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市場調查報告書

全球光纖感測器市場預測及分析

Fiber Optic Sensors Global Market Forecast & Analysis 2016-2026

出版商 ElectroniCast 商品編碼 245023
出版日期 內容資訊 英文 866 Pages
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全球光纖感測器市場預測及分析 Fiber Optic Sensors Global Market Forecast & Analysis 2016-2026
出版日期: 2017年05月08日 內容資訊: 英文 866 Pages
簡介

本報告提供全球光纖感測器市場相關調查、地區、主要市場區隔、終端應用、檢測數量的種類,及各技術的預測資料、主要供應商的清單,包含Excel形式的市場預測資料庫,為您概述為以下內容。

第1章 摘要整理

第2章 光纖單點感測器檢測數量及應用市場預測

  • 概要
  • 市場預測:張力
  • 市場預測:氣溫
  • 市場預測:壓力
  • 市場預測:化學物質、氣體及液體
  • 市場預測:震動、音響及地震
  • 市場預測:位移、加速及接近
  • 市場預測:電場及磁場
  • 市場預測:旋轉

第3章 持續分散式光纖感測器市場預測

  • 概要
  • 製造/工廠市場預測
  • 土木/建設市場的預測
  • 軍事/航太/安全市場預測
  • 石油化學/能源/公共事業市場預測
  • 生物醫學/科學市場預測

第4章 光纖感測技術

  • 概要
  • 干涉測量光纖感測器
  • 強度光纖感測器
  • 偏振光纖感測器
  • FBG(光纖光柵)光纖感測器
  • 拉曼散射光纖感測器
  • 螢光光纖感測器
  • 布裡淵散射光纖感測器
  • 都卜勒測速儀
  • 光譜學
  • 波導光纖感測器
  • 光學感測器

第5章 競爭市場佔有率預測、主要供應商的清單

  • 概要
  • 光纖感測器及相關企業的清單(140家以上)

第6章 光纖通訊趨勢

  • 光纖網路技術趨勢
  • 零組件
    • 概要
    • 傳送器、接收器
    • 光放大器
    • 分散補償器
    • 光纖電纜
  • 設備、零件
    • 概要
    • 發送器、檢測器
    • VCSEL.收發器技術檢討
    • 光電ASIC
    • 調製器
    • 包裝
    • 光電IC

第7章 ElectroniCast的調查、分析方法

第8章 定義:縮寫、簡稱、一般用語

第9章 ElectroniCast的預測資料庫說明

市場預測資料庫:Excel計算表格

  • 全球
  • 南北美洲
  • 歐洲、中東、非洲(EMEA)、俄羅斯
  • 亞太地區(APAC)

圖表

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目錄

This is the ElectroniCast forecast of global market consumption of Fiber Optic Sensors. The quantitative market forecast data presented in this study report, covering the years 2016-2026, are segmented into the following geographic regions, plus a Global summary:

  • The Americas (North America, Central and South America)
  • EMEA (Europe, Middle Eastern countries, plus Africa)
  • APAC (Asia Pacific)

The market forecast data is presented and segmented in two main sections:

  • Fiber Optic Point Sensors: Component-Level
  • Distributed Continuous Fiber Optic Sensor Systems

ElectroniCast counts each Point fiber optic sensors as one unit; however, the volume/quantity (number of units) of Distributed fiber optic sensors is based on a complete optical fiber line and associated components, which are defined as a “system”.

Distributed fiber optic sensor systems involve the optic fiber with the sensors embedded with the fiber. ElectroniCast includes the optoelectronic (system board and/or module), connectors, optical fiber, cable (fiber jacket) and the sensor elements in this market forecast data.

Competition

Also included in this market forecast and analysis report from ElectroniCast is an extensive list of fiber optic sensor manufacturers and related companies, along with a matrix table classifying the types of sensor technologies of each competitor. Market share estimates for the leading competitors are also provided.

Fiber Optic Point Sensors

The ElectroniCast market forecast of the Fiber Optic Point Sensors is segmented by the following end-user applications:

  • Manufacturing Process/Factory
  • Civil Engineering/Construction (buildings, bridges, tunnels, etc)
  • Military/Aerospace/Security
  • Test & Measurement used in Telecommunication, CATV, Private/Enterprise
  • Biomedical/Science
  • Petrochemical/Energy/Utilities/Natural Resources
  • Automotive/Vehicle

Sensing/Measuring (Measurand)

The ElectroniCast Fiber Optic Point Sensor Forecast further segmented by the following sensing/measuring quantity (measurand) types:

  • Mechanical Strain
  • Temperature
  • Pressure
  • Chemical, Gas, Liquid
  • Vibration, Acoustic, Seismic
  • Displacement, Acceleration, Proximity
  • Electric and Magnetic Field - Fiber Optic Sensors
  • Rotation (such as Fiber Optic Gyroscopes: FOGs)

Extensive Technology Review

This report by ElectroniCast Consultants provides a very detailed review of applicable technologies, including:

  • Interferometry
  • Intensity
  • Polarization
  • Fiber Bragg Grating (FBG)
  • Raman back-scattering
  • Fluorescence
  • Brillouin waves
  • Doppler Anemometry
  • Spectroscopy
  • Waveguides/ Specialty Optical Fiber
  • Optrode

Distributed Continuous Sensors

The market forecast of the Distributed Continuous Sensors is further segmented by application and by technology, as follows:

  • Manufacturing Process/Factory
    • Interferometric
    • Raman back-scattering
    • Brillouin waves
  • Civil Engineering/Construction (buildings, bridges, tunnels, etc)
    • Interferometric
    • Raman back-scattering
    • Brillouin waves
  • Military/Aerospace/Security
    • Interferometric
    • Raman back-scattering
    • Brillouin waves
  • Petrochemical/Energy/Utilities/Natural Resources
    • Interferometric
    • Raman back-scattering
    • Brillouin waves
  • Biomedical/Science
    • Interferometric
    • Raman back-scattering
    • Brillouin waves

Table of Contents

1. Executive Summary

  • 1.1. Overview
  • 1.2. LEDs in Sensing/Detection and Analytical/Monitoring
  • 1.3. Fiber Optic Networks

2. Point Fiber Optic Sensor Measurand and Application Market Forecast

  • 2.1. Overview
  • 2.2. Point Fiber Optics Sensors Market Forecast: Strain
  • 2.3. Point Fiber Optics Sensors Market Forecast: Temperature
  • 2.4. Point Fiber Optics Sensors Market Forecast: Pressure
  • 2.5. Point Fiber Optics Sensors Market Forecast: Chemical, Gas and Liquid
  • 2.6. Point Fiber Optics Sensors Market Forecast: Vibration, Acoustic and Seismic
  • 2.7. Point Fiber Optics Sensors Market Forecast: Displacement, Acceleration and Proximity
  • 2.8. Point Fiber Optics Sensors Market Forecast: Electric and Magnetic Field
  • 2.9. Point Fiber Optics Sensors Market Forecast: Rotation

3. Distributed Fiber Optic Sensor Systems Market Forecast

  • 3.1. Overview
  • 3.2. Distributed Fiber Optic Sensors: Manufacturing/Factory Market Forecast
  • 3.3. Distributed Fiber Optic Sensors: Civil Engineering/Construction Forecast
  • 3.4. Distributed Fiber Optic Sensors: Military/Aerospace/Security Market Forecast
  • 3.5. Distributed Fiber Optic Sensors: Petrochemical/Energy/Utilities Forecast
  • 3.6. Distributed Fiber Optic Sensors: Biomedical/Science Forecast

4. Fiber Optic Sensor Technology

  • 4.1. Overview
  • 4.2. Interferometric Fiber Optic Sensors
  • 4.3. Intensity Fiber Optic Sensors
  • 4.4. Polarization Fiber Optic Sensors
  • 4.5. Fiber Bragg Grating (FBG) Fiber Optic Sensors
  • 4.6. Raman Scattering Fiber Optic Sensors
  • 4.7. Fluorescence Fiber Optic Sensors
  • 4.8. Brillouin Scattering Fiber Optic Sensors
  • 4.9. Doppler Anemometry
  • 4.10. Spectroscopy
  • 4.11. Waveguides Fiber Optic Sensors
  • 4.12. Optrode

5. Competitive Market Share Estimates by ElectroniCast and List of Selected Vendors

  • 5.1. Overview
  • 5.2. List of Fiber Optic Sensor and Related Companies (over 160 companies are listed)
  • 5.3. Fiber Optic Sensor Company / Product Matrix (over 160 companies are listed)

6. Optical Communication Trends

  • 6.1. Fiber Network Technology Trends
  • 6.2. Components
    • 6.2.1. Overview
    • 6.2.2. Transmitters and Receivers
    • 6.2.3. Optical Amplifiers
    • 6.2.4. Dispersion Compensators
    • 6.2.5. Fiber Cable
  • 6.3. Devices and Parts
    • 6.3.1. Overview
    • 6.3.2. Emitters and Detectors
    • 6.3.3. VCSEL & Transceiver Technology Review
    • 6.3.4. Optoelectronic Integrated Circuits / Photonic Integrated Circuits (PIC)
    • 6.3.5. Modulators

7. ElectroniCast Research Methodology

8. Definitions: Acronyms, Abbreviations, and General Terms

9. Market Forecast and Analysis Database Introduction/Explanation

List of Tables

  • 1.1.1. Distributed Fiber Sensor Global Forecast, By Region (Value Basis, $Million)
  • 1.1.2. Distributed Fiber Sensor Global Forecast, By Application (Value $Million)
  • 1.1.3. Point Fiber Sensor Global Forecast, By Region (Value Basis, $Million)
  • 1.1.4. Point Fiber Sensor Global Forecast, By Application (Value $Million)
  • 1.1.5. Point Fiber Sensor Global Forecast, By Measurand Function Type (Value $Million)
  • 1.2.1. LEDs in Sensing/Detection & Analytical/Monitoring Devices Global Forecast ($Million)
  • 1.3.1. OM3- and OM4-Specified Distances for Ethernet
  • 1.3.2. Physical Layer Specifications
  • 1.3.3. United States Broadband Plan - Goals
  • 1.3.4. Mexico FTTX Number of Lines, By Selected Operators in Mexico New Installation
  • 1.3.5. Licensed Local Fixed Carriers in Hong Kong
  • 1.3.6. Key specifications of the PC-1 Trans-Pacific System
  • 1.3.7. Features: Distributed Fiber Optic Sensor System Components
  • 1.4.4. Licensed Local Fixed Carriers in Hong Kong
  • 1.4.5. Key specifications of the PC-1 Trans-Pacific System
  • 1.4.6. Features: Distributed Continuous Fiber Optic Sensor System Components
  • 2.1.1. Point Fiber Optic Sensor Global Forecast, By Application (Value, Quantity, ASP)
  • 2.1.2. Point Fiber Optic Sensor America Forecast, By Application (Value, Quantity, ASP)
  • 2.1.3. Point Fiber Optic Sensor EMEA Forecast, By Application (Value, Quantity, ASP)
  • 2.1.4. Point Fiber Optic Sensor APAC Forecast, By Application (Value, Quantity, ASP)
  • 2.2.1. Strain Sensing Technology Attributes Summary
  • 2.2.2. Strain: Point Fiber Optic Sensor Global Forecast, By Application (Value, Quantity, ASP)
  • 2.2.3. Strain: Point Fiber Optic Sensor America Forecast, By Application (Value, Quantity, ASP)
  • 2.2.4. Strain: Point Fiber Optic Sensor EMEA Forecast, By Application (Value, Quantity, ASP)
  • 2.2.5. Strain: Point Fiber Optic Sensor APAC Forecast, By Application (Value, Quantity, ASP)
  • 2.3.1. Temperature: Point FO Sensor Global Forecast, By Application (Value, Quantity, ASP)
  • 2.3.2. Temperature: Point FO Sensor America Forecast, By Application (Value, Quantity, ASP)
  • 2.3.3. Temperature: Point FO Sensor EMEA Forecast, By Application (Value, Quantity, ASP)
  • 2.3.4. Temperature: Point FO Sensor APAC Forecast, By Application (Value, Quantity, ASP)
  • 2.4.1. Pressure: Point FO Sensor Global Forecast, By Application (Value, Quantity, ASP)
  • 2.4.2. Pressure: Point FO Sensor America Forecast, By Application (Value, Quantity, ASP)
  • 2.4.3. Pressure: Point FO Sensor EMEA Forecast, By Application (Value, Quantity, ASP)
  • 2.4.4. Pressure: Point FO Sensor APAC Forecast, By Application (Value, Quantity, ASP)
  • 2.5.1. Chemical: Point FO Sensor Global Forecast, By Application (Value, Quantity, ASP)
  • 2.5.2. Chemical: Point FO Sensor America Forecast, By Application (Value, Quantity, ASP)
  • 2.5.3. Chemical: Point FO Sensor EMEA Forecast, By Application (Value, Quantity, ASP)
  • 2.5.4. Chemical: Point FO Sensor APAC Forecast, By Application (Value, Quantity, ASP)
  • 2.6.1. Vibration: Point FO Sensor Global Forecast, By Application (Value, Quantity, ASP)
  • 2.6.2. Vibration: Point FO Sensor America Forecast, By Application (Value, Quantity, ASP)
  • 2.6.3. Vibration: Point FO Sensor EMEA Forecast, By Application (Value, Quantity, ASP)
  • 2.6.4. Vibration: Point FO Sensor APAC Forecast, By Application (Value, Quantity, ASP)
  • 2.7.1. Displacement: Point FO Sensor Global Forecast, By Application (Value, Quantity, ASP)
  • 2.7.2. Displacement: Point FO Sensor America Forecast, By Application (Value, Quantity, ASP)
  • 2.7.3. Displacement: Point FO Sensor EMEA Forecast, By Application (Value, Quantity, ASP)
  • 2.7.4. Displacement: Point FO Sensor APAC Forecast, By Application (Value, Quantity, ASP)
  • 2.8.1. Electric and Magnetic Field: Point FO Sensor Global Forecast, By Application
  • 2.8.2. Electric and Magnetic Field: Point FO Sensor America Forecast, By Application
  • 2.8.3. Electric and Magnetic Field: Point FO Sensor EMEA Forecast, By Application
  • 2.8.4. Electric and Magnetic Field: Point FO Sensor APAC Forecast, By Application
  • 2.9.1. Rotation: Point FO Sensor Global Forecast, By Application (Value, Quantity, ASP)
  • 2.9.2. Rotation: Point FO Sensor America Forecast, By Application (Value, Quantity, ASP)
  • 2.9.3. Rotation: Point FO Sensor EMEA Forecast, By Application (Value, Quantity, ASP)
  • 2.9.4. Rotation: Point FO Sensor APAC Forecast, By Application (Value, Quantity, ASP)
  • 3.1.1. Continuous Distributed Fiber Sensor Global Forecast, By Region (Value Basis, $Million)
  • 3.1.2. Continuous Distributed Fiber Sensor Global Forecast, By Region (Quantity of Systems)
  • 3.1.3. Continuous Distributed Fiber Sensor Global Forecast, By Application (Value $Million)
  • 3.1.4. Continuous Distributed Fiber Sensor Global Forecast, By Application (Quantity/Systems)
  • 3.2.1. Manufacturing/Factory: Continuous Distributed FO Sensor Global (Value, Quantity, ASP)
  • 3.2.2. Manufacturing/Factory: Continuous Distributed Sensor America (Value, Quantity, ASP)
  • 3.2.3. Manufacturing/Factory: Continuous Distributed FO Sensor EMEA (Value, Quantity, ASP)
  • 3.2.4. Manufacturing/Factory: Continuous Distributed FO Sensor APAC (Value, Quantity, ASP)
  • 3.3.1. Civil Engineering: Continuous Distributed FO Sensor Global (Value, Quantity, ASP)
  • 3.3.2. Civil Engineering: Continuous Distributed Sensor America (Value, Quantity, ASP)
  • 3.3.3. Civil Engineering: Continuous Distributed Sensor EMEA (Value, Quantity, ASP)
  • 3.3.4. Civil Engineering: Continuous Distributed Sensor APAC (Value, Quantity, ASP)
  • 3.4.1. Military/Aerospace/Sec: Continuous Distributed FO Sensor Global (Value, Quantity, ASP)
  • 3.4.2. Military/Aerospace/Sec: Continuous Distributed Sensor America (Value, Quantity, ASP)
  • 3.4.3. Military/Aerospace/Sec: Continuous Distributed Sensor EMEA (Value, Quantity, ASP)
  • 3.4.4. Military/Aerospace/Sec: Continuous Distributed Sensor APAC (Value, Quantity, ASP)
  • 3.5.1. Petrochemical/Utility: Continuous Distributed FO Sensor Global (Value, Quantity, ASP)
  • 3.5.2. Petrochemical/Utility: Continuous Distributed Sensor America (Value, Quantity, ASP)
  • 3.5.3. Petrochemical/Utility: Continuous Distributed Sensor EMEA (Value, Quantity, ASP)
  • 3.5.4. Petrochemical/Utility: Continuous Distributed Sensor APAC (Value, Quantity, ASP)
  • 3.6.1. Biomedical/Science: Continuous Distributed FO Sensor Global (Value, Quantity, ASP)
  • 3.6.2 . Biomedical/Science: Continuous Distributed Sensor America (Value, Quantity, ASP)
  • 3.6.3. Biomedical/Science: Continuous Distributed Sensor EMEA (Value, Quantity, ASP)
  • 3.6.4. Biomedical/Science: Continuous Distributed Sensor APAC (Value, Quantity, ASP)
  • 5.1.1. Competitor Market Share - Fiber Optic Sensors (Year 2016)

List of Figures

  • 1.1.1. Fiber Optic Sensor Global Consumption Value Market Forecast ($Billion)
  • 1.1.2. Fiber Optic Sensor Global Consumption Value Market Forecast, by Region ($Billion)
  • 1.1.3. Fiber Optic Sensor Forecast, Distributed and Point Sensors ($Million)
  • 1.1.4 . Detection Fiber Optic Sensor Used in Automotive/Vehicle
  • 1.1.5. Detection Fiber Optic Sensor Used in Automotive/Vehicle
  • 1.1.6. Sensors: Single Helix and Double Helix
  • 1.1.7. Schematic: Laser Ultrasonic Inspection System
  • 1.1.8. LED-Based Defined Points along Optical Fiber Link for Sensing
  • 1.1.9. Fiber Optic Sensors in Formula 1 Race Car
  • 1.1.10. Harsh Environment Digital Fiber Optic Sensor
  • 1.1.11. Fiber Optic Sensor Installation
  • 1.1.12. Fiber Optic Sensors (FOS): Operating Principles, type of Measurands and Applications
  • 1.2.1. LED-induced chemiluminescence platform
  • 1.2.2. LED-based Monitoring Sensor
  • 1.2.3. Light-Emitting Diode Detection and Ranging Board Modules
  • 1.2.4. Fluorescence detection of trace hydrazine vapor
  • 1.2.5. Seven (7) wavelengths acquire blood constituent data
  • 1.2.6. Seven (7) wavelengths acquire blood constituent data
  • 1.2.7. Oximeters - Upgradable Technology Platforms
  • 1.2.8. LED-based Non-invasively tracks the direction of a person's gaze in real time
  • 1.2.9. FLIPPER - LED excites fluorescence in the sample flow cell
  • 1.2.10. Nano-sized "carbon dots" glow brightly when exposed to light
  • 1.2.11. Variable wavelength HPLC/CE detector
  • 1.2.12. Led-Based Direct Visualization of Tissue Fluorescence
  • 1.2.13. LED-Based Cell Phone Sensor for Detection of E. coli
  • 1.3.1. FTTP PON Architecture
  • 1.3.2. TIA-942 Standard: Basic Data Center Topology
  • 1.3.3. Multi-Tier Data Center Architecture
  • 1.3.4. HFC Distribution System
  • 1.3.5. Fiber Map (United States of America)
  • 1.3.6. Fiber Service Pricing Comparison
  • 1.3.7. Fiber Hut, Telecom Cabinets, and FTTH Network Configuration
  • 1.3.8. Fiber Optic Equipment Building - Fiber Hut
  • 1.3.9. Types of Metro Networks
  • 1.3.10. Optical Fiber in an Aircraft
  • 1.3.11. Optical Fiber Sensor Locations in an Aircraft
  • 1.3.12. Africa: Subocean Fiber Cable
  • 1.3.13. South-East Asia Japan Fiber Optic Cable System
  • 1.3.14. KDDI Data Centers in Japan
  • 1.3.15. NTT Data Centers in Asia
  • 1.3.16. Distributed Continuous Fiber Optic Sensor System Components
  • 2.2.1. Expanded View of an FBG
  • 2.2.2. PM Photonic Crystal Fiber
  • 2.2.3. Fiber Optic Strain Sensor
  • 2.2.4. Strain Gauge
  • 2.2.5. Strain Sensor Installed
  • 2.2.6. Chloride Sensor
  • 2.2.7. Chloride Sensor Installed
  • 2.3.1. Fabry-Perot Fiber-Optic Temperature-Sensor
  • 2.3.2. Fiber Optic Temperature Sensor
  • 2.3.3. Fiber Optic Cable with Temperature Sensor
  • 2.3.4. Examples: Material Used in Fiber Optic Point Sensor Packaging
  • 2.3.5. Upgradeable Mulichannel Fibre Optic Thermometer
  • 2.3.6. GaAs based fiber optic temperature sensor
  • 2.3.7. Flat Flame Burner
  • 2.4.1. Pre-Clinical Transducer with Fiber Coating
  • 2.4.2. Sealed-Gauge Fiber Optic Pressure Sensors
  • 2.4.3. FBG Pressure Sensor
  • 2.5.1. UVOST system deployed with the CPT
  • 2.5.2. Fiber Optic Sensor would be implanted through the skin
  • 2.5.3. Optical Fibers Bundled with a Capillary Tube
  • 2.5.4. Surgery Fiber Optic Sensor - Probe
  • 2.5.5. Digital Fiber Sensor
  • 2.6.1. Vibration optical fiber sensors classification
  • 2.6.2. Illustration of USS Virginia-Class Submarines
  • 2.6.3. Illustration of the envisioned trans-ocean cable
  • 2.6.4. Life of Field (LoF) Monitoring
  • 2.6.5. Fiber-Optic Acoustic Sensors (FOAS)
  • 2.7.1. Fiber-optic Vibration & Displacement Sensor
  • 2.7.2. Fiber Optic Position Sensor (FOPS)
  • 2.7.3. Optical Displacement Sensor
  • 2.7.4. Fiber Optic Position Sensor System
  • 2.7.5. Fiber Optic Sensor-based Microsurgical Tool
  • 2.7.6. Fiber Optic Displacement Gage
  • 2.8.1. Magneto-Optic Current Transformer for Protection
  • 2.8.2. Mini-sensor measures magnetic activity in human brain
  • 2.8.3. FOCS - Fiber-Optic Current Sensor
  • 2.8.4. Microfiber Knot Resonator
  • 2.9.1. Schematic Representation of a Sagnac Interferometer
  • 2.9.2. Schematic: Frequency Shift of a Rotating Ring Laser Interferometer
  • 2.9.3. Miniature GPS-Aided Inertial Navigation System (GPS/INS)
  • 2.9.4. Eurofighter and Fibre-optical Gyro Inertial Navigation System
  • 2.9.5. Single-Axis Fiber Optic Gyro (FOG)
  • 2.9.6. Smallest Fiber Optic Gyro (FOG)
  • 2.9.7. DSP-based Closed-Loop FOG
  • 2.9.8. FOG in Action - Military Tank
  • 2.9.9. FOG - Single Axis Sensor
  • 2.9.10. FOG - Three Axis Sensor
  • 2.9.11. Fiber Optic Gyro (FOG)
  • 2.9.12. Fiber Optic Gyro (FOG)
  • 3.1.1. Continuous Distributed Fiber Optic Sensor Systems Global Forecast (Value $Million)
  • 3.1.2. Distributed Temperature Sensing Systems (DTS) - Optoelectronic Device
  • 3.1.3. Portable DTS System
  • 3.1.4. Distributed Sensing
  • 3.1.5. Distributed Sensing: Raman Back-Scattering and Brillouin Waves
  • 3.1.6. Fabry-Perot Fiber-Optic Temperature-Sensor
  • 3.1.7. Wavelength of Transmission Dip of a Chiral Fiber versus Temperature
  • 3.1.8. Unmanned Science and Technology Development Aircraft
  • 3.1.9. Security Fence - In-Ground Fiber Optic Sensor
  • 3.1.10. Pipeline Integrity Monitoring in Russia using Distributed Fiber Optical Sensor
  • 3.1.11. Transneft Pipeline in Russia
  • 3.1.12. Fiber Optic Sensing System
  • 3.3.1. Zhongnanshan Tunnel
  • 3.3.2. Measurement of the Convection and Radiation Heat in Tunnels
  • 3.3.3. Power Cable Monitoring in Tunnels
  • 3.4.1. Fiber Optic Cable Intrusion Detection Sensor
  • 3.4.2. Illustration of Fiber Optic Fence
  • 3.4.3. Fiber Optic Cable for a Fiber Fence
  • 3.4.4. Examples: Structural Stress Measurement
  • 3.4.5. Advanced Aircraft Built of Fiber Composite Materials
  • 3.4.6. Principle of a Fiber Bragg Grating
  • 3.4.7. Illustration of Fiber Optic Sensors In Oil & Gas Applications
  • 3.5.1. A Distributed Continuous Fiber Optic sensor System Components
  • 3.5.2. FBG Sensor Links
  • 3.5.3. Fiber Optic Distributed Temperature and Distributed Acoustics Illustration
  • 3.6.1. Fiber Optic cable: 900 meters Groundwater Monitoring
  • 3.6.2. Measure Ground Surface Temperature
  • 4.2.1. Schematic Drawing: Fiber-optic Fabry-Perot Interferometers
  • 4.2.2. Schematic Drawing: Fiber-optic Fabry-Perot Interferometers
  • 4.2.3. All-Fiber Michelson interferometer
  • 4.2.4. Measurement of Micron-Scale Deflections
  • 4.2.5. Michelson Type-Interferometer with Improvements
  • 4.2.6. Traditional Fourier-Transform Spectrometer
  • 4.2.7. Electro-Optical Imaging Fourier-Transform Spectrometer
  • 4.5.1. Structure of a Fiber Bragg Grating
  • 4.5.2. Fabry-Perot Sensor Fabricated by Micro-machining
  • 4.5.3. Unpackaged FBG Sensor
  • 4.5.4. Weldable FBG Strain Sensor
  • 4.5.5. Hydrostatic Pressure and Temperature Measurements FBG Sensor
  • 4.5.6. Flexible Optical Sensing
  • 4.5.7. Bridge Scour Monitoring: FBG Sensors
  • 4.5.8. Real-Time Train Wheel Condition Monitoring Scheme
  • 4.5.9. Fiber Bragg Grating (FBG) Sensors Used in Sailing
  • 4.5.10. FBG centered in a 2 m length of polyimide coated optical fiber
  • 4.6.1. Hand-Held Raman Scanner
  • 4.7.1. Fluorescent Long-Line Fiber Optic Position Sensors
  • 4.7.2. Fluorescent Long-Line Fiber Optic Position Sensors with LED
  • 4.7.3. Integrated Micro Volume Fiber Optic Sensor
  • 4.9.1. Laser Doppler Flowmetry
  • 4.9.2. Schematic Representation of Zeta Potential
  • 4.10.1. Schematic of a LIBS system
  • 4.11.1. Surface Plasmon Sensors
  • 4.11.2. Polariton fiber sensor configuration
  • 4.11.3. Polariton Fiber Sensor
  • 4.11.4. Tapered fiber structure with uniform waist
  • 4.11.5. Surface Plasmon Resonance Sensing Structure
  • 4.11.6. Hollow core sensing structure with Bragg grating
  • 4.11.7. Planar SPP sensor with Bragg grating imprinted into the waveguide layer
  • 4.11.8. Planar SPP sensor with LPG imprinted into the waveguide layer
  • 4.11.9. MZI branch with the Bragg grating
  • 4.11.10. Dependence between the refractive index
  • 4.11.11. A dual LPG-based SPR sensor
  • 4.11.12. Tilted grating assisted SPR sensor
  • 4.11.13. Changes in the Intensities
  • 4.11.14. PVDF Coated Teflon Fiber SPR Gas Sensor
  • 4.11.15. Hybrid Mode SPR Sensor
  • 4.11.16. Thin SPP Waveguide
  • 4.11.17. Gemini Fiber
  • 4.11.18. Specialty Optical Fibers with Holes for sensors, lasers and components
  • 4.11.19. Fiber Sensor: LPG and HiBi Fiber
  • 4.12.1. Use of an Optrode
  • 4.12.2. Optical Fiber on Probe Shank Using UV light-Curable Glue
  • 4.12.3. Silicon Probe and Non-Fiberoptic Waveguide
  • 4.12.4. Example: Use of an Optrode
  • 6.1.1. CFP2 ACO Transceiver for Beyond 100G Optical Networks
  • 6.2.2.1. OTDR-SFP Optical Transceiver Block Diagram
  • 6.2.2.2. Transceiver with Built-In Micro OTDR
  • 6.2.2.3. Monitoring Optical Fiber Faults With SFP Transceiver Micro-OTDR
  • 6.3.3.1. CWDM SFP 1G 80km Transceiver
  • 6.3.3.2. VITA 66 Fiber Optic Backplane Connector Module
  • 6.3.3.3. VPX Board Utilizes VITA 66.4 Optical Backplane
  • 6.3.3.4. Typical Intra-Office Interconnections
  • 6.3.3.3. 1-Port OC-768c/STM-256c Tunable WDMPOS Interface Module
  • 6.3.4.1. Monolithic Indium Phosphide Photonic Integrated Circuit (PIC)
  • 6.3.4.2. Photonic Integrated Circuit (PIC)
  • 6.3.5.1. 400 Gbit/sec Dual Polarisation IQ Modulator
  • 6.3.5.2. 40 to 60Gbps Silicon-Based Optical Modulator
  • 6.3.5.3. Integrated silicon optical transceiver for large-volume data transmission
  • 7.1. ElectroniCast Market Research & Forecasting Methodology

Market Forecast Data Base - Excel Spreadsheets:

  • Fiber Optic Sensor Company / Product Matrix
  • Market Forecast Data Table
  • Distribution Fiber Optic Sensor Market Forecast
    • Global
    • America
    • Europe, Middle East, Africa (EMEA)
    • Asia Pacific (APAC)
  • Point Fiber Optic Sensors - Global
  • Point Fiber Optic Sensors - Global
  • Point Fiber Optic Sensors - Global
  • Point Fiber Optic Sensors - Global

PowerPoint - Market Forecast Data Figures

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