Microwave noncontact motion sensing and analysis /
"Compiling the authors? combined decades of experience, Microwave Noncontact Motion Sensing and Analysis sheds light on microwave noncontact vital sign detection from bench-top module to CMOS integrated microchip, covering a frequency range of over 30 GHz. Providing timely coverage of a technol...
Clasificación: | Libro Electrónico |
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Autor principal: | |
Otros Autores: | |
Formato: | Electrónico eBook |
Idioma: | Inglés |
Publicado: |
Hoboken, N.J. :
Wiley,
[2014]
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Temas: | |
Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover; Title Page; Copyright; Contents; Preface; Chapter 1 Introduction; 1.1 Background; 1.2 Recent Progress on Microwave Noncontact Motion Sensors; 1.2.1 Microwave/Millimeter-Wave Interferometer and Vibrometer; 1.2.2 Noncontact Vital Sign Detection; 1.3 About This Book; Chapter 2 Theory of Microwave Noncontact Motion Sensors; 2.1 Introduction to Radar; 2.1.1 Antennas; 2.1.2 Propagation and Antenna Gain; 2.1.3 Radio System Link and Friis Equation; 2.1.4 Radar Cross Section and Radar Equation; 2.1.5 Radar Signal-To-Noise Ratio; 2.1.6 Signal-Processing Basics.
- 2.2 Mechanism of Motion Sensing Radar2.2.1 Doppler Frequency Shift; 2.2.2 Doppler Nonlinear Phase Modulation; 2.2.3 Pulse Radar; 2.2.4 FMCW Radar; 2.2.5 Comparison of Different Detection Mechanisms; 2.3 Key Theory and Techniques of Motion Sensing Radar; 2.3.1 Null and Optimal Detection Point; 2.3.2 Complex Signal Demodulation; 2.3.3 Arctangent Demodulation; 2.3.4 Double-Sideband Transmission; 2.3.5 Optimal Carrier Frequency; 2.3.6 Sensitivity: Gain and Noise Budget; Chapter 3 Hardware Development of Microwave Motion Sensors; 3.1 Radar Transceiver; 3.1.1 Bench-Top Radar Systems.
- 3.1.2 Board Level Radar System Integration3.1.3 Motion Sensing Radar-On-Chip Integration; 3.1.4 Pulse-Doppler Radar and Ultra-Wideband Technologies; 3.1.5 FMCW Radar; 3.2 Radar Transponders; 3.2.1 Passive Harmonic Tag; 3.2.2 Active Transponder for Displacement Monitoring; 3.3 Antenna Systems; 3.3.1 Phased Array Systems; 3.3.2 Broadband Antenna; 3.3.3 Helical Antenna; Chapter 4 Advances in Detection and Analysis Techniques; 4.1 System Design and Optimization; 4.1.1 Shaking Noise Cancellation Using Sensor Node Technique; 4.1.2 DC-Coupled Displacement Radar.
- 4.1.3 Random Body Movement Cancellation Technique4.1.4 Nonlinear Detection of Complex Vibration Patterns; 4.1.5 Motion Sensing Based on Self-Injection-Locked Oscillators; 4.2 Numerical Methods: Ray-Tracing Model; 4.3 Signal Processing; 4.3.1 MIMO, MISO, SIMO Techniques; 4.3.2 Spectral Estimation Algorithms; 4.3.3 Joint Time-Frequency Signal Analysis; Chapter 5 Applications and Future Trends; 5.1 Application Case Studies; 5.1.1 Assisted Living and Smart Homes; 5.1.2 Sleep Apnea Diagnosis; 5.1.3 Wireless Infant Monitor; 5.1.4 Measurement of Rotational Movement.
- 5.1.5 Battlefield Triage and Enemy Detection5.1.6 Earthquake and Fire Emergency Search and Rescue; 5.1.7 Tumor Tracking in Radiation Therapy; 5.1.8 Structural Health Monitoring; 5.2 Development of Standards and State of Acceptance; 5.3 Future Development Trends; 5.4 Microwave Industry Outlook; References; Index; Series Page.