![]() 11.5 BioSuitTM: Inspired Technology Roadmap for Space and Earth Applications. 11.3.2 BioSuit Development: A Wearable Second Skin. 11.2 A Brief History of Wearable Technology for Space. 11.1 Introduction: Exploration and Discovery. 10.2 Designing a Wearable Systems for Emergency and Work: Main Problems and Constraints. 9.4 Sensing Constraints and Possibilities. 9.3.4 ``Emergency/Disaster´´ Monitoring Systems. 9.3 Present and Possible Clinical Applications. 8.2.2 Using Smart Clothes for Body Signal Measurements. 7.6.2 Thermo and Electromechanical Actuation. 7.4 Active Fibre Electronics and Woven Logics. 7.2 Fibres and Textiles for Bioelectrodes. 5.4.7.2Exploration of Different Sensor Types. 5.4.2.3Parametrization and Feature Selection. 5.4.2.1Preprocessing and Feature Extraction. 5.2System Architecture and Signal Processing Flow. 4.6 Conclusion and Next Generation Platforms. 4.5 MicroLEAP Application: Episodic Sampling. 4.2.3 Processing Module and Data Storage. ![]() 4.1 System Architecture Requirements for Wireless Health Platforms. Chapter 3: Wireless Communication Technologies for Wearable Systems. ![]() 2.8 Development of New Technologies for Wearable Thermopiles. 2.6 Hybrid Thermoelectric-Photovoltaic Wearable Energy Harvesters. 2.4 Human Body as a Heat Source for a Wearable Thermoelectric Power Supply. 2.3 Calculated Characteristics of Wearable TEGs. 2.2 Principles of Energy Harvesting by Using Human Body Heat. ![]() 2.1 Introduction to Energy Harvestingin Wearable Systems. 1.3.1.4Plethysmography Based on Piezoelectric Sensor. 1.3.1.3Pneumography Based on Piezoresistive Sensor. 12.5.3 AmI for Patients with Mental Disorders (Bipolar Disorder). 13.3 Present Situation and Competitors in Terms of RandD and Commercialization. 13.1.2.5 Interface: Including Displaying. ![]()
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