세계의 분산형 광섬유 센서(DFOS) 시장 : 광섬유 유형별, 작동 원리별, 산란 프로세스별, 용도별 - 예측(-2030년)

Distributed Fiber Optic Sensor Market by Fiber Type (Single-Mode, Multimode), Operating Principle (OTDR, OFDR), Scattering Process (Rayleigh, Brillouin, and Raman Scattering Effects), Application (Temperature, Acoustic, Strain) - Global Forecast to 2030

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한글목차

세계 분산형 광섬유 센서(DFOS) 시장 규모는 2024년 14억 1,170만 달러, 2030년까지 26억 3,070만 달러에 달할 것으로 예상되며, 2024-2030년 연평균 10.9% 성장할 전망입니다.

석유 및 가스 산업은 자동화와 디지털화가 빠르게 진행되고 있으며, 운전 중 높은 안전성과 효율성을 보장하기 위해 첨단 모니터링 기술이 요구되고 있습니다. 이에 따라 분산형 광섬유 센서(DFOS) 시장이 크게 성장할 가능성이 있습니다. 전 세계 건물, 교량, 터널 등에서 효과적인 구조물 건전성 모니터링의 필요성도 실시간으로 정확한 분산형 센싱 기능을 제공하는 DFOS 시스템의 사용을 촉진하고 있습니다.

조사 범위
조사 대상년도	2020-2030년
기준 연도	2023년
예측 기간	2024-2030년
단위	10억 달러
부문	섬유 유형, 작동 원리, 산란 과정, 용도, 지역
대상 지역	북미, 유럽, 아시아태평양 및 기타 지역

"OTDR은 예측 기간 동안 큰 시장 점유율을 차지할 것입니다."

OTDR은 다양한 산업, 특히 통신, 석유 및 가스, 인프라 분야에서 광섬유 테스트 및 모니터링의 신뢰성과 정확성으로 명성을 얻으며 분산형 광섬유 센서(DFOS) 시장에서 큰 점유율을 차지하고 있습니다. 최소한의 신호 손실로 장거리 고장을 감지할 수 있는 OTDR의 능력은 정확성이 필수적인 대규모 응용 분야에서 높은 평가를 받고 있습니다.

"레이리 산란 및 브래그 격자 방식 부문이 시장에서 가장 높은 CAGR로 성장할 것으로 예상됩니다."

이 성장의 주요 요인은 변형 및 온도와 같은 거의 모든 물리적 매개 변수를 측정할 수 있다는 점이 그 가치를 높이고 있습니다. 빛 산란의 원리를 활용하여 전파 효과를 감지하고 강조하여 물리적 변화를 정확하게 감지 할 수 있습니다. 레이리 기반 센서는 진동이나 음파를 모니터링하기 위해 만들어진 분산형 음향 감지 시스템에 자주 채택됩니다. 또한, 파이버 브래그 센서는 매우 다재다능하고, 고온에서 뛰어난 성능을 발휘하며, 매우 정확한 변형률 측정이 가능합니다. 저손실, 전자기 간섭에 대한 내성, 하나의 광섬유에 여러 개의 격자를 다중화하여 다점 감지를 가능하게 하는 기능 등 여러 가지 장점이 있습니다.

"북미가 예측 기간 동안 큰 비중을 차지할 것으로 예상됩니다."

이 지역의 강력한 석유 및 가스 산업은 분산형 광섬유 센서(DFOS) 기술의 큰 성장과 발전을 계속 만들어 내고 있습니다. 미국 교통부에 따르면, 미국은 세계 최대 규모의 석유 및 가스 파이프라인 네트워크를 보유하고 있으며, 파이프라인의 길이는 200만km가 넘습니다. 북미 전역에 걸쳐 석유를 운송하는 광범위한 파이프라인 네트워크가 있기 때문에 DFOS 시스템은 파이프라인의 무결성 유지, 누출 감지, 유량 보장 및 기타 모니터링 기능을 제공하는 데 널리 사용되고 있습니다. 셰일가스 탐사의 성장은 석유 및 가스 산업을 더욱 강화하여 시장에 긍정적인 영향을 미칠 것입니다.

세계 분산형 광섬유 센서(DFOS) 시장에 대해 조사 분석했으며, 주요 촉진요인과 억제요인, 경쟁 구도, 향후 동향 등의 정보를 전해드립니다.

목차

제1장 서론

제2장 조사 방법

제3장 주요 요약

제4장 프리미엄 인사이트

• 분산형 광섬유 센서(DFOS) 시장 기업에 있어서 매력적인 기회
• 분산형 광섬유 센서(DFOS) 시장 : 섬유 유형별
• 분산형 광섬유 센서(DFOS) 시장 : 산란 방식별
• 분산형 광섬유 센서(DFOS) 시장 : 동작 원리별
• 북미의 분산형 광섬유 센서(DFOS) 시장 : 섬유 유형별, 국가별
• 분산형 광섬유 센서(DFOS) 시장 : 국가별

제5장 시장 개요

• 서론
• 시장 역학
  • 성장 촉진요인
  • 성장 억제요인
  • 기회
  • 과제
• 밸류체인 분석
• 생태계 분석
• 고객의 비즈니스에 영향을 미치는 동향/혼란
• 기술 분석
  • 주요 기술
  • 보완 기술
  • 인접 기술
• 투자와 자금조달 시나리오
• Porter의 Five Forces 분석
• 주요 이해관계자와 구입 기준
• 사례 연구 분석
• 무역 분석
  • 수입 시나리오(HS코드 9001)
  • 수출 시나리오(HS코드 9001)
• 특허 분석
• 주요 컨퍼런스 및 이벤트(2024년-2025년)
• 관세 및 규제 상황
  • 관세 분석(HS코드 9001)
  • 규제기관, 정부기관, 기타 조직
  • 규제
• 분산형 광섬유 센서(DFOS) 시장에 대한 생성형 AI/AI의 영향
• 가격 분석
  • 분산형 광섬유 센서(DFOS) 평균 판매 가격 동향 : 용도별(2020년-2023년)
  • 분산형 광섬유 센서(DFOS) 평균 판매 가격 동향 : 지역별(2020년-2023년)

제6장 분산형 광섬유 센서(DFOS) 시장 : 섬유 유형별

• 서론
• 싱글 모드
• 멀티 모드

제7장 분산형 광섬유 센서(DFOS) 시장 : 동작 원리별

• 서론
• OTDR
• OFDR

제8장 분산형 광섬유 센서(DFOS) 시장 : 산란 방식별

• 서론
• RAMAN SCATTERING METHOD
• RAYLEIGH SCATTERING & FIBER BRAGG GRATING METHOD
• BRILLOUIN SCATTERING METHOD

제9장 분산형 광섬유 센서(DFOS) 시장 : 용도별

• 서론
• 온도 감지
• 소리 감지
• 스트레인 감지

제10장 분산형 광섬유 센서(DFOS) 시장 : 업계별

• 서론
• 석유 및 가스
• 전력 및 유틸리티
• 안전 및 보안
• 산업
• 인프라
• 통신

제11장 분산형 광섬유 센서(DFOS) 시장 : 지역별

• 서론
• 북미
  • 북미의 거시경제 전망
  • 미국
  • 캐나다
  • 멕시코
• 유럽
  • 유럽의 거시경제 전망
  • 러시아
  • 스칸디나비아
  • 영국
  • 독일
  • 기타 유럽
• 아시아태평양
  • 아시아태평양의 거시경제 전망
  • 중국
  • 일본
  • 인도네시아
  • 인도
  • 기타 아시아태평양
• 중동
  • 중동의 거시경제 전망
  • 사우디아라비아
  • 이라크
  • 이란
  • 기타 중동
• 기타 지역
  • 기타 지역의 거시경제 전망
  • 아프리카
  • 중남미

제12장 경쟁 구도

• 개요
• 주요 시장 진출기업의 전략/강점(2021년-2024년)
• 매출 분석(2019년-2023년)
• 시장 점유율 분석(2023년)
• 기업 평가와 재무 지표(2024년)
• 브랜드 비교
• 기업 평가 매트릭스 : 주요 기업(2023년)
• 기업 평가 매트릭스 : 스타트업/중소기업(2023년)
• 경쟁 시나리오

제13장 기업 개요

• 주요 기업
  • SLB
  • HALLIBURTON
  • YOKOGAWA ELECTRIC CORPORATION
  • WEATHERFORD
  • LUNA INNOVATIONS INCORPORATED
  • OFS FITEL, LLC
  • BANDWEAVER
  • OMNISENS
  • AP SENSING
  • DARKPULSE INC
• 기타 기업
  • AFL
  • ARAGON PHOTONICS
  • CORNING INCORPORATED
  • FOTECH
  • HIFI ENGINEERING INC.
  • HAWK MEASUREMENT SYSTEMS
  • NKT PHOTONICS A/S
  • OPTROMIX, INC.
  • OZ OPTICS LTD.
  • SENSORNET
  • SENSURON
  • COM & SENS
  • SOLIFOS
  • VIAVI SOLUTIONS INC.
  • ZIEBEL

제14장 부록

LSH

영문 목차

영문목차

The market for distributed fiber optic sensors (DFOS) is projected to increase at a compound annual growth rate (CAGR) of 10.9% from 2024 to 2030, from an estimated USD 1,411.7 million in 2024 to USD 2,630.7 million by 2030. The oil and gas industry is undergoing fast automation and digitization, where highly advanced monitoring technologies are needed to ensure high safety and efficiency during operation. This may lead to a significant growth in the distributed fiber optic sensors (DFOS) market. The need to impose effective structural health monitoring in buildings, bridges, and tunnels, among others, around the world is also fueling the use of DFOS systems, offering real-time, accurate, and distributed sensing capabilities.

Scope of the Report
Years Considered for the Study	2020-2030
Base Year	2023
Forecast Period	2024-2030
Units Considered	Value (USD Billion)
Segments	By Fiber Type, Operating Principle, Scattering Process, Application and Region
Regions covered	North America, Europe, APAC, RoW

"Market for optical time domain reflectometry to hold larger market share during the forecast period."

The optical time domain reflectometry (OTDR) held a larger share in the market of the distributed fiber optic sensor due to its established reputation in terms of reliability and accuracy in testing and monitoring the fiber optic across various industries, most notably telecommunications, oil & gas, and infrastructure. Its ability to detect faults over long distances, often with minimal signal loss, highly values it for large-scale applications where precision is essential.

"Rayleigh scattering and Bragg grating method segment to grow at the highest CAGR for distributed fiber optic sensor market."

Rayleigh scattering and Bragg grating method method is expected to grow at the highest CAGR in the distributed fiber optic sensor market. The key factor behind this growth being its capability to measure nearly all physical parameters such as strain and temperature, which drives its value. By leveraging the light scattering principle, it can detect and highlight propagating effects, enabling precise sensing of physical changes. Rayleigh-based sensors are often employed in distributed acoustic sensing systems that are created to monitor vibrations and acoustic waves. Additionally, Fiber Bragg sensors are highly versatile and can perform well in high temperature applications and provide very accurate strain measurements. They offer several advantages, including low loss, immunity to electromagnetic interference, and the capability to multiplex multiple gratings along a single fiber, enabling multi-point sensing.

"North America is expected to hold significant share during the forecast timeline."

North America is expected to dominate in terms of market share in the distributed fiber optic sensor market during the forecast period. The strong oil and gas industry in the region continues to create significant growth and advancements for the distributed fiber optic sensor technology. According to the US Department of Transportation, the US has the largest oil & gas pipeline network in the world, with more than 2 million km of pipelines. As North America has an extensive network of pipelines transporting oil all across the regions, DFOS systems are widely used for pipeline integrity maintenance, leakage detection, flow assurance provision, and other monitoring functions. Growth in shale gas exploration will further intensify the oil & gas industry, and this should have a positive impact on the market.

Extensive primary interviews were conducted with key industry experts in the distributed fiber optic sensor market space to determine and verify the market size for various segments and subsegments gathered through secondary research. The break-up of primary participants for the report has been shown below: The break-up of the profile of primary participants in the distributed fiber optic sensor market:

• By Company Type: Tier 1 - 25%, Tier 2 - 35%, and Tier 3 - 40%
• By Designation: C-Level Executives - 30%, Directors - 40%, Others - 30%
• By Region: North America - 35%, Europe - 30%, Asia Pacific - 25%, ROW- 10%

The report profiles key players in the distributed fiber optic sensor market. Prominent players profiled in this report are SLB (US), Halliburton (US), Yokogawa Electric Corporation (Japan), Weatherford (US), Luna Innovations Incorporated (US), Omnisens (Switzerland), OFS Fitel, LLC (US), Bandweaver (UK), AP Sensing (Germany), and DarkPulse Inc (US), among others.

Apart from this, AFL (US), Aragon Photonics (Spain), Corning Incorporated (US), FOTECH (UK), Hifi Engineering Inc. (Canada), Hawk Measurement Systems (Australia), NKT Photonics A/S (Denmark), Optromix, Inc. (US), OZ Optics Ltd. (Canada), Sensornet (UK), SENSURON (US), Com & Sens (Belgium), Solifos (Switzerland), VIAVI Solutions Inc. (US), Ziebel (US), are among a few emerging companies in the distributed fiber optic sensor market.

Research Coverage: This research report categorizes the distributed fiber optic sensor market based on fiber type (single-mode, multi-mode), operating principle, (optical time domain reflectometry, optical frequency domain reflectometry), application (temperature sensing, acoustic sensing, strain sensing), scattering method (Raman scattering method, Rayleigh scattering & Bragg grating method, Brillouin scattering method), vertical (oil & gas, power & utility, safety & security, industrial, infrastructure, telecommunications, others), and region (North America, Middle East, Europe, Asia Pacific, RoW). The report describes the major drivers, restraints, challenges, and opportunities pertaining to the distributed fiber optic sensor market and forecasts the same till 2030. Apart from these, the report also consists of leadership mapping and analysis of all the companies included in the distributed fiber optic sensor ecosystem.

Key Benefits of Buying the Report The report will help the market leaders/new entrants in this market with information on the closest approximations of the revenue numbers for the overall distributed fiber optic sensor market and the subsegments. This report will help stakeholders understand the competitive landscape and gain more insights to position their businesses better and plan suitable go-to-market strategies. The report also helps stakeholders understand the pulse of the market and provides them with information on key market drivers, restraints, challenges, and opportunities. The report provides insights on the following pointers:

• Analysis of key drivers (rapid digitalization and automation in oil & gas sector, rising emphasis on efficient structural health monitoring, and rise in smart cities and adoption of Internet of Things), restraints (technical issues associated with installing distributed sensors), opportunities (stringent statutory regulations regarding leak detection, growing emphasis on data-driven decision-making, rising implementation of stringent regulations to reduce emissions), and challenges (High costs of distributed sensor technologies) influencing the growth of the distributed fiber optic sensor market.
• Product Development/Innovation: Detailed insights on upcoming technologies, research & development activities, and new product & service launches in the distributed fiber optic sensor market.
• Market Development: Comprehensive information about lucrative markets - the report analysis the distributed fiber optic sensor market across varied regions
• Market Diversification: Exhaustive information about new products & services, untapped geographies, recent developments, and investments in the distributed fiber optic sensor market
• Competitive Assessment: In-depth assessment of market shares, growth strategies, and service offerings of leading players like SLB (US), Halliburton (US), Yokogawa Electric Corporation (Japan), Weatherford (US), Luna Innovations Incorporated (US), among others in the distributed fiber optic sensor market.

TABLE OF CONTENTS

1 INTRODUCTION

• 1.1 STUDY OBJECTIVES
• 1.2 MARKET DEFINITION
• 1.3 STUDY SCOPE
  • 1.3.1 MARKETS COVERED AND REGIONAL SCOPE
  • 1.3.2 INCLUSIONS AND EXCLUSIONS
  • 1.3.3 YEARS CONSIDERED
• 1.4 CURRENCY CONSIDERED
• 1.5 UNITS CONSIDERED
• 1.6 STAKEHOLDERS
• 1.7 SUMMARY OF CHANGES

2 RESEARCH METHODOLOGY

• 2.1 RESEARCH DATA
  • 2.1.1 SECONDARY DATA
    • 2.1.1.1 List of key secondary sources
    • 2.1.1.2 Key data from secondary sources
  • 2.1.2 PRIMARY DATA
    • 2.1.2.1 List of primary interview participants
    • 2.1.2.2 Breakdown of primaries
    • 2.1.2.3 Key data from primary sources
    • 2.1.2.4 Key industry insights
  • 2.1.3 SECONDARY AND PRIMARY RESEARCH
• 2.2 MARKET SIZE ESTIMATION METHODOLOGY
  • 2.2.1 BOTTOM-UP APPROACH
    • 2.2.1.1 Approach to arrive at market size using bottom-up analysis (demand side)
  • 2.2.2 TOP-DOWN APPROACH
    • 2.2.2.1 Approach to arrive at market size using top-down analysis (supply side)
• 2.3 MARKET BREAKDOWN AND DATA TRIANGULATION
• 2.4 RESEARCH ASSUMPTIONS
• 2.5 RISK ANALYSIS
• 2.6 RESEARCH LIMITATIONS

3 EXECUTIVE SUMMARY

4 PREMIUM INSIGHTS

• 4.1 ATTRACTIVE OPPORTUNITIES FOR PLAYERS IN DISTRIBUTED FIBER OPTIC SENSOR MARKET
• 4.2 DISTRIBUTED FIBER OPTIC SENSOR MARKET, BY FIBER TYPE
• 4.3 DISTRIBUTED FIBER OPTIC SENSOR MARKET, BY SCATTERING METHOD
• 4.4 DISTRIBUTED FIBER OPTIC SENSOR MARKET, BY OPERATING PRINCIPLE
• 4.5 DISTRIBUTED FIBER OPTIC SENSOR MARKET IN NORTH AMERICA, BY FIBER TYPE AND COUNTRY
• 4.6 DISTRIBUTED FIBER OPTIC SENSOR MARKET, BY COUNTRY

5 MARKET OVERVIEW

• 5.1 INTRODUCTION
• 5.2 MARKET DYNAMICS
  • 5.2.1 DRIVERS
    • 5.2.1.1 Rapid digitalization and automation in oil & gas sector
    • 5.2.1.2 Rising emphasis on efficient structural health monitoring
    • 5.2.1.3 Increasing innovation in sensors to improve wellbore surveillance
    • 5.2.1.4 Rise in smart cities and adoption of Internet of Things
  • 5.2.2 RESTRAINTS
    • 5.2.2.1 Technical issues associated with installing distributed sensors
    • 5.2.2.2 High initial investments
  • 5.2.3 OPPORTUNITIES
    • 5.2.3.1 Growing emphasis on data-driven decision-making
    • 5.2.3.2 Increasing offshore drilling and oil & gas exploration
    • 5.2.3.3 Rising implementation of stringent regulations to reduce emissions
  • 5.2.4 CHALLENGES
    • 5.2.4.1 High costs of distributed sensor technologies
• 5.3 VALUE CHAIN ANALYSIS
• 5.4 ECOSYSTEM ANALYSIS
• 5.5 TRENDS/DISRUPTIONS IMPACTING CUSTOMER BUSINESS
• 5.6 TECHNOLOGY ANALYSIS
  • 5.6.1 KEY TECHNOLOGIES
    • 5.6.1.1 Quasi-distributed sensing
    • 5.6.1.2 Distributed sensing
    • 5.6.1.3 Interferometry
  • 5.6.2 COMPLEMENTARY TECHNOLOGIES
    • 5.6.2.1 Internet of Things
  • 5.6.3 ADJACENT TECHNOLOGIES
    • 5.6.3.1 Wireless sensor networks
• 5.7 INVESTMENT AND FUNDING SCENARIO
• 5.8 PORTER'S FIVE FORCES ANALYSIS
  • 5.8.1 INTENSITY OF COMPETITIVE RIVALRY
  • 5.8.2 BARGAINING POWER OF SUPPLIERS
  • 5.8.3 BARGAINING POWER OF BUYERS
  • 5.8.4 THREAT OF SUBSTITUTES
  • 5.8.5 THREAT OF NEW ENTRANTS
• 5.9 KEY STAKEHOLDERS AND BUYING CRITERIA
  • 5.9.1 KEY STAKEHOLDERS IN BUYING PROCESS
  • 5.9.2 BUYING CRITERIA
• 5.10 CASE STUDY ANALYSIS
  • 5.10.1 AP SENSING PROVIDES DISTRIBUTED ACOUSTIC SENSING SOLUTION FOR POWER CABLE FAULT DETECTION IN EUROPE
  • 5.10.2 DEUTSCHE BAHN UTILIZES AP SENSING'S N52-SERIES DISTRIBUTED ACOUSTIC SENSING UNIT TO PREVENT CABLE THEFT
  • 5.10.3 PUBLIC WORKS AUTHORITY OF QATAR INSTALLS AP SENSING LINEAR HEAT DETECTION DEVICES FOR MONITORING PURPOSES
  • 5.10.4 SLB INTRODUCES WELLWATCHER BRITEBLUE HT DISTRIBUTED TEMPERATURE SENSING FIBER TO MONITOR STEAM FLOOD OPERATING TEMPERATURE IN CANADA
  • 5.10.5 SLB DEPLOYS HIGH DEFINITION VERTICAL SEISMIC DAS SYSTEM FOR BOREHOLE SEISMIC SURVEY IN BELGIUM
• 5.11 TRADE ANALYSIS
  • 5.11.1 IMPORT SCENARIO (HS CODE 9001)
  • 5.11.2 EXPORT SCENARIO (HS CODE 9001)
• 5.12 PATENT ANALYSIS
• 5.13 KEY CONFERENCES AND EVENTS, 2024-2025
• 5.14 TARIFF AND REGULATORY LANDSCAPE
  • 5.14.1 TARIFF ANALYSIS (HS CODE 9001)
  • 5.14.2 REGULATORY BODIES, GOVERNMENT AGENCIES, AND OTHER ORGANIZATIONS
  • 5.14.3 REGULATIONS
• 5.15 IMPACT OF GEN AI/AI ON DISTRIBUTED FIBER OPTIC SENSOR MARKET
• 5.16 PRICING ANALYSIS
  • 5.16.1 AVERAGE SELLING PRICE TREND OF DISTRIBUTED FIBER OPTIC SENSORS, BY APPLICATION, 2020-2023
  • 5.16.2 AVERAGE SELLING PRICE TREND OF DISTRIBUTED FIBER OPTIC SENSORS, BY REGION, 2020-2023

6 DISTRIBUTED FIBER OPTIC SENSOR MARKET, BY FIBER TYPE

• 6.1 INTRODUCTION
• 6.2 SINGLE-MODE
  • 6.2.1 RISING DEMAND FOR HIGH-SPEED, LONG-DISTANCE DATA TRANSMISSION TO FOSTER SEGMENTAL GROWTH
• 6.3 MULTI-MODE
  • 6.3.1 INCREASING USE IN SHORT-DISTANCE, HIGH-DENSITY ENVIRONMENTS TO ACCELERATE SEGMENTAL GROWTH

7 DISTRIBUTED FIBER OPTIC SENSOR MARKET, BY OPERATING PRINCIPLE

• 7.1 INTRODUCTION
• 7.2 OPTICAL TIME DOMAIN REFLECTOMETRY
  • 7.2.1 INCREASING ADOPTION OF FIBER OPTIC NETWORKS IN TELECOM, DATA CENTER, AND OTHER INDUSTRIES TO DRIVE MARKET
• 7.3 OPTICAL FREQUENCY DOMAIN REFLECTOMETRY
  • 7.3.1 RISING NEED TO CLOSELY EXAMINE HYDROGEOLOGICAL PROCESSES TO BOOST SEGMENTAL GROWTH

8 DISTRIBUTED FIBER OPTIC SENSOR MARKET, BY SCATTERING METHOD

• 8.1 INTRODUCTION
• 8.2 RAMAN SCATTERING METHOD
  • 8.2.1 MOUNTING DEMAND FOR REAL-TIME TEMPERATURE MONITORING IN OIL & GAS AND OTHER INDUSTRIES TO EXPEDITE SEGMENTAL GROWTH
• 8.3 RAYLEIGH SCATTERING & FIBER BRAGG GRATING METHOD
  • 8.3.1 RISING NEED FOR PRECISE, LONG-DISTANCE INFRASTRUCTURE MONITORING TO BOLSTER SEGMENTAL GROWTH
• 8.4 BRILLOUIN SCATTERING METHOD
  • 8.4.1 INCREASING FOCUS ON DUAL-PARAMETER MONITORING IN STRUCTURAL HEALTH APPLICATIONS TO DRIVE MARKET

9 DISTRIBUTED FIBER OPTIC SENSOR MARKET, BY APPLICATION

• 9.1 INTRODUCTION
• 9.2 TEMPERATURE SENSING
  • 9.2.1 BURGEONING DEMAND FOR ACCURATE, LONG-RANGE, AND RELIABLE MONITORING TECHNOLOGIES TO DRIVE MARKET
• 9.3 ACOUSTIC SENSING
  • 9.3.1 INCREASING FOCUS ON MONITORING AND SURVEILLANCE OF PIPELINE SYSTEMS TO FOSTER SEGMENTAL GROWTH
• 9.4 STRAIN SENSING
  • 9.4.1 MOUNTING ADOPTION OF SMART INFRASTRUCTURE AND IOT-DRIVEN SYSTEMS TO CONTRIBUTE TO SEGMENTAL GROWTH

10 DISTRIBUTED FIBER OPTIC SENSOR MARKET, BY VERTICAL

• 10.1 INTRODUCTION
• 10.2 OIL & GAS
  • 10.2.1 RISING DEPLOYMENT OF DISTRIBUTED ACOUSTIC SENSING SYSTEMS TO MONITOR AND CONTROL PIPELINE SYSTEMS TO DRIVE MARKET
• 10.3 POWER & UTILITY
  • 10.3.1 RAPID EXPANSION OF ALL-FIBER NETWORKS TO CONTRIBUTE TO SEGMENTAL GROWTH
• 10.4 SAFETY & SECURITY
  • 10.4.1 INCREASING NEED FOR REAL-TIME, CONTINUOUS MONITORING OF CRITICAL INFRASTRUCTURE TO AUGMENT SEGMENTAL GROWTH
• 10.5 INDUSTRIAL
  • 10.5.1 RISING INTEGRATION OF IOT AND OTHER ADVANCED TECHNOLOGIES INTO AUTOMATION SOLUTIONS TO BOLSTER SEGMENTAL GROWTH
• 10.6 INFRASTRUCTURE
  • 10.6.1 GROWING EMPHASIS ON MONITORING HERITAGE STRUCTURES USING FIBER OPTIC SENSORS TO FUEL SEGMENTAL GROWTH
• 10.7 TELECOMMUNICATIONS
  • 10.7.1 MOUNTING DEMAND FOR HIGH-SPEED DATA TRANSMISSION AND BANDWIDTH TO CONTRIBUTE TO SEGMENTAL GROWTH

11 DISTRIBUTED FIBER OPTIC SENSOR MARKET, BY REGION

• 11.1 INTRODUCTION
• 11.2 NORTH AMERICA
  • 11.2.1 MACROECONOMIC OUTLOOK FOR NORTH AMERICA
  • 11.2.2 US
    • 11.2.2.1 Increasing production of oil and related products to contribute to market growth
  • 11.2.3 CANADA
    • 11.2.3.1 Growing emphasis on fire and safety measures to accelerate market growth
  • 11.2.4 MEXICO
    • 11.2.4.1 Rising focus on preventing hazardous incidents in oil & gas sector to foster market growth
• 11.3 EUROPE
  • 11.3.1 MACROECONOMIC OUTLOOK FOR EUROPE
  • 11.3.2 RUSSIA
    • 11.3.2.1 Rising investment in energy & defense sectors to drive market
  • 11.3.3 SCANDINAVIA
    • 11.3.3.1 Increasing penetration of renewable energy in Scandinavian countries to spur market growth
  • 11.3.4 UK
    • 11.3.4.1 Burgeoning demand for structural health monitoring solutions to boost market growth
  • 11.3.5 GERMANY
    • 11.3.5.1 Rapid infrastructure development to contribute to market growth
  • 11.3.6 REST OF EUROPE
• 11.4 ASIA PACIFIC
  • 11.4.1 MACROECONOMIC OUTLOOK FOR ASIA PACIFIC
  • 11.4.2 CHINA
    • 11.4.2.1 Rising focus on meeting energy demand to contribute to market growth
  • 11.4.3 JAPAN
    • 11.4.3.1 Increasing export of liquefied natural gas to augment market growth
  • 11.4.4 INDONESIA
    • 11.4.4.1 Ongoing oil & gas exploration activities to bolster market growth
  • 11.4.5 INDIA
    • 11.4.5.1 Rapid expansion of power transmission networks to fuel market growth
  • 11.4.6 REST OF ASIA PACIFIC
• 11.5 MIDDLE EAST
  • 11.5.1 MACROECONOMIC OUTLOOK FOR MIDDLE EAST
  • 11.5.2 SAUDI ARABIA
    • 11.5.2.1 Rising oil & gas production projects to boost market growth
  • 11.5.3 IRAQ
    • 11.5.3.1 Increasing focus on infrastructure modernization to augment market growth
  • 11.5.4 IRAN
    • 11.5.4.1 Rising government initiatives related to oil & gas production to spur market growth
  • 11.5.5 REST OF MIDDLE EAST
• 11.6 ROW
  • 11.6.1 MACROECONOMIC OUTLOOK FOR ROW
  • 11.6.2 AFRICA
    • 11.6.2.1 Rising government initiatives to enhance industrial sector to drive market
  • 11.6.3 SOUTH & CENTRAL AMERICA
    • 11.6.3.1 Brazil
      • 11.6.3.1.1 High government expenditure on infrastructure to accelerate market growth
    • 11.6.3.2 Argentina
      • 11.6.3.2.1 Thriving industrial and safety & security verticals to expedite market growth
    • 11.6.3.3 Venezuela
      • 11.6.3.3.1 Escalating oil & gas production and infrastructure modernization to foster market growth
    • 11.6.3.4 Rest of South & Central America

12 COMPETITIVE LANDSCAPE

• 12.1 OVERVIEW
• 12.2 KEY PLAYER STRATEGIES/RIGHT TO WIN, 2021-2024
• 12.3 REVENUE ANALYSIS, 2019-2023
• 12.4 MARKET SHARE ANALYSIS, 2023
• 12.5 COMPANY VALUATION AND FINANCIAL METRICS, 2024
• 12.6 BRAND COMPARISON
• 12.7 COMPANY EVALUATION MATRIX: KEY PLAYERS, 2023
  • 12.7.1 STARS
  • 12.7.2 EMERGING LEADERS
  • 12.7.3 PERVASIVE PLAYERS
  • 12.7.4 PARTICIPANTS
  • 12.7.5 COMPANY FOOTPRINT: KEY PLAYERS, 2023
    • 12.7.5.1 Company footprint
    • 12.7.5.2 Region footprint
    • 12.7.5.3 Application footprint
    • 12.7.5.4 Vertical footprint
• 12.8 COMPANY EVALUATION MATRIX: STARTUPS/SMES, 2023
  • 12.8.1 PROGRESSIVE COMPANIES
  • 12.8.2 RESPONSIVE COMPANIES
  • 12.8.3 DYNAMIC COMPANIES
  • 12.8.4 STARTING BLOCKS
  • 12.8.5 COMPETITIVE BENCHMARKING: STARTUPS/SMES, 2023
    • 12.8.5.1 Detailed list of key startups/SMEs
    • 12.8.5.2 Competitive benchmarking of key startups/SMEs
• 12.9 COMPETITIVE SCENARIO
  • 12.9.1 PRODUCT LAUNCHES
  • 12.9.2 DEALS

13 COMPANY PROFILES

• 13.1 KEY PLAYERS
  • 13.1.1 SLB
    • 13.1.1.1 Business overview
    • 13.1.1.2 Products/Services/Solutions offered
    • 13.1.1.3 Recent developments
      • 13.1.1.3.1 Deals
    • 13.1.1.4 MnM view
      • 13.1.1.4.1 Key strengths/Right to win
      • 13.1.1.4.2 Strategic choices
      • 13.1.1.4.3 Weaknesses/Competitive threats
  • 13.1.2 HALLIBURTON
    • 13.1.2.1 Business overview
    • 13.1.2.2 Products/Services/Solutions offered
    • 13.1.2.3 Recent developments
      • 13.1.2.3.1 Deals
    • 13.1.2.4 MnM view
      • 13.1.2.4.1 Key strengths/Right to win
      • 13.1.2.4.2 Strategic choices
      • 13.1.2.4.3 Weaknesses/Competitive threats
  • 13.1.3 YOKOGAWA ELECTRIC CORPORATION
    • 13.1.3.1 Business overview
    • 13.1.3.2 Products/Services/Solutions offered
    • 13.1.3.3 Recent developments
      • 13.1.3.3.1 Product launches
      • 13.1.3.3.2 Deals
    • 13.1.3.4 MnM view
      • 13.1.3.4.1 Key strengths/Right to win
      • 13.1.3.4.2 Strategic choices
      • 13.1.3.4.3 Weaknesses/Competitive threats
  • 13.1.4 WEATHERFORD
    • 13.1.4.1 Business overview
    • 13.1.4.2 Products/Services/Solutions offered
    • 13.1.4.3 Recent developments
      • 13.1.4.3.1 Deals
    • 13.1.4.4 MnM view
      • 13.1.4.4.1 Key strengths/Right to win
      • 13.1.4.4.2 Strategic choices
      • 13.1.4.4.3 Weaknesses/Competitive threats
  • 13.1.5 LUNA INNOVATIONS INCORPORATED
    • 13.1.5.1 Business overview
    • 13.1.5.2 Products/Services/Solutions offered
    • 13.1.5.3 Recent developments
      • 13.1.5.3.1 Deals
    • 13.1.5.4 MnM view
      • 13.1.5.4.1 Key strengths/Right to win
      • 13.1.5.4.2 Strategic choices
      • 13.1.5.4.3 Weaknesses/Competitive threats
  • 13.1.6 OFS FITEL, LLC
    • 13.1.6.1 Business overview
    • 13.1.6.2 Products/Services/Solutions offered
    • 13.1.6.3 Recent developments
      • 13.1.6.3.1 Product launches
      • 13.1.6.3.2 Deals
  • 13.1.7 BANDWEAVER
    • 13.1.7.1 Business overview
    • 13.1.7.2 Products/Services/Solutions offered
    • 13.1.7.3 Recent developments
      • 13.1.7.3.1 Product launches
  • 13.1.8 OMNISENS
    • 13.1.8.1 Business overview
    • 13.1.8.2 Products/Services/Solutions offered
  • 13.1.9 AP SENSING
    • 13.1.9.1 Business overview
    • 13.1.9.2 Products/Services/Solutions offered
    • 13.1.9.3 Recent developments
      • 13.1.9.3.1 Product launches
      • 13.1.9.3.2 Deals
  • 13.1.10 DARKPULSE INC
    • 13.1.10.1 Business overview
    • 13.1.10.2 Products/Services/Solutions offered
    • 13.1.10.3 Recent developments
      • 13.1.10.3.1 Deals
• 13.2 OTHER PLAYERS
  • 13.2.1 AFL
  • 13.2.2 ARAGON PHOTONICS
  • 13.2.3 CORNING INCORPORATED
  • 13.2.4 FOTECH
  • 13.2.5 HIFI ENGINEERING INC.
  • 13.2.6 HAWK MEASUREMENT SYSTEMS
  • 13.2.7 NKT PHOTONICS A/S
  • 13.2.8 OPTROMIX, INC.
  • 13.2.9 OZ OPTICS LTD.
  • 13.2.10 SENSORNET
  • 13.2.11 SENSURON
  • 13.2.12 COM & SENS
  • 13.2.13 SOLIFOS
  • 13.2.14 VIAVI SOLUTIONS INC.
  • 13.2.15 ZIEBEL

14 APPENDIX

• 14.1 INSIGHTS FROM INDUSTRY EXPERTS
• 14.2 DISCUSSION GUIDE
• 14.3 KNOWLEDGESTORE: MARKETSANDMARKETS' SUBSCRIPTION PORTAL
• 14.4 CUSTOMIZATION OPTIONS
• 14.5 RELATED REPORTS
• 14.6 AUTHOR DETAILS

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