Monday, May 14, 2018

SMART SENSORS FOR INDUSTRIAL APPLICATIONS By Krzysztof Iniewski

SMART SENSORS FOR INDUSTRIAL APPLICATIONS By Krzysztof Iniewski
Contents:
Part I Photonic and Optoelectronics Sensors
Chapter 1 Optical Fiber Sensors: Devices and Techniques
Chapter 2 Microstructured and Solid Polymer Optical Fiber Sensors
Chapter 3 Optical Fiber Sensors and Interrogation Systems for Interaction Force Measurements in Minimally Invasive Surgical Devices.
Chapter 4 Recent Advances in Distributed Fiber-Optic Sensors Based on the Brillouin Scattering Effect.
Chapter 5 Silicon Microring Sensors.
Chapter 6 Laser Doppler Velocimetry Technology for Integration and Directional Discrimination
Chapter 7 Vision-Aided Automated Vibrometry for Remote Audio–Visual Range Sensing
Chapter 8 Analytical Use of Easily Accessible Optoelectronic Devices: Colorimetric Approaches Focused on Oxygen Quantification
Chapter 9 Optical Oxygen Sensors for Micro- and Nanofluidic Devices.
Chapter 10 Multidirectional Optical Sensing Using Differential Triangulation
Part II Infrared and thermal Sensors
Chapter 11 Measurement of Temperature Distribution in Multilayer Insulations between 77 and 300 K Using Fiber Bragg Grating Sensor
Chapter 12 Thin Film Resistance Temperature Detectors
Chapter 13 The Influence of Selected Parameters on Temperature Measurements Using a Thermovision Camera
Chapter 14 Adaptive Sensors for Dynamic Temperature Measurements
Chapter 15 Dual-Band Uncooled Infrared Microbolometer
Chapter 16 Sensing Temperature inside Explosions
Part III Magnetic and Inductive Sensors
Chapter 17 Accurate Scanning of Magnetic Fields
Chapter 18 Low-Frequency Search Coil Magnetometers.
Chapter 19 Inductive Coupling–Based Wireless Sensors for High-Frequency Measurements.
Chapter 20 Inductive Sensor for Lightning Current Measurement Fitted in Aircraft Windows
Chapter 21 Technologies for Electric Current Sensors
Chapter 22 Ferrofluids and Their Use in Sensors.
Part IV Sound and Ultrasound Sensors
Chapter 23 Low-Cost Underwater Acoustic Modem for Short-Range Sensor Networks
Chapter 24 Integrating Ultrasonic Standing Wave Particle Manipulation into Vibrational Spectroscopy Sensing Applications
Chapter 25 Wideband Ultrasonic Transmitter and Sensor Array for In-Air Applications
Chapter 26 Sensing Applications Using Photoacoustic Spectroscopy
Part V Piezoresistive, Wireless, and Electrical Sensors
Chapter 27 Piezoresistive Fibrous Sensor for On-Line Structural Health Monitoring of Composites
Chapter 28 Structural Health Monitoring Based on Piezoelectric Transducers: Analysis and Design Based on the Electromechanical Impedance
Chapter 29 Microwave Sensors for Non-Invasive Monitoring of Industrial Processes
Chapter 30 Microwave Reflectometry for Sensing Applications in the Agrofood Industry
Chapter 31 Wearable PTF Strain Sensors.
Chapter 32 Application of Inertial Sensors in Developing Smart Particles
Preface:
Sensor technologies are a rapidly growing topic in science and product design, embracing developments in electronics, photonics, mechanics, chemistry, and biology. Their presence is widespread in everyday life; they sense sound, movement, optical, or magnetic signals. The demand for portable and lightweight sensors is relentless, filling various needs in several industrial environments. The book is divided into five parts. Part I deals with photonics and optoelectronics sensors. Various developments in optical fibers, Brillouin detection, and Doppler effect analysis are described. Oxygen detection, directional discrimination, and optical sensing are some key technological applications. Part II deals with infrared and thermal sensors. Bragg gratings, thin films, and microbolometers are described. Temperature measurements in industrial conditions, including sensing inside explosions, are widely covered. Part III deals with magnetic and inductive sensors. Magnetometers, inductive coupling ferro-fluidics are described. Magnetic field and inductive current measurements in various industrial conditions, including airplanes, are covered in detail. Part IV deals with sound and ultrasound sensors. Underwater acoustic modem, vibrational spectroscopy, and photoacoustics are described. Finally, Part V deals with piezo-resistive, wireless, and electrical sensors.

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