لایب سان

Ebook details:
عنوان: Wearable Communication Systems and Antennas for Commercial, Sport and Medical Applications (Programme: IOP Expanding Physics)
نویسنده: Albert Sabban
ناشر: Iop Publishing Ltd (December 17, 2018)
زبان: English
شابک: 0750317086, 978-0750317085
حجم: 173 Mb
فرمت: True Pdf

1. Theory of wireless wearable communication systems -- 1.1. Wireless wearable communication systems : frequency range -- 1.2. Free space propagation -- 1.3. Friis transmission formula -- 1.4. Link budget examples -- 1.5. Noise -- 1.6. Communication systems : link budget -- 1.7. Path loss -- 1.8. Receiver sensitivity -- 1.9. Receivers : definitions and features -- 1.10. Types of radars -- 1.11. Transmitters : definitions and features -- 1.12. Satellite communication transceiver 2. Wearable communication technology for medical and sport applications -- 2.1. Wearable technology -- 2.2. Wearable medical systems -- 2.3. Physiological parameters measured by wearable medical systems -- 2.4. Wearable body-area networks (WBANs) -- 2.5. Wearable wireless body-area network (WWBAN) -- 2.6. Conclusions 3. Electromagnetic waves and transmission lines for wearable communication systems -- 3.1. Electromagnetic spectrum -- 3.2. Basic electromagnetic wave definitions -- 3.3. Electromagnetic waves theory -- 3.4. Wave propagation through the human body -- 3.5. Materials -- 3.6. Transmission lines theory -- 3.7. Matching techniques -- 3.8. Coaxial transmission line -- 3.9. Microstrip line -- 3.10. Waveguides -- 3.11. Circular waveguide 4. Microwave technologies for wearable communication systems -- 4.1. Introduction -- 4.2. MIC--microwave integrated circuit -- 4.3. Low noise K band compact receiving channel for a satellite communication ground terminal -- 4.4. MMICs--monolithic microwave integrated circuits -- 4.5. 18-40 GHz front end -- 4.6. MEMS technology -- 4.7. W band MEMS detection array -- 4.8. MEMS bow-tie dipole with a bolometer -- 4.9. LTCC and HTCC technology -- 4.10. Conclusions 5. RF components and module design for wearable communication systems -- 5.1. Introduction -- 5.2. Passive elements -- 5.2..4 Couplers -- 5.3. Power dividers and combiners -- 5.4. RF amplifiers -- 5.5. Linearity of RF amplifiers, active devices -- 5.6. Wideband phased array direction finding system -- 5.7. Conclusions 6. System engineering of body-area networks, BAN communication systems -- 6.1. Introduction -- 6.2. Cloud storage and computing services for wearable body-area networks -- 6.3. Wireless body-area networks (WBANs) -- 6.4. Wearable wireless body-area network (WWBAN) -- 6.5. Systems engineering methodology for wearable medical systems -- 6.6. System engineering tools for the development of wearable medical systems -- 6.7. ICDM--integrated, customer-driven, conceptual design method -- 6.8. 434 MHz receiving channel for communication and medical systems -- 6.9. Conclusions 7. Wearable antennas for wireless communication systems -- 7.1. Introduction to antennas -- 7.2. Antenna definitions -- 7.3. Dipole antenna -- 7.4. Monopole antenna for wearable communication systems -- 7.5. Loop antennas for wireless communication systems -- 7.6. Wearable printed antennas -- 7.7. Two-layer wearable stacked microstrip antennas -- 7.8. Stacked mono-pulse Ku band patch antenna -- 7.9. Wearable loop antennas -- 7.10. Planar wearable inverted-F antenna (PIFA) -- 7.11. Conclusions 8. Wideband wearable antennas for communication and medical applications -- 8.1. Introduction -- 8.2. Printed wearable dual polarized dipole antennas -- 8.3. Printed wearable loop antenna -- 8.4. Compact dual polarized wearable antennas -- 8.5. Conclusions 9. Analysis and measurements of wearable antennas in the vicinity of the human body -- 9.1. Introduction -- 9.2. Analysis of wearable antennas -- 9.3. Design of wearable antennas in the vicinity of the human body -- 9.4. Wearable antenna arrays -- 9.5. Small wide band dual polarized wearable printed antennas -- 9.6. Wearable helix antenna's performance on the human body -- 9.7. Wearable antenna measurements in the vicinity of the human body -- 9.8. Phantom configuration -- 9.9. Measurements of wearable antennas using a phantom -- 9.10. Measurement results of wearable antennas -- 9.11. Conclusions 10. Wearable RFID technology and antennas -- 10.1. Introduction -- 10.2. RFID technology -- 10.3. RFID standards -- 10.4. Dual polarized 13.5 MHz compact printed antenna -- 10.5. Varying the antenna feed network -- 10.6. Wearable loop antennas for RFID applications -- 10.7. Proposed antenna applications -- 10.8. Conclusions 11. Novel wearable printed antennas for wireless communication and medical systems -- 11.1. Wideband wearable metamaterial antennas for wireless communication applications -- 11.2. Stacked patch antenna loaded with SRR -- 11.3. Patch antenna loaded with split ring resonators -- 11.4. Metamaterial antenna characteristics in the vicinity of the human body -- 11.5. Metamaterial wearable antennas -- 11.6. Wideband stacked patch with SRR -- 11.7. Fractal printed antennas -- 11.8. Anti-radar fractals and/or multilevel chaff dispersers -- 11.9. Definition of a multilevel fractal structure -- 11.10. Advanced antenna system -- 11.11. Applications of fractal printed antennas -- 11.12. Conclusion 12. Active wearable printed antennas for medical applications -- 12.1. Tunable printed antennas -- 12.2. Varactors : theory -- 12.3. Dually polarized tunable printed antenna -- 12.4. Wearable tunable antennas -- 12.5. Varactors : electrical characteristics -- 12.6. Measurements of wearable tunable antennas -- 12.7. Folded wearable dual polarized tunable antenna -- 12.8. Medical applications for wearable tunable antennas -- 12.9. Active wearable antennas -- 12.10. Active transmitting antenna -- 12.11. Conclusions 13. New wideband passive and active wearable slot and notch antennas for wireless and medical communication systems -- 13.1. Slot antennas -- 13.2. Slot radiation pattern -- 13.3. Slot antenna impedance -- 13.4. A wideband wearable printed slot antenna -- 13.5. A wideband T shape wearable printed slot antenna -- 13.6. Wideband wearable notch antenna for wireless communication systems -- 13.7. Wearable tunable slot antennas for wireless communication systems -- 13.8. A wideband T shape tunable wearable printed slot antenna -- 13.9. Wearable active slot antennas for wireless communication systems -- 13.10. Wearable active T shape slot antennas for wireless communication systems -- 13.11. New fractal compact ultra-wideband, 1 GHz to 6 GHz, notch antenna -- 13.12. New compact ultra-wideband notch antenna 1.3 GHz to 3.9 GHz -- 13.13. New compact ultra-wideband notch antenna 5.8 GHz to 18 GHz -- 13.14. New fractal active compact ultra-wideband, 0.5 GHz to 3 GHz, notch antenna -- 13.15. New compact ultra-wideband active notch antenna 0.4 GHz to 3 GHz -- 13.16. Conclusions 14. Aperture antennas for wireless communication systems -- 14.1. The parabolic reflector antenna's configuration -- 14.2. Reflector directivity -- 14.3. Cassegrain reflector -- 14.4. Horn antennas -- 14.5. Antenna arrays for wireless communication systems -- 14.6. Integrated outdoor unit for mm wave communication systems -- 14.7. Solid state power amplifier, SSPA -- 14.8. Solid state high power amplifiers, SSPAs, for mm wave communication system -- 14.9. Integrated Ku band automatic tracking system -- 14.10. Conclusions 15. Measurements of wearable systems and antennas -- 15.1. Introduction -- 15.2. Representation of wearable systems with N ports -- 15.3. Scattering matrix -- 15.4. S parameter measurements -- 15.5. Transmission measurements -- 15.6. Output power and linearity measurements -- 15.7. Power input protection measurement -- 15.8. Non-harmonic spurious measurements -- 15.9. Switching time measurements -- 15.10. IP2 measurements -- 15.11. IP3 measurements -- 15.12. Noise figure measurements -- 15.13. Antenna measurements -- 15.14. Antenna range setup -- 15.15. Conclusions 16. Ethics topics for wearable biomedical and communication systems -- 16.1. Introduction to ethics theory and practice -- 16.2. The basics of ethics theory -- 16.3. Medical ethics -- 16.4. Ethical problems -- 16.5. Ethics in organizations and companies -- 16.6. Ethical dilemmas in research and science -- 16.7. Ethical dilemmas for using computers and the internet -- 16.8. How to prevent and minimize ethical crimes in the digital media -- 16.9. Conclusions

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