Kooperativer Bibliotheksverbund

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Format: 1 online resource (343 p.)

Note: Description based upon print version of record. , Front Cover -- Principles and Applications of RF/Microwave in Healthcare and Biosensing -- Copyright Page -- Contents -- List of Contributors -- Introduction -- Background -- Recent Progress on RF/Microwave Biomedical Research -- About This Book -- 1 Fundamentals of microwave engineering -- 1.1 Introduction -- 1.2 Transmission Lines Theory -- 1.2.1 A Simple Model of Transmission Lines -- 1.2.2 Impedance and Reflection Coefficient -- 1.2.3 Special Cases of Transmission Lines -- 1.2.4 Voltage Standing Wave Ratio -- 1.3 RF Matrices -- 1.3.1 Matrices for Circuit Analysis -- 1.3.2 S-parameters -- 1.3.3 Conversion Among the Matrices -- 1.4 Smith Chart -- 1.4.1 Reflection Coefficient on the Smith Chart -- 1.4.2 Relationship Between Reflection Coefficient and Impedance -- 1.4.3 Admittance on the Smith Chart -- 1.4.4 Useful Rules of Smith Chart and Impedance/Admittance Calculation -- 1.5 Impedance Matching -- 1.5.1 Matching With Lumped Elements -- 1.5.2 Matching by Transmission Lines -- 1.5.3 Matching by a Quarter-Wave Transformer -- 1.6 Microwave Passive Components -- 1.6.1 Three-Port Power Couplers -- 1.6.1.1 The resistive power divider: matched, reciprocal, but lossy -- 1.6.1.2 The lossless divider: lossless, can be reciprocal, but not matched -- 1.6.1.3 Circulators: matched, lossless, but nonreciprocal -- 1.6.1.4 The Wilkinson power divider/combiner -- 1.6.2 Four-Port Power Couplers -- 1.7 Microwave Active Circuits -- 1.7.1 Amplifiers: Gain, Noise Figure, Linearity, Stability, and Efficiency -- 1.7.1.1 Amplifier gain and constant gain circles -- 1.7.1.2 Amplifier stability -- 1.7.1.3 Amplifier noise figure -- 1.7.1.4 Dynamic range and intermodulation distortion -- 1.7.1.5 Efficiency -- 1.7.2 Mixers: Active Versus Passive, Noise Figure, Linearity -- 1.7.2.1 Image frequency -- 1.7.2.2 Conversion loss -- 1.7.2.3 Noise figure. , 1.7.2.4 Other mixer characteristics -- 1.7.3 Oscillators: Oscillator Structures, Phase Noise -- 1.8 System Architectures -- 1.8.1 Heterodyne Architecture -- 1.8.2 Homodyne Architecture -- 1.8.3 Double Sideband Architecture -- 1.8.4 Direct IF Sampling Architectures -- 1.8.5 Other Architectures -- Acknowledgments -- References -- 2 Interaction between electromagnetic waves and biological materials -- 2.1 Introduction -- 2.2 Complex Permittivity of Biological Materials and Relaxation Theory -- 2.2.1 Complex Permittivity and Loss -- 2.2.2 Dielectric Polarization Mechanisms -- 2.2.3 Relaxation Theory -- Debye Model -- 2.2.4 Effect of DC (Ionic) Conductivity -- 2.2.5 Distribution of Relaxation Time -- Cole-Cole Model -- 2.2.6 Complex Permittivity of Biological Tissues -- 2.2.7 Cell and Cell Constituents' Complex Permittivity -- 2.3 Complex Permittivity Measurement -- 2.3.1 Resonant Methods -- 2.3.2 Open-Ended Coaxial Line -- 2.3.3 Two-Port Methods -- 2.4 Conclusion -- References -- 3 Microwave cancer diagnosis -- 3.1 Introduction -- 3.2 The Dielectric Properties of Biological Tissue in the Microwave Range -- 3.3 Mathematical Models for the Complex Permittivity of Biological Tissue -- 3.4 The Complex Permittivity of Malignant Tumor Tissue Versus Healthy Tissue -- 3.4.1 Data for Normal and Malignant Breast Tissue -- 3.4.2 Data for Normal Skin and Skin Tumors -- 3.5 General Considerations for Microwave Systems for Cancer Diagnosis -- 3.6 Common Techniques for Microwave Cancer Diagnosis -- 3.6.1 Permittivity Evaluation by Free-Space Quasi-Optical Systems -- 3.6.2 Microwave Reflectometry Using Near-Field Probes -- 3.6.3 Microwave Tomography -- 3.6.4 Ultra-Wideband Microwave Radar -- 3.6.5 Passive Microwave Techniques for Cancer Diagnosis -- 3.6.6 Hybrid Microwave Techniques for Cancer Diagnosis -- 3.7 Microwave Imaging for Breast Cancer Screening. , 3.8 Skin Cancer Diagnosis Using Microwave Technology -- 3.9 Further Possible Application Areas of Microwave Cancer Diagnosis -- References -- 4 Wireless closed-loop stimulation systems for symptom management -- 4.1 Needs in Healthcare Systems -- 4.2 Wireless Implant Systems -- 4.3 Body Network Applications -- 4.4 Neurological Applications -- 4.4.1 Neurostimulators -- 4.4.2 Closed-Loop Systems for Pain Management -- 4.4.3 System Design -- 4.4.4 Experiments and Results -- 4.4.5 Electrocorticography Recording -- 4.5 Endoluminal Applications -- 4.5.1 Gastric Dysmotility Disorders -- 4.5.2 Gastric Electrical Stimulation -- 4.5.3 Batteryless Wireless Gastric Stimulator -- 4.5.4 Electromagnetic Energy Transfer -- 4.6 Conclusion -- References -- 5 Human-aware localization using linear-frequency-modulated continuous-wave radars -- 5.1 Introduction -- 5.2 LFMCW Radar Architecture -- 5.2.1 Deramping-Based LFMCW Radar Architecture -- 5.3 LFMCW Waveform -- 5.3.1 Mathematical Analysis -- 5.3.2 Coherence Maintenance -- 5.3.3 Obtaining of the Range -- 5.4 Signal Processing Issues -- 5.4.1 Data Formatting -- 5.4.2 Construction of Important Matrices -- 5.4.3 Algorithms to Extract the Range History -- 5.4.3.1 Amplitude-based algorithm -- 5.4.3.2 Phase-based algorithm -- 5.5 Range Resolution, Precision, and Accuracy -- 5.5.1 Range Resolution -- 5.5.2 Range Precision -- 5.5.3 Range Accuracy -- 5.5.4 Other Dimensions -- 5.6 Clutter Mitigation -- 5.6.1 Mathematical Formulation -- 5.6.2 Doppler-Based Clutter Mitigation -- 5.7 Simulations -- 5.7.1 Proof-of-Concept Simulation -- 5.7.2 Clutter in Other Range Bins -- 5.7.3 Performance Against Noise -- 5.7.4 Multi-Scatterer Simulation -- 5.7.5 Clutter in the Same Range Bin -- 5.8 Experimental Results -- 5.8.1 Radar Prototype -- 5.8.2 Absolute Range Measures of Metal Plates -- 5.8.3 Range Tracking of a Vibrating Metal Plate. , 5.8.4 Monitoring of Vital Signs -- 5.9 Further Work -- Acknowledgments -- References -- 6 Biomedical radars for monitoring health -- 6.1 Introduction -- 6.1.1 UWB Pulse Radar Versus CW Radar -- 6.1.2 SIL Radar and SFCW Radar -- 6.2 Popularizing Health Monitoring With Cutting-Edge Vital Sign Sensors -- 6.2.1 SIL Radar-Based Cardiopulmonary Sensor -- 6.2.2 Through-Wall Life Detector -- 6.2.3 Chest-Worn Health Monitor -- 6.2.3.1 Experiment A: standing with fidgeting -- 6.2.3.2 Experiment B: walking with deep breathing -- 6.2.3.3 Experiment C: jogging with rapid breathing -- 6.2.3.4 Experiment D: walking with gasping -- 6.3 Enabling Health Monitoring in Smart Homes -- 6.3.1 In-Home Health Care for the Elderly -- 6.3.2 Wireless Radar Sensor Network Architecture -- 6.3.3 Hardware Design -- 6.3.3.1 Radar waveform -- 6.3.3.2 Radar sensor node architecture -- 6.3.3.3 WRSN implementation -- 6.3.4 Signal Processing -- 6.3.4.1 Fall detection -- 6.3.4.1.1 Training phase -- 6.3.4.1.2 Testing phase -- 6.3.4.2 Tagless localization -- 6.3.5 Experimental Results -- 6.3.5.1 Offline fall detection -- 6.3.5.2 Real-time fall detection -- 6.3.5.3 WRSN fall detection -- 6.3.5.4 Tagless ranging -- 6.3.5.5 WRSN tagless localization -- References -- 7 RF/wireless indoor activity classification -- 7.1 Introduction -- 7.2 Future of Radio Frequency Activity Classification -- 7.3 Theory of RF Activity Classification -- 7.3.1 Sensing Techniques -- 7.3.2 Extraction of Useful Information -- 7.3.2.1 Mean and variance -- 7.3.2.2 Frequency domain analysis -- 7.3.2.3 Fixed and adaptive filters -- 7.3.2.4 Wavelet transformation -- 7.3.2.5 Spectral energy -- 7.3.2.6 Spectral entropy -- 7.3.2.7 Fractal analysis -- 7.3.2.8 Empirical mode decomposition -- 7.3.3 Turning Data Into Knowledge -- 7.3.3.1 Neural network -- 7.3.3.2 Probabilistic neural network -- 7.3.3.3 Support vector machine. , 7.3.3.4 k-Nearest neighbor -- 7.3.3.5 Bayesian classifier -- 7.4 Case Study/Application -- 7.4.1 Sleep Study -- 7.4.1.1 Sleep position variation with RCS -- 7.4.1.2 Sleep disorders -- 7.4.1.3 PRMS architecture -- 7.4.1.4 Sleep disorder monitoring algorithm -- 7.4.2 Personal Identification -- 7.4.3 Occupancy Sensing -- 7.4.4 Animal Activity Monitoring -- 7.4.4.1 Motion classification of animals (lizard) -- 7.4.5 Fall Detection -- 7.5 Conclusion -- References -- Index -- Back Cover.

Additional Edition: ISBN 0-12-802903-X

Additional Edition: ISBN 0-12-809218-1

Language: English

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Format: 1 online resource (xiv, 223 pages) : , illustrations

ISBN: 9781118742792 , 1118742796 , 9781118742556 , 1118742559 , 9781299848795 , 1299848796 , 9781118742563 , 1118742567

Content: "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 technology integral to the future healthcare of the elderly, the text presents a full-bodied history of this technology, introduces current developments, and reveals future trends. Practicing engineers and researchers will discover the theory and technical details of related technologies, as well as a wide range of applications in healthcare, military, and industry"--

Content: "This book reviews the microwave radar for both noncontact vital sign detection and mechanical movement measurement"--

Note: 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.

Additional Edition: Print version: Li, Changzhi, 1982- Microwave noncontact motion sensing and analysis ISBN 9780470642146

Language: English

Keywords: Electronic books. ; Electronic books. ; Electronic books.

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9781118742556

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9781118742556

URL: https://onlinelibrary.wiley.com/doi/book/10.1002/9781118742556

UID:

Format: 169 Seiten , 17 cm

Edition: 第一版

Original writing title: 孔子的故事

Original writing person/organisation: 李長之

Original writing publisher: 香港 : 三聯書店(香港)

ISBN: 9789620444593 , 9620444590

Note: Includes bibliographical references , In traditional Chinese script

Language: Chinese

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Format: viii,380 Seiten , 19 cm

Original writing title: 司馬遷之人格與風格

Original writing person/organisation: 李長之

Original writing publisher: 香港 : 太平書局

Content: 本書是對司馬遷的人格與風格的研究，內容包括司馬遷及其時代精神、司馬遷的父親、司馬遷和孔子、司馬遷之體驗與創作、司馬遷的精神寶藏之內容等。

Language: Chinese

UID:

Format: 4, 380 S.

Edition: Tai 4 ban

Original writing edition: 臺4版

Original writing title: 司馬遷之人格與風格

Original writing person/organisation: 李長之

Original writing publisher: 臺北 : 臺灣開明書店

Note: Verf. ermittelt

Language: Chinese

Subjects: Comparative Studies. Non-European Languages/Literatures

Keywords: Biografie

UID:

Format: 2, 3, 231 S.

Edition: [Nachdr. der Ausg.] Shanghai, Bei xin shu ju, 1936

Original writing edition: [據]上海北新書局1936年[版影印]

Original writing title: 魯迅批判

Original writing person/organisation: 李長之

Original writing publisher: [名古屋?] : 采華書林

Language: Chinese

Subjects: Comparative Studies. Non-European Languages/Literatures

UID:

Format: 176 Seiten.

Edition: Di 1 ban, di 6 ci yin shua

Original writing edition: 第1版，第6次印刷

Original writing title: 詩經試譯.

Original writing person/organisation: 李長之

Original writing publisher: 上海 : : 古典文學出版社.

Note: Text in Chinesisch

Language: Chinese

Subjects: Comparative Studies. Non-European Languages/Literatures

UID:

Format: 138 Seiten.

Edition: Ping ban

Original writing edition: 平版

Original writing title: 韓愈 /

Original writing person/organisation: 李長之

Original writing publisher: 上海 : : 勝利出版公司,

Series Statement: Zhong guo li dai ming xian gu shi ji. Di san ji, xue shu xian jin

Note: Text in Chinesisch

Language: Chinese

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Format: XIV, 219 S. , Ill., graph. Darst.

ISBN: 9780470642146

Series Statement: Wiley series in microwave and optical engineering

Note: Includes index

Language: English

Subjects: Engineering

URL: http://catalogimages.wiley.com/images/db/jimages/9780470642146.jpg

UID:

Format: 2, 110 S. : , Ill.

Edition: Di 1 ban, di 3 ci yin shua

Original writing edition: 第1版，第3次印刷

Original writing title: 孔子的故事 /

Original writing person/organisation: 李长之

Original writing publisher: 上海 : : 上海人民出版社.

Note: Text in Chines.

Language: Chinese