Coverart for item
The Resource Smart Sensors for Health and Environment Monitoring

Smart Sensors for Health and Environment Monitoring

Label
Smart Sensors for Health and Environment Monitoring
Title
Smart Sensors for Health and Environment Monitoring
Creator
Subject
Language
eng
Member of
Cataloging source
MiAaPQ
Literary form
non fiction
Nature of contents
dictionaries
Series statement
KAIST Research Ser
Smart Sensors for Health and Environment Monitoring
Label
Smart Sensors for Health and Environment Monitoring
Link
http://libproxy.rpi.edu/login?url=https://ebookcentral.proquest.com/lib/rpi/detail.action?docID=3567888
Publication
Copyright
Related Contributor
Related Location
Related Agents
Related Authorities
Related Subjects
Related Items
Carrier category
online resource
Carrier category code
cr
Carrier MARC source
rdacarrier
Color
multicolored
Content category
text
Content type code
txt
Content type MARC source
rdacontent
Contents
  • "Contents" -- "Part I Bio-Medical Sensors" -- "1 A CNT Network Platform Integrated on the CMOS Circuit" -- "Abstract" -- "1 Introduction" -- "2 Methods of Immobilization of the Probe Molecule" -- "3 Mechanisms for Modulation of the Channel Resistance" -- "4 Gold Electrodes Compatible with CMOS Backend Process" -- "5 Padless Chip" -- "6 Summary and Future Work" -- "Acknowledgments" -- "References" -- "2 Exhaled Breath Sensors" -- "Abstract" -- "1 Introduction" -- "1.1 Disease Markers in Exhaled Breath Gases" -- "1.2 Various Tools for Analysis of Exhaled Breath Gases" -- "2 Exhaled Breath Sensors for Diagnostic Application" -- "2.1 Halitosis" -- "2.2 Diabetes" -- "2.3 Fat Burning" -- "2.4 Lung Cancer" -- "3 Summary and Future Perspective" -- "Acknowledgement" -- "References" -- "3 Implantable Neural Sensors for Brain Machine Interface" -- "Abstract" -- "1 Introduction" -- "2 Design Approaches and Rationale" -- "3 Neural Recording IC and Subsystem Element Design" -- "4 Wireless Telemetry and Power Delivery Schemes" -- "5 Encapsulation Issues in Implantable Neural Microsystems" -- "6 Summary and Conclusions" -- "Acknowledgements" -- "References" -- "4 Implantable Brain Interface: High-Density Microelectrode Array for Neural Recording" -- "Abstract" -- "1 Introduction" -- "2 Overview of Implantable Microelectrode Array for Neural Recording" -- "3 Silicon-Based Microelectrode Arrays" -- "4 Polymer-Based Flexible Microelectrode Arrays" -- "5 Challenges for High-Density Neural Recording Microelectrode" -- "5.1 Reactive Glial Encapsulation of Implanted Microelectrode Arrays" -- "5.2 Reduction of Electrode Geometry" -- "5.3 Surgical Procedures for Implantation of Electrode Arrays" -- "5.4 Large-Scale Neural Recording System" -- "6 Conclusions and Perspectives" -- "Acknowledgements" -- "References"
  • "5 Optical Coherence Tomography for Clinical Applications" -- "Abstract" -- "1 Introduction" -- "2 High-Speed and High-Sensitive OCT" -- "3 Imaging Modes of OCT" -- "3.1 Intensity Imaging" -- "3.2 Functional OCT" -- "3.2.1 Polarization Sensitive OCT" -- "3.2.2 Doppler OFDI" -- "4 Clinical Applications" -- "4.1 Ophthalmic OCT" -- "4.2 Endoscopic OCT" -- "4.2.1 Intracoronary OFDI" -- "4.2.2 Gastrointestinal OFDI" -- "Acknowledgements" -- "References" -- "Part II Sensors for Environmental Monitoring" -- "6 Microfabricated and Nanoengineered Chemical Sensors for Air Quality Monitoring System" -- "Abstract" -- "1 Introduction" -- "1.1 Standard Technologies for Air Quality Monitoring" -- "1.2 Compact Electronic Air Quality Sensors and Technical Challenges" -- "2 MEMS-Based Chemical and Gas Sensors" -- "2.1 Principles and Applications of MEMS Technology" -- "2.2 MEMS Fabrication Processes" -- "2.3 MEMS-Based Chemical Sensors" -- "2.4 MEMS-Based Gas Sensors" -- "3 One-Dimensional Nanomaterial-Based Gas Sensors" -- "3.1 Unique Properties of Nanomaterials" -- "3.2 1D Nanomaterials for Gas Sensing Applications" -- "4 Controlled Synthesis of One-Dimensional Nanomaterials on MEMS Platform for Gas Sensing Application" -- "4.1 Assembly of 1D Nanomaterials" -- "4.2 Localized Temperature Control for Nanomaterial Synthesis for Integrated Gas Sensor Applications" -- "5 Conclusion" -- "Acknowledgements" -- "References" -- "7 Miniaturized VOC Detectors for Monitoring Indoor Air Quality" -- "Abstract" -- "1 Indoor Air Quality and VOCs" -- "2 General VOC Measurement Procedure and Limitations" -- "3 Miniaturized VOC Detectors" -- "3.1 Photo Ionization Detector" -- "3.1.1 Detection Mechanism" -- "3.1.2 Miniaturized PID" -- "3.2 Flame Ionization Detector" -- "3.2.1 Detection Mechanism" -- "3.2.2 Miniaturized FID" -- "3.3 Combustion Sensor" -- "3.3.1 Detection Mechanism"
  • "3.3.2 Miniaturized Combustion Sensor" -- "3.4 Thermal Conductivity Detector" -- "3.4.1 Detection Mechanism" -- "3.4.2 Miniaturized TCD" -- "3.5 Electrochemical VOC Sensor" -- "3.5.1 Detection Mechanism" -- "3.5.2 Miniaturized Electrochemical VOC Sensor" -- "3.6 Semiconductor-Type VOC Sensor" -- "3.6.1 Detection Mechanism" -- "3.6.2 Miniaturized Semiconductor-Type VOC Sensor" -- "4 Further Improvement of the Miniaturized VOC Detector" -- "Acknowledgments" -- "References" -- "8 Heaterless Operation of Chemoresistive Gas Sensors for Further Functional Convergence" -- "Abstract" -- "1 Operation Principle of Chemoresistive Gas Sensors" -- "2 High Operation Temperatures and Related Problems" -- "3 Heaterless Operation of Chemoresistive Gas Sensors" -- "4 Room Temperature Chemoresistive Gas Sensors" -- "4.1 Room Temperature Operation of Chemoresistive Metal Oxide Gas Sensors" -- "4.2 Room Temperature Chemoresistive Gas Sensors Based on 2-Dimensional Nanomaterials" -- "5 Toward Further Functional Convergence" -- "Acknowledgements" -- "References" -- "9 Sensors and Devices for Heavy Metal Ion Detection" -- "Abstract" -- "1 Introduction" -- "2 Fluorescent Hazardous Metal Ion Sensors" -- "2.1 Turn-on Fluorescent Sensors for Hg2+ Ions" -- "2.2 Turn-on Fluorescent Sensors for Cr3+ Ions" -- "3 Electrochemical Sensing Systems" -- "3.1 Working Principles of Electrochemical Sensors" -- "3.2 Commercialized Trace Metal Detection Systems" -- "3.3 Miniaturized Electrochemical Sensors" -- "3.4 Electro-Chemo-Mechanical Sensing Systems" -- "4 Conclusion" -- "Acknowledgements" -- "References" -- "10 A Fatigue Crack Detection Methodology" -- "Abstract" -- "1 Overview of Current Fatigue Crack Detection Techniques" -- "2 Overview of Nonlinear Ultrasonic-Based Damage Detection Techniques" -- "2.1 Sources of Nonlinearity" -- "2.2 Nonlinear Ultrasonic Phenomenon"
  • "3 Ultrasonic Nonlinear Modulation Technique" -- "4 Fatigue Crack Detection Algorithm" -- "5 Experimental Validation" -- "5.1 Hardware Configuration" -- "5.2 Application 1: Aluminum Plate" -- "5.3 Application 2: Aircraft Fitting-Lug" -- "5.3.1 Damage Detection Under Temperature and Loading Variations" -- "5.4 Conclusion" -- "Acknowledgements" -- "References" -- "Part III Wireless Connectivity Solutionsfor Sensors" -- "11 Data Networking for Autonomous Fatigue Crack Detection" -- "Abstract" -- "1 Introduction" -- "1.1 Fatigue Crack Detection" -- "1.2 Automatic Fatigue Detection: Networking Perspective" -- "1.2.1 Medium Access Control (MAC)" -- "1.2.2 Wake-up Scheduling" -- "1.2.3 Time Synchronization" -- "2 Medium Access Control" -- "2.1 Two Methods: Duty-Cycling Versus Wake-up Radio" -- "2.2 Duty-Cycled MAC" -- "2.2.1 Challenges" -- "2.2.2 Asynchronous Versus Synchronous" -- "2.3 WuR-Based MAC" -- "2.3.1 Challenges and Design Choices" -- "2.3.2 Taxonomy and Example Protocols" -- "2.4 Comparison: Duty-Cycled Versus Wake-up Radio" -- "3 Wake-up Scheduling" -- "3.1 Motivation" -- "3.2 D-MAC [16]" -- "3.3 Fast Path Algorithm [17]" -- "3.4 Robust Multi Scheduling (RMS) [18]" -- "4 Time Synchronization" -- "4.1 Why Synchronization and TPSN" -- "4.2 TPSN: Protocol Behaviors" -- "5 Conclusion" -- "Acknowledgements" -- "References" -- "12 Energy-Efficient Sensing Data Delivery for Low Power Environmental Sensors" -- "Abstract" -- "1 Introduction" -- "2 Medium Access Control (MAC)" -- "2.1 Design Guidelines and Challenges" -- "2.2 Taxonomy: MAC Based on Duty Cycling" -- "2.2.1 Duty Cycling" -- "2.2.2 Taxonomy" -- "2.3 S-MAC [10] and T-MAC [9]" -- "2.4 B-MAC [12] and X-MAC [13]" -- "2.5 SCP-MAC [14]" -- "2.6 Ri-MAC [15]" -- "2.7 Other MACs" -- "3 Routing, Wake-up Scheduling, and Time Synchronization" -- "3.1 Routing" -- "3.1.1 Data-Centric Routing"
  • "3.1.2 Non-Data-Centric Routing" -- "3.2 Wake-up Scheduling" -- "3.2.1 Motivation and Requirements" -- "3.2.2 Examples" -- "3.3 Time Synchronization" -- "3.3.1 Challenges and Taxonomy" -- "3.3.2 Existing Methods" -- "4 Summary" -- "Acknowledgments" -- "References" -- "13 Coding for Wireless Sensor Networks" -- "Abstract" -- "1 Introduction" -- "2 Related Work" -- "3 Channel and Network Model" -- "3.1 Wireline Channel" -- "3.2 Wireless Channel" -- "4 Coding for Wireless Sensor Networks" -- "4.1 New Achievable Scheme" -- "5 Performance Comparison" -- "5.1 Hardware" -- "5.2 Simulation Results" -- "6 Conclusion" -- "Acknowledgements"
http://library.link/vocab/cover_art
https://contentcafe2.btol.com/ContentCafe/Jacket.aspx?Return=1&Type=S&Value=9789401799812&userID=ebsco-test&password=ebsco-test
Dimensions
unknown
http://library.link/vocab/discovery_link
{'f': 'http://opac.lib.rpi.edu/record=b4383848'}
Extent
1 online resource (321 pages)
Form of item
online
Isbn
9789401799812
Media category
computer
Media MARC source
rdamedia
Media type code
c
Sound
unknown sound
Specific material designation
remote

Library Locations

    • Folsom LibraryBorrow it
      110 8th St, Troy, NY, 12180, US
      42.729766 -73.682577
Processing Feedback ...