Body Area Communications: Channel Modeling, Communication Systems, and EMC by Wang, Jianqing -- Read -- Imperial Library of Trantor

Index

Cover Title Page Copyright Preface Chapter 1: Introduction to Body Area Communications

1.1 Definition 1.2 Promising Applications 1.3 Available Frequency Bands 1.4 Standardization (IEEE Std 802.15.6-2012) References

Chapter 2: Electromagnetic Characteristics of the Human Body

2.1 Human Body Composition 2.2 Frequency-Dependent Dielectric Properties 2.3 Tissue Property Modeling 2.4 Aging Dependence of Tissue Properties 2.5 Penetration Depth versus Frequency 2.6 In-Body Absorption Characteristic 2.7 On-Body Propagation Mechanism 2.8 Diffraction Characteristic References

Chapter 3: Electromagnetic Analysis Methods

3.1 Finite-Difference Time-Domain Method 3.2 MoM-FDTD Hybrid Method 3.3 Finite Element Method 3.4 Numerical Human Body Model References

Chapter 4: Body Area Channel Modeling

4.1 Introduction 4.2 Path Loss Model 4.3 Multipath Channel Model References

Chapter 5: Modulation/Demodulation

5.1 Introduction 5.2 Modulation Schemes 5.3 Demodulation and Error Probability 5.4 RAKE Reception 5.5 Diversity Reception References

Chapter 6: Body Area Communication Performance

6.1 Introduction 6.2 On-Body UWB Communication 6.3 In-Body UWB Communication 6.4 In-Body MICS-Band Communication 6.5 Human Body Communication 6.6 Dual Mode Body Area Communication References

Chapter 7: Electromagnetic Compatibility Considerations

7.1 Introduction 7.2 SAR Analysis 7.3 Electromagnetic Interference Analysis for the Cardiac Pacemaker References

Chapter 8: Summary and Future Challenges Index