Advancement in Sensing Technology: New Developments and Practical Applications: Smart Sensors, Measurement and Instrumentation, cartea 1
Editat de Subhas Chandra Mukhopadhyay, Krishanthi P. Jayasundera, Anton Fuchsen Limba Engleză Hardback – 6 sep 2012
This book will be useful to a variety of readers, namely, Master and PhD degree students, researchers, practitioners, working on sensors and sensing technology. The book will provide an opportunity of a dedicated and a deep approach in order to improve their knowledge in this specific field.
| Toate formatele și edițiile | Preț | Express |
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| Paperback (1) | 642.36 lei 6-8 săpt. | |
| Springer Berlin, Heidelberg – 28 noi 2014 | 642.36 lei 6-8 săpt. | |
| Hardback (1) | 646.62 lei 6-8 săpt. | |
| Springer Berlin, Heidelberg – 6 sep 2012 | 646.62 lei 6-8 săpt. |
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Specificații
ISBN-13: 9783642321795
ISBN-10: 3642321798
Pagini: 350
Ilustrații: X, 326 p.
Dimensiuni: 155 x 235 x 25 mm
Greutate: 0.59 kg
Ediția:2013
Editura: Springer Berlin, Heidelberg
Colecția Springer
Seria Smart Sensors, Measurement and Instrumentation
Locul publicării:Berlin, Heidelberg, Germany
ISBN-10: 3642321798
Pagini: 350
Ilustrații: X, 326 p.
Dimensiuni: 155 x 235 x 25 mm
Greutate: 0.59 kg
Ediția:2013
Editura: Springer Berlin, Heidelberg
Colecția Springer
Seria Smart Sensors, Measurement and Instrumentation
Locul publicării:Berlin, Heidelberg, Germany
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Public țintă
ResearchCuprins
1: Ecological Monitoring Using Wireless Sensor Networks — Overview, Challenges, and Opportunities
.-
#2: Development of an Embedded System-based Gateway for Environmental Monitoring in .-
#3: Experimental Research Platform for Structural Health Monitoring
.-
#4: A Review of Cooperative Spectrum Sensing in Cognitive Radios
.-
#5: Dielectric Characterisation of Lipid Droplet Suspensions Using the Small Perturbation Technique
.-
#6: Dielectric Properties of Wood for Improved Internal Imaging
.-
#7: Laser-induced Breakdown Spectroscopy Measurements for Dielectric Materials and Metals
.-
#8: Microdevice With Half-Ring Shaped GMR Sensors For Magnetic Bead Manipulation And Detection
.-
#9: Design of Induction Gradiometer for MCG Measurement
.-
#10: Electroacoustic Model Based Pneumatic Fill-level Measurement For Fluids And Bulk Solids
.-
#11: New developments in Electrode Materials for Electrochemical Sensors
.-
#12: Optical Fiber Sensors Based on Lossy Mode Resonances
.-
#13: Ultrasonic Thermometry for Temperature Profiling of Heated Materials
.-
#14: Non-invasive Measurement of Blood Components: Sensors for an in-vivo Haemoglobin Measurement
.-
#15: Cloud Solutions Aimed At Homeland And Security Challenges
.-
#16: Formulation, Characterization and LPG -Sensing Application of CuO - Doped ZnO Thick Film Resistor
.-
#17: Synthesis of Cu-doped SnO2 Thin Films by Spray Pyrolysis for Gas Sensor Application
.-
#18: Nanocystalline In2O3 Thick Film Sensor.
#3: Experimental Research Platform for Structural HealthMonitoring
.-
#4: A Review of Cooperative Spectrum Sensing in Cognitive Radios
.-
#5: Dielectric Characterisation of Lipid Droplet Suspensions Using the Small Perturbation Technique
.-
#6: Dielectric Properties of Wood for Improved Internal Imaging
.-
#7: Laser-induced Breakdown Spectroscopy Measurements for Dielectric Materials and Metals
.-
#8: Microdevice With Half-Ring Shaped GMR Sensors For Magnetic Bead Manipulation And Detection
.-
#9: Design of Induction Gradiometer for MCG Measurement
.-
#10: Electroacoustic Model Based Pneumatic Fill-level Measurement For Fluids And Bulk Solids
.-
#11: New developments in Electrode Materials for Electrochemical Sensors
.-
#12: Optical Fiber Sensors Based on Lossy Mode Resonances
.-
#13: Ultrasonic Thermometry for Temperature Profiling of Heated Materials
.-
#14: Non-invasive Measurement of Blood Components: Sensors for an in-vivo Haemoglobin Measurement
.-
#15: Cloud Solutions Aimed At Homeland And Security Challenges
.-
#16: Formulation, Characterization and LPG -Sensing Application of CuO - Doped ZnO Thick Film Resistor
.-
#17: Synthesis of Cu-doped SnO2 Thin Films by Spray Pyrolysis for Gas Sensor Application
.-
#18: Nanocystalline In2O3 Thick Film Sensor.
#7: Laser-induced Breakdown Spectroscopy Measurements for Dielectric Materials and Metals
.-
#8: Microdevice With Half-Ring Shaped GMR Sensors For Magnetic Bead Manipulation And Detection
.-
#9: Design of Induction Gradiometer for MCG Measurement
.-
#10: Electroacoustic Model Based Pneumatic Fill-level Measurement ForFluids And Bulk Solids
.-
#11: New developments in Electrode Materials for Electrochemical Sensors
.-
#12: Optical Fiber Sensors Based on Lossy Mode Resonances
.-
#13: Ultrasonic Thermometry for Temperature Profiling of Heated Materials
.-
#14: Non-invasive Measurement of Blood Components: Sensors for an in-vivo Haemoglobin Measurement
.-
#15: Cloud Solutions Aimed At Homeland And Security Challenges
.-
#16: Formulation, Characterization and LPG -Sensing Application of CuO - Doped ZnO Thick Film Resistor
.-
#17: Synthesis of Cu-doped SnO2 Thin Films by Spray Pyrolysis for Gas Sensor Application
.-
#18: Nanocystalline In2O3 Thick Film Sensor.
#8: Microdevice With Half-Ring Shaped GMR Sensors For Magnetic Bead Manipulation And Detection
.-
#9: Design of Induction Gradiometer for MCG Measurement
.-
#10: Electroacoustic Model Based Pneumatic Fill-level Measurement For Fluids And Bulk Solids
.-
#11: New developments in Electrode Materials for Electrochemical Sensors
.-
#12: Optical Fiber Sensors Based on Lossy Mode Resonances
.-
#13: Ultrasonic Thermometry for Temperature Profiling of Heated Materials
.-
#14: Non-invasive Measurement of Blood Components: Sensors for an in-vivo Haemoglobin Measurement
.-
#15: Cloud Solutions Aimed At Homeland And Security Challenges
.-
#16: Formulation, Characterization and LPG -Sensing Application of CuO - Doped ZnO Thick Film Resistor
.-
#17: Synthesis of Cu-doped SnO2 Thin Films by Spray Pyrolysis for Gas Sensor Application
.-
#18: Nanocystalline In2O3 ThickFilm Sensor.
#9: Design of Induction Gradiometer for MCG Measurement
.-
#10: Electroacoustic Model Based Pneumatic Fill-level Measurement For Fluids And Bulk Solids
.-
#11: New developments in Electrode Materials for Electrochemical Sensors
.-
#12: Optical Fiber Sensors Based on Lossy Mode Resonances
.-
#13: Ultrasonic Thermometry for Temperature Profiling of Heated Materials
.-
#14: Non-invasive Measurement of Blood Components: Sensors for an in-vivo Haemoglobin Measurement
.-
#15: Cloud Solutions Aimed At Homeland And Security Challenges
.-
#16: Formulation, Characterization and LPG -Sensing Application of CuO - Doped ZnO Thick Film Resistor
.-
#17: Synthesis of Cu-doped SnO2 Thin Films by Spray Pyrolysis for Gas Sensor Application
.-
#18: Nanocystalline In2O3 Thick Film Sensor.
#11: New developments in Electrode Materials for Electrochemical Sensors
.-
#12: Optical Fiber Sensors Based on Lossy Mode Resonances
.-
#13: Ultrasonic Thermometry for Temperature Profiling of Heated Materials
.-
#14: Non-invasive Measurement of Blood Components: Sensors for an in-vivo Haemoglobin Measurement
.-
#15: Cloud Solutions Aimed At Homeland And Security Challenges
.-
#16: Formulation, Characterization and LPG -Sensing Application of CuO - Doped ZnO Thick Film Resistor
.-
#17: Synthesis of Cu-doped SnO2 Thin Films by Spray Pyrolysis for Gas Sensor Application
.-
#18: Nanocystalline In2O3 Thick Film Sensor.
#15: Cloud Solutions Aimed At Homeland And Security Challenges
.-
#16:Formulation, Characterization and LPG -Sensing Application of CuO - Doped ZnO Thick Film Resistor
.-
#17: Synthesis of Cu-doped SnO2 Thin Films by Spray Pyrolysis for Gas Sensor Application
.-
#18: Nanocystalline In2O3 Thick Film Sensor.
.-
#2: Development of an Embedded System-based Gateway for Environmental Monitoring in .-
#3: Experimental Research Platform for Structural Health Monitoring
.-
#4: A Review of Cooperative Spectrum Sensing in Cognitive Radios
.-
#5: Dielectric Characterisation of Lipid Droplet Suspensions Using the Small Perturbation Technique
.-
#6: Dielectric Properties of Wood for Improved Internal Imaging
.-
#7: Laser-induced Breakdown Spectroscopy Measurements for Dielectric Materials and Metals
.-
#8: Microdevice With Half-Ring Shaped GMR Sensors For Magnetic Bead Manipulation And Detection
.-
#9: Design of Induction Gradiometer for MCG Measurement
.-
#10: Electroacoustic Model Based Pneumatic Fill-level Measurement For Fluids And Bulk Solids
.-
#11: New developments in Electrode Materials for Electrochemical Sensors
.-
#12: Optical Fiber Sensors Based on Lossy Mode Resonances
.-
#13: Ultrasonic Thermometry for Temperature Profiling of Heated Materials
.-
#14: Non-invasive Measurement of Blood Components: Sensors for an in-vivo Haemoglobin Measurement
.-
#15: Cloud Solutions Aimed At Homeland And Security Challenges
.-
#16: Formulation, Characterization and LPG -Sensing Application of CuO - Doped ZnO Thick Film Resistor
.-
#17: Synthesis of Cu-doped SnO2 Thin Films by Spray Pyrolysis for Gas Sensor Application
.-
#18: Nanocystalline In2O3 Thick Film Sensor.
#3: Experimental Research Platform for Structural HealthMonitoring
.-
#4: A Review of Cooperative Spectrum Sensing in Cognitive Radios
.-
#5: Dielectric Characterisation of Lipid Droplet Suspensions Using the Small Perturbation Technique
.-
#6: Dielectric Properties of Wood for Improved Internal Imaging
.-
#7: Laser-induced Breakdown Spectroscopy Measurements for Dielectric Materials and Metals
.-
#8: Microdevice With Half-Ring Shaped GMR Sensors For Magnetic Bead Manipulation And Detection
.-
#9: Design of Induction Gradiometer for MCG Measurement
.-
#10: Electroacoustic Model Based Pneumatic Fill-level Measurement For Fluids And Bulk Solids
.-
#11: New developments in Electrode Materials for Electrochemical Sensors
.-
#12: Optical Fiber Sensors Based on Lossy Mode Resonances
.-
#13: Ultrasonic Thermometry for Temperature Profiling of Heated Materials
.-
#14: Non-invasive Measurement of Blood Components: Sensors for an in-vivo Haemoglobin Measurement
.-
#15: Cloud Solutions Aimed At Homeland And Security Challenges
.-
#16: Formulation, Characterization and LPG -Sensing Application of CuO - Doped ZnO Thick Film Resistor
.-
#17: Synthesis of Cu-doped SnO2 Thin Films by Spray Pyrolysis for Gas Sensor Application
.-
#18: Nanocystalline In2O3 Thick Film Sensor.
#7: Laser-induced Breakdown Spectroscopy Measurements for Dielectric Materials and Metals
.-
#8: Microdevice With Half-Ring Shaped GMR Sensors For Magnetic Bead Manipulation And Detection
.-
#9: Design of Induction Gradiometer for MCG Measurement
.-
#10: Electroacoustic Model Based Pneumatic Fill-level Measurement ForFluids And Bulk Solids
.-
#11: New developments in Electrode Materials for Electrochemical Sensors
.-
#12: Optical Fiber Sensors Based on Lossy Mode Resonances
.-
#13: Ultrasonic Thermometry for Temperature Profiling of Heated Materials
.-
#14: Non-invasive Measurement of Blood Components: Sensors for an in-vivo Haemoglobin Measurement
.-
#15: Cloud Solutions Aimed At Homeland And Security Challenges
.-
#16: Formulation, Characterization and LPG -Sensing Application of CuO - Doped ZnO Thick Film Resistor
.-
#17: Synthesis of Cu-doped SnO2 Thin Films by Spray Pyrolysis for Gas Sensor Application
.-
#18: Nanocystalline In2O3 Thick Film Sensor.
#8: Microdevice With Half-Ring Shaped GMR Sensors For Magnetic Bead Manipulation And Detection
.-
#9: Design of Induction Gradiometer for MCG Measurement
.-
#10: Electroacoustic Model Based Pneumatic Fill-level Measurement For Fluids And Bulk Solids
.-
#11: New developments in Electrode Materials for Electrochemical Sensors
.-
#12: Optical Fiber Sensors Based on Lossy Mode Resonances
.-
#13: Ultrasonic Thermometry for Temperature Profiling of Heated Materials
.-
#14: Non-invasive Measurement of Blood Components: Sensors for an in-vivo Haemoglobin Measurement
.-
#15: Cloud Solutions Aimed At Homeland And Security Challenges
.-
#16: Formulation, Characterization and LPG -Sensing Application of CuO - Doped ZnO Thick Film Resistor
.-
#17: Synthesis of Cu-doped SnO2 Thin Films by Spray Pyrolysis for Gas Sensor Application
.-
#18: Nanocystalline In2O3 ThickFilm Sensor.
#9: Design of Induction Gradiometer for MCG Measurement
.-
#10: Electroacoustic Model Based Pneumatic Fill-level Measurement For Fluids And Bulk Solids
.-
#11: New developments in Electrode Materials for Electrochemical Sensors
.-
#12: Optical Fiber Sensors Based on Lossy Mode Resonances
.-
#13: Ultrasonic Thermometry for Temperature Profiling of Heated Materials
.-
#14: Non-invasive Measurement of Blood Components: Sensors for an in-vivo Haemoglobin Measurement
.-
#15: Cloud Solutions Aimed At Homeland And Security Challenges
.-
#16: Formulation, Characterization and LPG -Sensing Application of CuO - Doped ZnO Thick Film Resistor
.-
#17: Synthesis of Cu-doped SnO2 Thin Films by Spray Pyrolysis for Gas Sensor Application
.-
#18: Nanocystalline In2O3 Thick Film Sensor.
#11: New developments in Electrode Materials for Electrochemical Sensors
.-
#12: Optical Fiber Sensors Based on Lossy Mode Resonances
.-
#13: Ultrasonic Thermometry for Temperature Profiling of Heated Materials
.-
#14: Non-invasive Measurement of Blood Components: Sensors for an in-vivo Haemoglobin Measurement
.-
#15: Cloud Solutions Aimed At Homeland And Security Challenges
.-
#16: Formulation, Characterization and LPG -Sensing Application of CuO - Doped ZnO Thick Film Resistor
.-
#17: Synthesis of Cu-doped SnO2 Thin Films by Spray Pyrolysis for Gas Sensor Application
.-
#18: Nanocystalline In2O3 Thick Film Sensor.
#15: Cloud Solutions Aimed At Homeland And Security Challenges
.-
#16:Formulation, Characterization and LPG -Sensing Application of CuO - Doped ZnO Thick Film Resistor
.-
#17: Synthesis of Cu-doped SnO2 Thin Films by Spray Pyrolysis for Gas Sensor Application
.-
#18: Nanocystalline In2O3 Thick Film Sensor.
Textul de pe ultima copertă
The book presents the recent advancements in the area of sensors and sensing technology, specifically in environmental monitoring, structural health monitoring, dielectric, magnetic, electrochemical, ultrasonic, microfluidic, flow, surface acoustic wave, gas, cloud computing and bio-medical.
This book will be useful to a variety of readers, namely, Master and PhD degree students, researchers, practitioners, working on sensors and sensing technology. The book will provide an opportunity of a dedicated and a deep approach in order to improve their knowledge in this specific field.
This book will be useful to a variety of readers, namely, Master and PhD degree students, researchers, practitioners, working on sensors and sensing technology. The book will provide an opportunity of a dedicated and a deep approach in order to improve their knowledge in this specific field.
Caracteristici
Demonstrates the concepts of different sensors technology through simulation, design and real implementations Provides a broad overview of advanced sensors technology Written by leading experts in the field