Global Distributed Fiber Optic Sensor Market Size, Share, Development, Growth and Demand Forecast to 2023

  • ID: 4340242
  • Report
  • Region: Global
  • 216 pages
  • P&S Market Research
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Market Overview

Distributed fiber optic sensors refer to the integration of distributed sensing technology along the entire length of fiber cable to achieve continuous and real-time measurements. Distributed fiber optic sensors overcome the built-in constraints of traditional technologies such as thermocouples and strain gauges. Based on scattering process, Raman scattering process is likely to spearhead the scattering process segment throughout the forecast period, whereas, Rayleigh scattering process is expected to register the highest growth during the forecast period.

Among various industry verticals, oil and gas industry is expected to be the largest user of distributed fiber optic sensors. The several benefits associated with these sensors, including capability to provide more accurate and efficient results, even in remote locations, are the major factors behind their adoption in oil and gas vertical. Some of the factors like increasing adoption of distributed optic fiber sensors in oil and gas and soaring demand from the civil engineering vertical are expected to propel the growth of global distributed fiber optic sensor market in near future.

Distributed Fiber Optic Sensor Market

Market Dynamics

The global distributed fiber optic sensor market is expected to witness a CAGR of 15.0% during the forecast period, to reach $1,970.1 million by 2023. Distributed fiber optic sensors are widely being adopted in oil and gas vertical. In oil and gas applications, these sensors are being used for specific monitoring of well-temperature and for obtaining an authentic picture of physical parameters of wellbore. However, the market is expected to register fastest growth in civil engineering vertical, during the forecast period. Distributed fiber optic sensors are widely being adopted in civil engineering to enhance the inspection accuracy and efficiency.The application of structured health monitoring (SHM) systems to civil engineering is the major factor escalating the adoption of distributed optic fiber sensors in this vertical. Engineers trained in visual inspection used to execute several civil engineering infrastructures including assessment of buildings, bridges, dams and tunnels, which includes the probability to be inaccurate because of the deviations in their background for safety condition assessments. These sensors help civil engineering vertical with their features of durability, small size, security and insensitivity to external electromagnetic perturbations.

Based on application, temperature sensing application segment is likely to spearhead with largest revenue contribution throughout the forecast period. However, acoustic sensing application is expected to register highest growth among them during the forecast period. Wireless and passive nature of acoustic sensors is the major factor escalating its adoption. Distributed acoustic sensors are being used to measure any kind of vibrational change by using a distributed optic fiber.

Trends

The distributed fiber optic sensors offer several advantages including immunity to electromagnetic interference, high sensitivity, broad bandwidth, lightweight, small size, and ease of implementation. Presently, most of the research groups have moved their focus towards distributed sensors, capable of detecting various dynamic parameters including dynamic strains, electromagnetic fields and sound waves. Due to the rapid adoption of distributed fiber optic sensors in various industry verticals for several applications, commercialization of distributed optical fiber sensors has found some success.

New ideas to enhance the application areas of distributed fiber optic sensors are uninterruptedly being developed and helping traditional measurements along with new applications. Escalating demand for high speed Ethernet is generating demand for more bandwidth. Demand for more bandwidth is expected to increase the adoption of single mode fiber based sensors because, single mode fiber based sensors are employed for long distance.

Growth Drivers

The key factors propelling the growth of global distributed optic fiber sensor market include the escalation in global demand of oil and gas, power and utility and safety and security. Distributed fiber optic sensors have ability to operate and optimize resources of oil and gas industry more effectively. Several factors including more focus on improving oil recovery, continued stability of capital investment on thermal enhanced oil improvement techniques, and rise of expensive multi-lateral hydraulic fracturing are the major factors supporting the growth of global distributed optic fiber sensor market. In traditional tank monitoring systems, sensing element is being considered as a physical device and commonly implemented at the end of copper line. Unlike traditional tank monitoring devices, distributed fiber optic sensing technology use the entire length of glass fiber and turn it into thousands of sensing points to provide more accurate and efficient results.

Traditional sensors rely on various sensors measuring at pre-decided points, whereas, distributed sensing does not rely upon manufactured sensors but take advantage of optical fiber. Distributed fiber optic sensors enable surveilling solutions with benefits for the safety of society and critical assets, especially when surveilling in inhospitable environments or remote locations. These sensors substitute integration of thousands of sensors with single optical fiber system. Moreover, the optical fiber is light weighted, manageable, available at low-price, and unaffected to electromagnetic interference (EMI), which makes it an economical and flexible sensor medium. The benefits associated with distributed optic fiber sensors are likely to spur the growth of this market.

Competitive Landscape

The key players in the distributed fiber optic sensor market include Schlumberger Limited, Halliburton Company, Yokogawa Electric Corporation, Weatherford International plc, QinetiQ Group plc, Luna Innovations Incorporated, OFS Fitel LLC, Bandweaver, OmniSens S.A., Brugg Kabel AG, AP Sensing GmbH, AFL, and Ziebel AS.

Scope for Customization

Customization is offered as per specific business requirements of clients. Illustrative customization within the scope of this report includes:
  • Period of Analysis - Increase in the study period, including historic and forecast years
  • Geographical Analysis - Increase in country coverage
  • Segment Analysis - More granular coverage related to:
  • Application segmentation - “Others” can be further broken down into different applications
  • Company Profiles - Wider company coverage in terms of detailed analysis or additional company profiles
  • New Custom Report - A completely customized report can be provided on the market, specific to a region/ country/ segment
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1. Research Background
1.1 Research Objectives
1.2 Market Definition
1.3 Research Scope
1.3.1 Market Segmentation By Scattering Process
1.3.2 Market Segmentation By Operating Principle
1.3.3 Market Segmentation By Fiber Type
1.3.4 Market Segmentation By Vertical
1.3.5 Market Segmentation By Application
1.3.6 Market Segmentation By Geography
1.3.7 Analysis Period
1.3.8 Market Data Reporting Unit
1.3.8.1 Value
1.4 Key Stakeholders

2. Research Methodology
2.1 Secondary Research
2.2 Primary Research
2.2.1 Breakdown Of Primary Research Respondents
2.2.1.1 By Region
2.2.1.2 By Industry Participants
2.2.1.3 By Company Type
2.3 Market Size Estimation
2.4 Market Breakdown And Data Triangulation
2.5 Assumptions For The Study

3. Executive Summary

4. Introduction
4.1 Market Segmentation
4.1.1 Overview By Scattering Process
4.1.1.1 Raman Scattering
4.1.1.2 Distributed Fiber Bragg Grating
4.1.1.3 Interferometric Scattering
4.1.1.4 Brillouin Scattering
4.1.1.5 Rayleigh Scattering
4.1.2 Overview By Operating Principle
4.1.2.1 Otdr
4.1.2.2 Ofdr
4.1.2.3 Olcr
4.1.3 Overview By Fiber Type
4.1.3.1 Multimode Fiber
4.1.3.2 Single Mode Fiber
4.1.4 Overview By Vertical
4.1.4.1 Oil & Gas
4.1.4.2 Civil Engineering
4.1.4.3 Military
4.1.4.4 Energy & Utility
4.1.4.5 Others
4.1.5 Overview By Application
4.1.5.1 Temperature Sensing
4.1.5.2 Pressure Sensing
4.1.5.3 Strain Sensing
4.1.5.4 Acoustic Sensing
4.1.5.5 Others
4.2 Dfos Market Value Chain Analysis
4.3 Market Dynamics
4.3.1 Drivers
4.3.1.1 Increasing Demand Of Dfos From Oil & Gas Vertical
4.3.1.2 Growing Applications Of Dfos In Civil Engineering
4.3.1.3 Growing Reliability Of Dfos
4.3.1.4 Impact Analysis Of Drivers On Market Forecast
4.3.2 Restraints
4.3.2.1 High Cost Of Dfos
4.3.2.2 Technical Constraints In Dfos Installation
4.3.2.3 Impact Analysis Of Restraints On Market Forecast
4.3.3 Trends
4.3.3.1 Dfos To Be The Key Technology For Shm
4.3.3.2 Manufacturing Of Low Polarization-Mode Dispersion (Pmd) Fibers
4.4 Porter's Five Forces Of Competitive Position Analysis
4.4.1 Bargaining Power Of Buyers
4.4.2 Bargaining Power Of Suppliers
4.4.3 Threat Of New Entrants
4.4.4 Intensity Of Rivalry
4.4.5 Threat Of Substitutes

5. Market Size And Forecast By Scattering Process
5.1 Raman Scattering
5.2 Distributed Fiber Bragg Grating
5.3 Interferometric Scattering
5.4 Brillouin Scattering
5.5 Rayleigh Scattering

6. Market Size And Forecast By Operating Principle
6.1 Optical Time Domain Reflectometry (Otdr)
6.2 Optical Frequency Domain Reflectometry (Ofdr)
6.3 Optical Low Coherence Reflectometry (Olcr)

7. Market Size And Forecast By Fiber Type
7.1 Multimode Fiber
7.2 Single Mode Fiber

8. Market Size And Forecast By Vertical
8.1 Oil & Gas
8.2 Civil Engineering
8.3 Military
8.4 Energy & Utility
8.5 Others

9. Market Size And Forecast By Application
9.1 Temperature Sensing
9.2 Pressure Sensing
9.3 Strain Sensing
9.4 Acoustic Sensing
9.5 Other Applications

10. Market Size And Forecast By Geography
10.1 North America Dfos Market
10.1.1 North America Dfos Market, By Scattering Process
10.1.2 North America Dfos Market, By Operating Principle
10.1.3 North America Dfos Market, By Fiber Type
10.1.4 North America Dfos Market, By Vertical
10.1.5 North America Dfos Market, By Application
10.1.6 North America Dfos Market, By Country
10.1.6.1 The U.S. Dfos Market
10.1.6.2 Canada Dfos Market
10.2 Asia-Pacific Dfos Market
10.2.1 Asia-Pacific Dfos Market, By Scattering Process
10.2.2 Asia-Pacific Dfos Market, By Operating Principle
10.2.3 Asia-Pacific Dfos Market, By Fiber Type
10.2.4 Asia-Pacific Dfos Market, By Vertical
10.2.5 Asia-Pacific Dfos Market, By Application
10.2.6 Asia-Pacific Dfos Market, By Country
10.2.6.1 China Dfos Market
10.2.6.2 Indonesia Dfos Market
10.2.6.3 Malaysia Dfos Market
10.2.6.4 Australia Dfos Market
10.2.6.5 India Dfos Market
10.2.6.6 Myanmar Dfos Market
10.2.6.7 Vietnam Dfos Market
10.2.6.8 New Zealand Dfos Market
10.2.6.9 Rest Of Asia-Pacific Dfos Market
10.3 Europe Dfos Market
10.3.1 Europe Dfos Market, By Scattering Process
10.3.2 Europe Dfos Market, By Operating Principle
10.3.3 Europe Dfos Market, By Fiber Type
10.3.4 Europe Dfos Market, By Vertical
10.3.5 Europe Dfos Market, By Application
10.3.6 Europe Dfos Market, By Country
10.3.6.1 Russia Dfos Market
10.3.6.2 Kazakhstan Dfos Market
10.3.6.3 Scandinavia Dfos Market
10.3.6.4 The U.K. Dfos Market
10.3.6.5 Rest Of The Europe Dfos Market
10.4 Middle-East Dfos Market
10.4.1 Middle-East Dfos Market, By Scattering Process
10.4.2 Middle-East Dfos Market, By Operating Principle
10.4.3 Middle-East Dfos Market, By Fiber Type
10.4.4 Middle-East Dfos Market, By Vertical
10.4.5 Middle-East Dfos Market, By Application
10.4.6 Middle-East Dfos Market, By Country
10.4.6.1 Saudi Arabia Dfos Market
10.4.6.2 Oman Dfos Market
10.4.6.3 Rest Of Middle-East Dfos Market
10.5 Row Dfos Market
10.5.1 Row Dfos Market, By Scattering Process
10.5.2 Row Dfos Market, By Operating Principle
10.5.3 Row Dfos Market, By Fiber Type
10.5.4 Row Dfos Market, By Vertical
10.5.5 Row Dfos Market, By Application
10.5.6 Row Dfos Market, By Country
10.5.6.1 South Africa
10.5.6.2 Brazil
10.5.6.3 Mexico
10.5.6.4 Others

11. Competitive Landscape
11.1 Recent Activities Of Major Players
11.2 Competitive Benchmarking
11.3 Global Strategic Developments
11.3.1 Product/ Service Launch And Enhancement
11.3.2 Client Win
11.3.3 Others

12. Company Profiles
12.1 Schlumberger Limited
12.1.1 Business Overview
12.1.2 Product And Service Offerings
12.2 Halliburton Company
12.2.1 Business Overview
12.2.2 Product And Service Offerings
12.2.3 Strategic Growth Plans
12.3 Yokogawa Electric Corporation
12.3.1 Business Overview
12.3.2 Product And Service Offerings
12.3.3 Strategic Growth Plans
12.4 Weatherford International Plc
12.4.1 Business Overview
12.4.2 Product And Service Offerings
12.5 Qinetiq Group Plc
12.5.1 Business Overview
12.5.2 Product And Service Offerings
12.6 Luna Innovations Incorporated
12.6.1 Business Overview
12.6.2 Product And Service Offerings
12.7 Bandweaver
12.7.1 Business Overview
12.7.2 Product And Service Offerings
12.8 Omnisens S.A.
12.8.1 Business Overview
12.8.2 Product And Service Offerings
12.9 Brugg Kabel Ag
12.9.1 Business Overview
12.9.2 Product And Service Offerings
12.10 Ap Sensing Gmbh
12.10.1 Business Overview
12.10.2 Product And Service Offerings
12.11 Afl Global
12.11.1 Business Overview
12.11.2 Product And Service Offerings
12.12 Ziebel As
12.12.1 Business Overview
12.12.2 Product And Service Offerings

13. Appendix
13.1 Abbreviations

List Of Tables
Table 1 Analysis Period Of The Study
Table 2 Drivers For The Market: Impact Analysis
Table 3 Restraints For The Market: Impact Analysis
Table 4 Global Dfos Market, By Scattering Process, $M (2013-2016)
Table 5 Global Dfos Market, By Scattering Process, $M (2017-2023)
Table 6 Global Raman Scattering Process Market, By Region, $M (2013-2016)
Table 7 Global Raman Scattering Process Market, By Region, $M (2017-2023)
Table 8 Global Distributed Fiber Bragg Grating Market, By Region, $M (2013-2016)
Table 9 Global Distributed Fiber Bragg Grating Market, By Region, $M (2017-2023)
Table 10 Global Interferometric Scattering Market, By Region, $M (2013-2016)
Table 11 Global Interferometric Scattering Market, By Region, $M (2017-2023)
Table 12 Global Brillouin Scattering Market, By Region, $M (2013-2016)
Table 13 Global Brillouin Scattering Market, By Region, $M (2017-2023)
Table 14 Global Rayleigh Scattering Market, By Region, $M (2013-2016)
Table 15 Global Rayleigh Scattering Market, By Region, $M (2017-2023)
Table 16 Global Dfos Market, By Operating Principle, $M (2013-2016)
Table 17 Global Dfos Market, By Operating Principle, $M (2017-2023)
Table 18 Global Otdr Market, By Region, $M (2013-2016)
Table 19 Global Otdr Market, By Region, $M (2017-2023)
Table 20 Global Ofdr Market, By Region, $M (2013-2016)
Table 21 Global Ofdr Market, By Region, $M (2017-2023)
Table 22 Global Olcr Market, By Region, $M (2013-2016)
Table 23 Global Olcr Market, By Region, $M (2017-2023)
Table 24 Global Dfos Market, By Fiber Type, $M (2013-2016)
Table 25 Global Dfos Market, By Fiber Type, $M (2017-2023)
Table 26 Global Multimode Fiber Based Dfos Market, By Region, $M (2013-2016)
Table 27 Global Multimode Fiber Based Dfos Market, By Region, $M (2017-2023)
Table 28 Global Single Mode Fiber Based Dfos Market, By Region, $M (2013-2016)
Table 29 Global Single Mode Fiber Based Dfos Market, By Region, $M (2017-2023)
Table 30 Global Dfos Market, By Vertical, $M (2013-2016)
Table 31 Global Dfos Market, By Vertical, $M (2017-2023)
Table 32 Global Dfos Market In Oil & Gas, By Region, $M (2013-2016)
Table 33 Global Dfos Market In Oil & Gas, By Region, $M (2017-2023)
Table 34 Global Dfos Market In Civil Engineering, By Region, $M (2013-2016)
Table 35 Global Dfos Market In Civil Engineering, By Region, $M (2017-2023)
Table 36 Global Dfos Market In Military, By Region, $M (2013-2016)
Table 37 Global Dfos Market In Military, By Region, $M (2017-2023)
Table 38 Global Dfos Market In Energy & Utility, By Region, $M (2013-2016)
Table 39 Global Dfos Market In Energy & Utility, By Region, $M (2017-2023)
Table 40 Global Dfos Market In Other Verticals, By Region, $M (2013-2016)
Table 41 Global Dfos Market In Other Verticals, By Region, $M (2017-2023)
Table 42 Global Dfos Market, By Application, $M (2013-2016)
Table 43 Global Dfos Market, By Application, $M (2017-2023)
Table 44 Global Dfos Market For Temperature Sensing, By Region, $M (2013-2016)
Table 45 Global Dfos Market For Temperature Sensing, By Region, $M (2017-2023)
Table 46 Global Dfos Market For Pressure Sensing, By Region, $M (2013-2016)
Table 47 Global Dfos Market For Pressure Sensing, By Region, $M (2017-2023)
Table 48 Global Dfos Market For Strain Sensing, By Region, $M (2013-2016)
Table 49 Global Dfos Market For Strain Sensing, By Region, $M (2017-2023)
Table 50 Global Dfos Market For Acoustic Sensing, By Region, $M (2013-2016)
Table 51 Global Dfos Market For Acoustic Sensing, By Region, $M (2017-2023)
Table 52 Global Dfos Market For Other Applications, By Region, $M (2013-2016)
Table 53 Global Dfos Market For Other Applications, By Region, $M (2017-2023)
Table 54 North America Dfos Market, By Scattering Process, $M (2013-2016)
Table 55 North America Dfos Market, By Scattering Process, $M (2017-2023)
Table 56 North America Dfos Market, By Operating Principle, $M (2013-2016)
Table 57 North America Dfos Market, By Operating Principle, $M (2017-2023)
Table 58 North America Dfos Market, By Fiber Type, $M (2013-2016)
Table 59 North America Dfos Market, By Fiber Type, $M (2017-2023)
Table 60 North America Dfos Market, By Vertical, $M (2013-2016)
Table 61 North America Dfos Market, By Vertical, $M (2017-2023)
Table 62 North America Dfos Market, By Application, $M (2013-2016)
Table 63 North America Dfos Market, By Application, $M (2017-2023)
Table 64 North America Dfos Market, By Country, $M (2013-2016)
Table 65 North America Dfos Market, By Country, $M (2017-2023)
Table 66 Asia-Pacific Dfos Market, By Scattering Process, $M (2013-2016)
Table 67 Asia-Pacific Dfos Market, By Scattering Process, $M (2017-2023)
Table 68 Asia-Pacific Dfos Market, By Operating Principle, $M (2013-2016)
Table 69 Asia-Pacific Dfos Market, By Operating Principle, $M (2017-2023)
Table 70 Asia-Pacific Dfos Market, By Fiber Type, $M (2013-2016)
Table 71 Asia-Pacific Dfos Market, By Fiber Type, $M (2017-2023)
Table 72 Asia-Pacific Dfos Market, By Vertical, $M (2013-2016)
Table 73 Asia-Pacific Dfos Market, By Vertical, $M (2017-2023)
Table 74 Asia-Pacific Dfos Market, By Application, $M (2013-2016)
Table 75 Asia-Pacific Dfos Market, By Application, $M (2017-2023)
Table 76 Asia-Pacific Dfos Market, By Country, $M (2013-2016)
Table 77 Asia-Pacific Dfos Market, By Country, $M (2017-2023)
Table 78 Europe Dfos Market, By Scattering Process, $M (2013-2016)
Table 79 Europe Dfos Market, By Scattering Process, $M (2017-2023)
Table 80 Europe Dfos Market, By Operating Principle, $M (2013-2016)
Table 81 Europe Dfos Market, By Operating Principle, $M (2017-2023)
Table 82 Europe Dfos Market, By Fiber Type, $M (2013-2016)
Table 83 Europe Dfos Market, By Fiber Type, $M (2017-2023)
Table 84 Europe Dfos Market, By Vertical, $M (2013-2016)
Table 85 Europe Dfos Market, By Vertical, $M (2017-2023)
Table 86 Europe Dfos Market, By Application, $M (2013-2016)
Table 87 Europe Dfos Market, By Application, $M (2017-2023)
Table 88 Europe Dfos Market, By Country, $M (2013-2016)
Table 89 Europe Dfos Market, By Country, $M (2017-2023)
Table 90 Middle-East Dfos Market, By Scattering Process, $M (2013-2016)
Table 91 Middle-East Dfos Market, By Scattering Process, $M (2017-2023)
Table 92 Middle-East Dfos Market, By Operating Principle, $M (2013-2016)
Table 93 Middle-East Dfos Market, By Operating Principle, $M (2017-2023)
Table 94 Middle-East Dfos Market, By Fiber Type, $M (2013-2016)
Table 95 Middle-East Dfos Market, By Fiber Type, $M (2017-2023)
Table 96 Middle-East Dfos Market, By Vertical, $M (2013-2016)
Table 97 Middle-East Dfos Market, By Vertical, $M (2017-2023)
Table 98 Middle-East Dfos Market, By Application, $M (2013-2016)
Table 99 Middle-East Dfos Market, By Application, $M (2017-2023)
Table 100 Middle-East Dfos Market, By Country, $M (2013-2016)
Table 101 Middle-East Dfos Market, By Country, $M (2017-2023)
Table 102 Row Dfos Market, By Scattering Process, $M (2013-2016)
Table 103 Row Dfos Market, By Scattering Process, $M (2017-2023)
Table 104 Row Dfos Market, By Operating Principle, $M (2013-2016)
Table 105 Row Dfos Market, By Operating Principle, $M (2017-2023)
Table 106 Row Dfos Market, By Fiber Type, $M (2013-2016)
Table 107 Row Dfos Market, By Fiber Type, $M (2017-2023)
Table 108 Row Dfos Market, By Vertical, $M (2013-2016)
Table 109 Row Dfos Market, By Vertical, $M (2017-2023)
Table 110 Row Dfos Market, By Application, $M (2013-2016)
Table 111 Row Dfos Market, By Application, $M (2017-2023)
Table 112 Row Dfos Market, By Country, $M (2013-2016)
Table 113 Row Dfos Market, By Country, $M (2017-2023)
Table 114 Market Segment Benchmarking Of Major Players
Table 115 Schlumberger Limited-At A Glance
Table 116 Halliburton Company-At A Glance
Table 117 Yokogawa Electric Corporation-At A Glance
Table 118 Weatherford International Plc-At A Glance
Table 119 Qinetiq Group Plc-At A Glance
Table 120 Luna Innovations Incorporated-At A Glance
Table 121 Bandweaver-At A Glance
Table 122 Omnisens S.A.-At A Glance
Table 123 Brugg Kabel Ag-At A Glance
Table 124 Ap Sensing Gmbh-At A Glance
Table 125 Afl Global-At A Glance
Table 126 Ziebel As-At A Glance

List Of Figures
Fig 1 Research Scope For Global Dfos Market
Fig 2 Research Methodology For The Global Dfos Market
Fig 3 Regional Split Of Primary And Secondary Research
Fig 4 Breakdown Of Primary Research By Region
Fig 5 Breakdown Of Primary Research By Industry Participants
Fig 6 Breakdown Of Primary Research By Company Type
Fig 7 Data Triangulation Approach For The Global Dfos Market
Fig 8 Global Dfos Market Summary
Fig 9 Dfos Market Value Chain Analysis
Fig 10 Porter’S Five Forces Of Competitive Position Analysis
Fig 11 Global Dfos Market Split, By Scattering Process (2016)
Fig 12 Global Inernet Users, Millions (2014 - 2023)
Fig 13 Global Dfos Market, By Scattering Process, $M (2013-2023)
Fig 14 Global Raman Scattering Process Market, By Region, $M (2013-2023)
Fig 15 Global Distributed Fiber Bragg Grating Market, By Region, $M (2013-2023)
Fig 16 Global Interferometric Scattering Market, By Region, $M (2013-2023)
Fig 17 Global Brillouin Scattering Market, By Region, $M (2013-2023)
Fig 18 Global Rayleigh Scattering Market, By Region, $M (2013-2023)
Fig 19 Global Dfos Market Split, By Operating Principle (2016)
Fig 20 Global Dfos Market, By Operating Principle, $M (2013-2023)
Fig 21 Global Otdr Market, By Region, $M (2013-2023)
Fig 22 Global Ofdr Market, By Region, $M (2013-2023)
Fig 23 Global Olcr Market, By Region, $M (2013-2023)
Fig 24 Global Dfos Market Split, By Fiber Type (2016)
Fig 25 Global Dfos Market, By Fiber Type, $M (2013-2023)
Fig 26 Global Multimode Fiber Based Dfos Market, By Region, $M (2013-2023)
Fig 27 Global Single Mode Fiber Based Dfos Market, By Region, $M (2013-2023)
Fig 28 Global Dfos Market Split, By Vertical (2016)
Fig 29 Global Dfos Market, By Vertical, $M (2013-2023)
Fig 30 Global Dfos Market In Oil & Gas, By Region, $M (2013-2023)
Fig 31 Global Dfos Market In Civil Engineering, By Region, $M (2013-2023)
Fig 32 Global Dfos Market In Military, By Region, $M (2013-2023)
Fig 33 Global Dfos Market In Energy & Utility, By Region, $M (2013-2023)
Fig 34 Global Dfos Market In Other Verticals, By Region, $M (2013-2023)
Fig 35 Global Dfos Market Split, By Application (2016)
Fig 36 Global Dfos Market, By Application, $M (2013-2023)
Fig 37 Global Dfos Market For Temperature Sensing, By Region, $M (2013-2023)
Fig 38 Global Dfos Market For Pressure Sensing, By Region, $M (2013-2023)
Fig 39 Global Dfos Market For Strain Sensing, By Region, $M (2013-2023)
Fig 40 Global Dfos Market For Acoustic Sensing, By Region, $M (2013-2023)
Fig 41 Global Dfos Market For Other Applications, By Region, $M (2013-2023)
Fig 42 Worldwide Major Markets For Dfos
Fig 43 North America Dfos Market Snapshot
Fig 44 North America Dfos Market, By Scattering Process, $M (2013-2023)
Fig 45 North America Dfos Market, By Operating Principle, $M (2013-2023)
Fig 46 North America Dfos Market, By Fiber Type, $M (2013-2023)
Fig 47 North America Dfos Market, By Vertical, $M (2013-2023)
Fig 48 North America Dfos Market, By Application, $M (2013-2023)
Fig 49 North America Dfos Market, By Country, $M (2013-2023)
Fig 50 Asia-Pacific Dfos Market Snapshot
Fig 51 Asia-Pacific Dfos Market, By Scattering Process, $M (2013-2023)
Fig 52 Asia-Pacific Dfos Market, By Operating Principle, $M (2013-2023)
Fig 53 Asia-Pacific Dfos Market, By Fiber Type, $M (2013-2023)
Fig 54 Asia-Pacific Dfos Market, By Vertical, $M (2013-2023)
Fig 55 Asia-Pacific Dfos Market, By Application, $M (2013-2023)
Fig 56 Asia-Pacific Dfos Market, By Application, $M (2013-2023)
Fig 57 Europe Dfos Market Snapshot
Fig 58 Europe Dfos Market, By Scattering Process, $M (2013-2023)
Fig 59 Europe Dfos Market, By Operating Principle, $M (2013-2023)
Fig 60 Europe Dfos Market, By Fiber Type, $M (2013-2023)
Fig 61 Europe Dfos Market, By Vertical, $M (2013-2023)
Fig 62 Europe Dfos Market, By Application, $M (2013-2023)
Fig 63 Europe Dfos Market, By Country, $M (2013-2023)
Fig 64 Middle-East Dfos Market Snapshot
Fig 65 Middle-East Dfos Market, By Scattering Process, $M (2013-2023)
Fig 66 Middle-East Dfos Market, By Scattering Process, $M (2013-2023)
Fig 67 Middle-East Dfos Market, By Fiber Type, $M (2013-2023)
Fig 68 Middle-East Dfos Market, By Vertical, $M (2013-2023)
Fig 69 Middle-East Dfos Market, By Application, $M (2013-2023)
Fig 70 Middle-East Dfos Market, By Country, $M (2013-2023)
Fig 71 Row Market Snapshot
Fig 72 Row Dfos Market, By Scattering Process, $M (2013-2023)
Fig 73 Row Dfos Market, By Operating Principle, $M (2013-2023)
Fig 74 Row Dfos Market, By Fiber Type, $M (2013-2023)
Fig 75 Row Dfos Market, By Vertical, $M (2013-2023)
Fig 76 Row Dfos Market, By Application, $M (2013-2023)
Fig 77 Row Dfos Market, By Country, $M (2013-2023)
Fig 78 Recent Activities Of Major Players
Fig 79 Schlumberger Limited Revenue Split By Operating Segment (2016)
Fig 80 Schlumberger Limited Revenue Split By Geography (2016)
Fig 81 Halliburton Company Revenue Split By Operating Segment (2016)
Fig 82 Halliburton Company Revenue Split By Geography (2016)
Fig 83 Yokogawa Electric Corporation Revenue Split By Operating Segment (2016)
Fig 84 Yokogawa Electric Corporation Revenue Split By Geography (2016)
Fig 85 Weatherford International Plc Revenue Split By Operating Segment (2016)
Fig 86 Qinetiq Group Plc Revenue Split By Geography (2016)
Fig 87 Qinetiq Group Plc. Revenue Split By Major Customer Type (2016)
Fig 88 Qinetiq Group Plc Revenue Split By Category (2016)
Fig 89 Qinetiq Group Plc Revenue Split By Operating Segment (2016)
Fig 90 Luna Innovations Incorporated Revenue Split By Operations (2016)
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