fed Transparent Flexible Antenna 1.11.1 Antenna Geometry 1.11.2 Experimental Results and Discussion 1.11.3 Bending Analysis 1.11.4 Conclusion References Chapter 2: Flexible, Transparent, and Wideband 4-Port MIMO Antenna 2.1 Introduction 2.2 5G MIMO Technology 2.2.1 Conventional MIMO Configurations 2.2.2 Applications of MIMO 2.2.2.1 MIMO in LTE Superior 2.2.2.2 MIMO in Wireless LAN 2.2.2.3 5G and IoT 2.3 Printed Transparent 5G MIMO Antenna Design 2.3.1 Introduction 2.3.2 A Review of Transparent MIMO-Printed Antennas for 5G Applications 2.3.2.1 Graphene 2.3.2.2 Carbon Nanotubes 2.3.2.3 Silver Tin Oxide (AgHT) 2.3.2.4 Copper Nanowire 2.4 Transparent 4-Element 5G MIMO Antenna Case Study 2.4.1 Antenna Design 2.4.2 Numerical Computation and Parametric Studies 2.4.3 Results and Discussion 2.4.4 Conclusion References Chapter 3: UWB Flexible Antenna 3.1 Introduction 3.2 Mutual Coupling 3.2.1 Methods for Mutual Coupling Reduction 3.3 Fundamental MIMO Antenna System Parameters 3.3.1 Isolation 3.3.2 TARC 3.3.3 Envelope Correlation Coefficient (ECC) 3.3.4 Diversity Gain 3.4 Flexible 4-Element UWB MIMO Antenna Case Study 3.4.1 Antenna Geometry 3.4.2 Results and Discussions 3.4.3 MIMO Diversity Analysis 3.4.4 Bending Analysis 3.4.5 Time Domain Analysis 3.4.6 Conclusion References Chapter 4: Advancements in Flexible MIMO Antennas for 5G Smartphones 4.1 Introduction to Flexible MIMO Antenna Advancement 4.2 Existing Research Overview 4.3 Geometry and Design of Mobile Antenna 4.4 The Findings and Discussion 4.4.1 Coefficient of Reflection (dB) 4.4.2 Coefficient of Transmission (dB) 4.4.3 Distribution of Surface Current (A/m) 4.4.4 (2D) Radiation Pattern 4.4.5 3D Radiation Pattern 4.4.6 Gain and Efficiency of Suggested MIMO Antenna 4.5 MIMO Diversity Analysis 4.5.1 ECC and DG 4.5.2 TARC 4.5.3 MEG 4.5.4 Channel Capacity 4.6 Analysis of Flexibility 4.6.1 Coefficient of Reflection with Antenna Bending 4.6.2 Coefficient of Transmission with Antenna Bending 4.6.3 Gain and Efficiency with Antenna Bending 4.6.4 ECC and DG 4.7 Impact of Smartphone Antenna on User (SAR Analysis) 4.7.1 Effect of SAR Analysis on 3D Radiation Pattern 4.7.2 SAR´s Impact on Human Beings Tissue 4.8 Performance Assessment of the Suggested MIMO Antenna 4.9 Conclusions References Chapter 5: Flexible 4-Port CP MIMO Antenna 5.1 Introduction 5.2 Geometry and Configuration of a Single, Flexible Monopole Antenna 5.2.1 Working Principle of the Antenna 5.2.2 Analysis of Surface Current Distribution in the Decagon-Shaped Flexible Antenna 5.3 CP Mechanism of the Decagon-Shaped Flexible Antenna 5.4 Bending Analysis of the Decagon Shaped Flexible Antenna 5.5 Designing a Dual-Polarized Flexible Four-Port MIMO Antenna with ILS 5.6 Design Steps of the Four-Port Decagon-Shaped Dual-Polarized Flexible MIMO Antenna 5.7 Polarization Diversity of the Proposed Flexible MIMO Antenna 5.7.1 Results and Analysis of the Suggested, Flexible, Dual-Polarized MIMO Antenna with a Decagon Form 5.7.2 Measured and Simulated Reflection Coefficient 5.7.3 Simulation and Measured Transmission Coefficient 5.7.4 Axial Ratio: Measured and Simulated 5.7.5 Gain and Efficiency: Simulations and Measurements 5.7.6 Measured and Simulated Radiation Patterns 5.7.7 Diversity Gain (DG) and ECC 5.7.8 TARC or Total Active Reflection Coefficient 5.7.9 Mean Effective Gain (MEG) of Suggested Antenna with MIMO Structure 5.7.10 Channel Capacity of Antenna with MIMO Structure 5.8 Bending Analysis of Proposed Flexible MIMO Antenna 5.8.1 Bending Analysis of Proposed Flexible MIMO Antenna Along X-Axis 5.8.2 Bending Analysis of the Proposed Flexible MIMO Antenna Along the Y-Axis 5.9 Performance Comparison of Proposed Flexible MIMO Antenna 5.10 Conclusion References Index
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