رکورد قبلیرکورد بعدی

" Fiber-optic sensors for biomedical applications / "


Document Type : BL
Record Number : 852713
Main Entry : Tosi, Daniele
Title & Author : Fiber-optic sensors for biomedical applications /\ Daniele Tosi, Guido Perrone.
Publication Statement : Boston, MA :: Artech House,, [2018]
Series Statement : Artech House applied photonics series
Page. NO : 1 online resource :: illustrations
ISBN : 1523119292
: : 1630814954
: : 9781523119295
: : 9781630814953
: 1630811521
: 9781630811525
Bibliographies/Indexes : Includes bibliographical references and index.
Contents : Fiber-Optic Sensors for Biomedical Applications; Introduction; Chapter 1 Fundamentals of Wave Optics and Optical Fibers; 1.1 Introduction; 1.2 Electromagnetic Waves; 1.3 Reflection and Refraction of Plane Waves; 1.4 Dielectric Waveguides; 1.5 Optical Fibers; 1.6 Practical Aspects in Using Optical Fibers; Selected Bibliography; Chapter 2 Devices for Fiber Optic Sensing Applications; 2.1 Introduction; 2.2 Light Sources; 2.2.1 Light-Emitting Diodes; 2.2.2 Laser Diodes; 2.3 Photodiodes; 2.4 Isolators and Circulators; 2.5 Couplers; 2.5.1 Wavelength-Insensitive Couplers (WINCs).
: 10.2.2 Plastic Fiber-Based Systems10.3 White Light-Based Setup; 10.3.1 Setup and Instrumentation; 10.3.2 Time/Wavelength Division Multiplexing; 10.3.3 Cepstrum Division Multiplexing; 10.4 Scanning-Source Interrogators; 10.5 Multiparametric Sensors; 10.6 Distributed Sensing Units; 10.7 Commercial Devices; 10.8 Conclusions; References; Chapter 11 Interrogation Software; 11.1 FBG Tracking Direct Methods; 11.1.1 Centroid; 11.1.2 Bandwidth Tracking; 11.1.3 Polynomial Fitting; 11.2 EFPI Direct Tracking; 11.2.1 Short-Cavity EFPI; 11.2.2 Long-Cavity EFPI; 11.3 Direct Karhunen-Loeve Transform.
: 2.5.2 Wavelength-Sensitive Couplers2.6 Polarization Optics; 2.7 Optical Spectrum Analyzers and Spectrometers; References; Chapter 3 Principles of Fiber Optic Sensing; 3.1 Definitions; 3.2 Classification; 3.3 Working Principles; 3.4 Sensor Performance Analysis; 3.5 Application-Integrated Design; References; Chapter 4 Intensity-Based Sensors; 4.1 Introduction; 4.2 Sensors Exploiting the Modulation of Losses; 4.3 Sensors Based on Coupling Loss; References; Chapter 5 Fiber Bragg Gratings; 5.1 Description; 5.2 Uniform FBGs; 5.3 FBG Thermal and Mechanical Response; 5.4 FBG Arrays.
: 5.5 Chirped and Apodized FBG5.6 Tilted FBG; 5.7 Fabrication of FBGs; 5.7.1 Photosensitivity; 5.7.2 Phase Mask Inscription; 5.7.3 Interfering Beams; 5.7.4 Draw-Tower Method; 5.6.5 Point-by-Point; 5.8 FBG Package; 5.9 Recent Advances; References; Chapter 6 Distributed Sensors; 6.1 Introduction; 6.2 OFDR Theory; 6.2.1 Demonstration; 6.2.2 Detection; 6.3 Microwave Photonics (MWP); 6.4 Sensing Elements; 6.5 Practical Considerations; 6.6 Perspectives; References; Chapter 7 Fabry-Perot Interferometers; 7.1 Fabry-Perot Interferometer (FPI) Principle; 7.2 FPI-Based Sensors; 7.3 FPI/FBG Dual Sensors.
: 7.4 Fabrication of FPI Sensors7.5 Self-Mixing Interferometry; 7.6 Other Interferometers; References; Chapter 8 Fiber-Optic Biosensors Principles; 8.1 Introduction; 8.2 Sensors Exploiting the Evanescent Field Absorption; 8.3 Sensors Exploiting Surface Plasmon Resonance; 8.3.1 SPR Sensors in Bulk Optics; 8.3.2 SPR Sensors in Optical Fibers; 8.3.3 SPR Sensors in Photonic Crystal Fibers; References; Chapter 9 Optical Fiber Spectroscopy; References; Chapter 10 Fiber Optic Sensor Networks; 10.1 Introduction; 10.2 Amplitude Detection Methods; 10.2.1 FBG and Fabry-Perot Interferometers.
Abstract : This authoritative new resource presents fiber optic sensors and their applications in medical device design and biomedical engineering. Readers gain an understanding of which technology to use and adopt, and how to connect technologies with their respective applications. This book explores the innovation of diagnostics and how to use diagnostic tools.n nPrinciples of fiber optic sensing are covered and include details about intensity-based sensors, fiber bragg gratings, distributed sensors, and fabry-perot interferometers. This book explores interrogation software, standards for medical sensors, and discusses protocols and tools for validation. Various medical device engineering and applications are examined, including sensor catheterization, cardiovascular sensors, diagnostic in gastroscopy, urology, neurology, sensing in thermal ablation. Applications and detection of SPR sensors are presented, along with minimally invasive robotic surgery, smart textiles, wearable sensors and fiber-optic spectrometric sensors. This is a one-stop reference on fiber optic sensors for biomed applications.
Subject : Biomedical engineering.
Subject : Biosensors.
Subject : Optical fiber detectors.
Subject : Biomedical engineering.
Subject : Biosensors.
Subject : HEALTH FITNESS-- Holism.
Subject : HEALTH FITNESS-- Reference.
Subject : MEDICAL-- Alternative Medicine.
Subject : MEDICAL-- Atlases.
Subject : MEDICAL-- Essays.
Subject : MEDICAL-- Family General Practice.
Subject : MEDICAL-- Holistic Medicine.
Subject : MEDICAL-- Osteopathy.
Subject : Optical fiber detectors.
Subject : Biosensing Techniques.
Subject : Fiber Optic Technology.
Dewey Classification : ‭610.28‬
LC Classification : ‭R857.B54‬
NLM classification : ‭2018 B-903‬
: ‭QT 36.4‬
Added Entry : Perrone, Guido, (Professor of Electronics and Telecommunications)
کپی لینک

پیشنهاد خرید
پیوستها
Search result is zero
نظرسنجی
نظرسنجی منابع دیجیتال

1 - آیا از کیفیت منابع دیجیتال راضی هستید؟