Distributed Fibre Optic Sensing Market Report 2025 (Global Edition)

Global Distributed Fibre Optic Sensing Market Report 2025 Market Size Split by Scattering Method (Raman, Rayleigh, Brillouin, Fibre Brag Grating), by Application (Pipeline, Power, Others), by Operatin...

Distributed Fibre Optic Sensing Market Report Description

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Distributed Fibre Optic Sensing Market Insights Video

Company Profile:

Schlumberger Limited

Schlumberger Limited is a France-based company which offers, digital solutions and deploy technologies to enable performance and sustainability that are crucial for the global energy industry. The company has presence in over 120 countries. the company has presence in North America, Middle East; Russia and Central Asia; and offshore. the company is operating in four segments: Digital & Integration, Reservoir Performance, Well Construction and Production Systems.

RECENT NEWS

• April 2022, Schlumberger Expanded Global AI Innovation Network with Opening of Artificial Intelligence Center in Europe 

Schlumberger has announced it has expanded its global INNOVATION FACTORI network with the inauguration of a new center in Oslo, Norway.

Halliburton

Halliburton is engaged in the development and supply of several products and services, which involves express fiber optical cable which offers measurements and assists in fracture monitoring, Odassea distributed fibre optic acoustic sensing solution. The segments included in the portfolio are subsurface, well construction, and other. The company also offers services for and consulting in the market.

RECENT NEWS

• July 2021, Halliburton introduced Express Fiber, a single-use fiber optic cable

Halliburton has introduced Express Fiber, a single use fiber optic cable that offers accurate, direct subsurface measurements, Express Fiber uses distributed acoustic sensing to acquire a direct measurement of micro seismic, strain, and temperature unlike other cross-well monitoring techniques that provide indirect estimates.

Top Companies Market Share in Distributed Fibre Optic Sensing Industry: (In no particular order of Rank)

• Micron Optics
• OptaSense(QinetiQ)
• Opsens Inc
• Halliburton
• Proximion
• FISO Technologies
• ITF Technologies Inc
• Omnisens SA
• Epsilon Optics
• LIOS Technology
• Wuhan Ligong Guangke
• Bandweaver
• Boomdts
• Sensornet
• Schlumberger
• Yokogawa Electric Corporation
• Luna Innovations
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*List of Second Tier Companies, List of Third Tier/ Start-up Companies (Inquire with sales executive) Request Any Company Profile for Preview Purpose OR Data Validation!

If any Company(ies) of your interest has/have not been disclosed in the above list then please let us know the same so that we will check the data availability in our database and provide you the confirmation or include it in the final deliverables.

Distributed Fibre Optic Sensing Market Regional Analysis

The regional analysis offers Distributed Fibre Optic Sensing market size, share and a detailed analysis for each region. This quantitative as well as qualitative information is crucial for new entrants along with companies operating in Distributed Fibre Optic Sensing market . Distributed Fibre Optic Sensing market production and consumption can vary significantly from one region to another owing to factors such as, the availability of raw materials, regulatory environments, and others.

The current report Scope analyzes Distributed Fibre Optic Sensing Market on 5 major region Split (In case you wish to acquire a specific region edition (more granular data) or any country Edition data then please write us on info@cognitivemarketresearch.com

• North America (United States, Canada, Mexico)
• Europe (United Kingdom, France, Germany, Italy, Russia, Spain, Sweden, Denmark, Netherlands, Switzerland, Belgium)
• Asia-Pacific (China, Japan, Korea, India, Australia, Philippines, Singapore, Malaysia, Thailand, Indonesia, Rest of APAC)
• South America (Brazil, Argentina, Colombia, Peru, Chile, Rest of South America)
• Middle East and Africa (Saudi Arabia, Turkey, Nigeria, UAE, Egypt, South Africa, GCC Countries, Rest of MEA)

The above graph is for illustrative purposes only.

Distributed Fibre Optic Sensing Market Analysis

Distributed Fibre Optic Sensing Market, by Scattering Method

Raman

The Raman Market Size in Distributed Fibre Optic Sensing market will be USD 1,247.71 Million by 2029.

The Raman scattering effect, also known as the Raman effect, is a type of scattering that occurs when light passes through a material. The Raman effect occurs when light is scattered by molecules in gases, liquids, or solids. The Raman effect is characterised by the emergence of additional spectral lines around the incoming light's wavelength. In optical fibre distributed temperature monitoring, the Raman scattering phenomenon is one of the fundamental physical mechanisms used. This was accomplished using Raman distributed temperature sensors (RDTS).

Rayleigh

Rayleigh scattering-based distributed fibre sensors have recently become popular for measuring static and dynamic phenomena including temperature, dynamic strain, and sound waves. The OTDR and OFDR techniques are used in Rayleigh scattering-based distributed fibre sensors.

Brillouin

Time domain or frequency correlation approaches, among others, can be used to precisely pinpoint the Brillouin shift process along the fibre. As a result, Brillouin scattering of light in optical fibres can be employed to create precise distributed optical sensors and devices. In these circumstances, the optical fibre serves as both a distributed transducer and an optical channel, functioning as the medium through which the interaction takes place.

Fibre Brag Grating

The Fiber Bragg Grating (FBG) sensor is made up of dispersed Bragg reflectors in a short section of optical fibre that reflect certain wavelengths while transmitting the rest. These Fiber Bragg Grating are used to quantify strain, temperature, and pressure in a dispersed manner.

The above Chart is for representative purposes and does not depict actual sale statistics. Access/Request the quantitative data to understand the trends and dominating segment of Distributed Fibre Optic Sensing Industry. Request a Free Sample PDF!

Distributed Fibre Optic Sensing Market, by Application

Pipeline

The Pipeline segment Revenue in Distributed Fibre Optic Sensing market is estimated to reach USD 1,595.09 Million by 2029.

Pipeline leakage and intrusion detection continue to be a difficult issue because existing leak detection methods. Traditional pipeline guarding systems have been ineffective in preventing leaks and discouraging third-party entry into pipelines and plant facilities. DFOS have been used to provide non-intrusive digital pipeline monitoring by acting as an early warning system, allowing operators to act swiftly in the event of a pipeline leakage or intrusion into a plant area or leakage into the environment.

Power

Distributed sensing technology has been widely employed in the power industry, with power cable monitoring being the most typical use. It is commonly used for buried cable monitoring, tunnel cable monitoring, subsea power cable monitoring, overhead cable monitoring, and other applications.

Others

Distributed fiber–optic sensors are also employed in civil infrastructure and geohydrology. Distributed fibre optic strain sensing for monitoring civil infrastructure provides in-depth guidance on recent advancements in civil engineering. In geohydrological applications, DFOS is used to soil levees, slopes/landslides, and ground subsidence, which account for a large portion of present geohazards

The above Graph is for representation purposes only. This chart does not depict actual Market share.

Distributed Fibre Optic Sensing Operating Principle Segment Analysis

OTDR

The OTDR segment Revenue in Distributed Fibre Optic Sensing market is projected to reach USD 1,730.11 Million by 2029.

An Optical Time Domain Reflectometer (OTDR) is a device that is used to assess the integrity of fibre optic cables and is used in the construction, certification, maintenance, and troubleshooting of fibre optic systems. Hand-held OTDRs create a virtual picture of the fibre optic cable in order to assess its condition and performance potential. It simply takes one operator and one instrument to certify a connection or locate a network failure

OFDR

Optical frequency domain reflectometry (OFDR) is a unique technique for analyzing optical light pathways and reflection properties in optical fibre and components. OFDR uses continuous wave (CW) light sources to function in the frequency domain, allowing for greater signal-to-noise ratios.

• OTDR
• OFDR

Distributed Fibre Optic Sensing Vertical Segment Analysis

Oil & Gas

The Oil & Gas segment Revenue in Distributed Fibre Optic Sensing market is anticipated to reach USD 1,071.20 Million by 2029.

Distributed fiber–optic sensors in the oil and gas sector can offer extremely useful data throughout the life cycle of a well, as well as monitor pipelines delivering hydrocarbons over long distances. In the oil and gas business, Rayleigh-based distributed acoustic sensing (DAS), Raman-based distributed temperature sensing (DTS), and Brillouin-based distributed temperature and strain sensing (DTSS) are used.

Power and Utility

Recent advancements in distributed sensing have re-ignited interest in its application in the power and utility industries. Both transmission and distribution networks might be affected. It may be used to detect and prevent power cable infiltration, as well as tampering with overhead lines and third-party intrusion into subterranean cables.

Safety and Security

Distributed temperature sensing is often utilized in safety and security applications such as tunnel fire detection or road and rail conveyor belts. It can tell you where, when, and what kind of intrusions are being attempted. The capacity to filter out false warnings and interface with third-party equipment like CCTV, alarms, and even unmanned aerial vehicles is critical to the solution's success (UAVs).

Infrastructure

Some facilities have been working on distributed fibre optic sensors, or DFOS, for a variety of civil infrastructure monitoring applications for several years. It's utilised for things like determining the axial shortening of a reinforced concrete high-rise building, monitoring concrete piles, finding rainfall infiltration and sewer network obstructions, and more.

Industrial

Distributed fibre optic sensors are used in a variety of industries, including healthcare, automotive, consumer products, and others. The investigation of bone decalcification and strain distribution are two uses of optical fibre sensors. Distributed fibre optic sensing for real-time monitoring of multiphase fluid flows has the potential to play a significant role in industrial flow measurement applications.

• Oil & Gas
• Power and Utility
• Safety and Security
• Infrastructure
• Industrial

Distributed Fibre Optic Sensing Solution Segment Analysis

DAS

The DAS segment Revenue in Distributed Fibre Optic Sensing market is expected to reach USD 843.70 Million by 2029.

DAS is a technique that allows for continuous, real-time measurements over the whole length of a fiber optic cable. The optical fiber cable serves as the sensing element in DAS, and measurements are taken and partially processed using a connected optoelectronic device. Acoustic frequency strain signals can be detected across long distances and in difficult settings with such a technology.

DSS

A distributed optical strain-sensing technology is offered as a solution for assessing strain distribution. It is utilized in tunneling, mining, pipeline construction, bridge construction, and other projects. The method makes use of Rayleigh optical frequency domain reflectometry, which measures strain with high spatial resolution over the length of a conventional optical fiber.

DTS

Distributed Temperature Sensing (DTS) uses fiber optic sensor cables that are generally several kilometers long and operate as linear temperature sensors. Thus, a continuous temperature profile is generated over the length of the sensor cable. DTS measures this temperature using various effects such as the Raman effect.

• DAS
• DSS
• DTS

The base years considered for all the estimations by analyzing trends and growth rate will help you gain an in-depth understanding of the conclusions provided in this report. This report also includes figures, graphs, pie charts, tables and bar graphs that explain the data analysis based on current trends at the country level as well as key regions. This research report also focuses on assessing factors such as profit, product price, capacity, production, supply demand market growth rate along with others to create a clear picture on the future prospects of this market.

Author's Detail

Manoj Phagare

Senior Research Analyst at Cognitive Market Research

LinkedIn

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• Worked on several market, industry & business research projects, on various models such as Syndicated, Custom, Subscriptions and Consults
• Proficient in secondary research and familiar with all paid research databases
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Author's Conclusion