- Cover image
- Title page
- Copyright
- List of Contributors
- Introduction
- Chapter 1.1. Wearables: Fundamentals, Advancements, and a Roadmap for the Future
- Chapter 1.2. Social Aspects of Wearability and Interaction
- Chapter 1.3. Wearable Haptics
- Chapter 2.1. Wearable Bio and Chemical Sensors
- Chapter 2.2. Wearable Inertial Sensors and Their Applications
- Chapter 2.3. Application of Optical Heart Rate Monitoring
- Chapter 2.4. Measurement of Energy Expenditure by Body-worn Heat-flow Sensors
- Chapter 3.1. Knitted Electronic Textiles
- 1 From Fibers to Textile Sensors
- 2 The Interlaced Network
- 3 Textile Sensors for Physiological State Monitoring
- 4 Biomechanical Sensing
- 5 Non-Invasive Sweat Monitoring by Textile Sensors
- 6 Smart Fabrics and Interactive Textile Platforms for Remote Monitoring
- 7 System for Remote Rehabilitation
- 8 Systems for Emotional State Assessment
- 9 Conclusions
- References
- Chapter 3.2. Woven Electronic Textiles
- Chapter 3.3. Flexible Electronics from Foils to Textiles: Materials, Devices, and Assembly
- Chapter 4.1. Energy Harvesting at the Human Body
- 1 Introduction to Energy Harvesting Systems
- 2 Energy Harvesting from Temperature Gradient at the Human Body
- 3 Energy Harvesting from Foot Motion
- 4 Wireless Energy Transmission
- 5 Energy Harvesting from Light
- 6 Energy and Power Consumption Issues
- 7 Conclusions and Future Considerations
- Supplemental Material: Energy Harvesting at the Human Body
- References for the Supplemental Material
- References
- Chapter 4.2. Introduction to RF Energy Harvesting
- 1 RF Energy Harvesting Fundamentals and Practical Limitations
- 2 Impedance Mismatch, Losses, and Efficiency
- 3 Distribution of Harvested Power in a Realistic Environment
- 4 Charge Pump Rectifier Topologies
- 5 Effect of Load and Source Variations
- 6 Antenna-Rectifier Co-Design
- 7 Conclusion
- Acknowledgement
- References
- Chapter 4.3. Low-Power Integrated Circuit Design for Wearable Biopotential Sensing
- 1 Introduction
- 2 Biopotential Signals and Their Characteristics
- 3 Electrode-Body Interface and Electrode Noise
- 4 Low-Power Analog Circuit Design Techniques for Biopotential Sensors
- 5 Low-Power Design for ADCs
- 6 Low-Power Digital Circuit Design Techniques
- 7 Architectural Design for Low-Power Biopotential Acquisition
- 8 Practical Considerations
- 9 Conclusion
- References
- Chapter 5.1. Wearable Algorithms: An Overview of a Truly Multi-Disciplinary Problem
- Chapter 5.2. Mining Techniques for Body Sensor Network Data Repository
- Chapter 5.3. Modeling Physical Activity Behavior Change
- Chapter 6.1. Human Body Communication for a High Data Rate Sensor Network
- 1 Capacitive-Coupling Communication Through Human Body
- 2 Channel Properties of Human Body
- 3 Effects of Electrode’s Structure
- 4 Transmission Scheme of Human Body Communication
- 5 Analog Front-End for Human Body Communication
- 6 Performance of the Analog Front-End
- 7 Commercialization of Human Body Communication and its Challenges
- References
- Chapter 6.2. Channel Models for On-Body Communications
- Chapter 6.3. Trust Establishment in Wireless Body Area Networks
- Chapter 6.4. Wireless Body Area Networks
- Chapter 7.1. Fundamentals of Wearable Sensors for the Monitoring of Physical and Physiological Changes in Daily Life
- Chapter 7.2. Wearing Sensors Inside and Outside of the Human Body for the Early Detection of Diseases
- Chapter 7.3. Wearable and Non-Invasive Assistive Technologies
- Chapter 7.4. Detection and Characterization of Food Intake by Wearable Sensors
Wearable Sensors
Fundamentals, Implementation and Applications
Edited by
Edward Sazonov
Michael R. Neuman
-
No Comment
..................Content has been hidden....................
You can't read the all page of ebook, please click here login for view all page.