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Structural Health Monitoring Market Size By Application (Large Machines & Equipment, Bridges & Dams, Vessels & Platforms, Building & Stadiums, and Airframes & Wind Turbines), By Solution Type (Software & Services and Hardware), By Technology (Wired and Wireless), Regions, Segmentation, and Projection till 2029

CAGR: 12%Current Market Size: USD 1.5 BillionFastest Growing Region: APAC

Largest Market: North AmericaProjection Time: 2022-2029Base Year: 2021

Global Structural Health Monitoring Market- Market Overview:

The Global Structural Health Monitoring market is expected to grow from USD 1.5 billion in 2021 to USD 3.71 billion by 2029, at a CAGR of 12% during the Projection period 2022-2029. The growth of this market is mainly driven owing to the increasing development in infrastructure.

The practise of examining and scanning 3D, aerospace, civil, mechanical, and infrastructure structures to find defects and anomalies is known as structural health monitoring (SHM). Multiple sensors that provide continuous data for the duration of the structure's service life are used to gather information. In order to stop any anomalies brought on by wear and tear, poor construction, a lack of quality control, or an excessive amount of accidental or environmental load, non-destructive acoustic emission, ultrasonic, and thermal imaging technologies are used. SHM is frequently used for roads, rigs, wind farms, power plants, and oil and gas pipelines. It is used to identify internal and external wear and malfunction in heavy commercial vehicles, aircraft, and marine vessels. This technology combines software, sensors, analytical tools, measuring amplifiers, and data collecting and transmission systems. The technology is crucial in employing predictive maintenance to find faults, improves building safety, and enables automatic reaction, which saves time and money. These systems are being used in underdeveloped nations as part of ongoing, massive initiatives like smart cities to monitor the overall condition of the infrastructure. These initiatives will probably influence the market's future throughout the ensuing years. In addition, the Chinese government adopted legislation in 2014 mandating the deployment of the SHM system in newly constructed bridges and buildings. Additionally, it stresses the importance of reliable, replaceable sensors with a 20-year service life.

Structural Health Monitoring Market By CAGR

Sample Request: - Global Structural Health Monitoring Market

Market Dynamics:

Drivers:                          

  • Government safety actions are being increased, and the SHM system is being standardised

Throughout its lifetime, heavy structures like dams, bridges, and buildings are vulnerable to a variety of strong loadings. During typhoons, cyclones, hurricanes, earthquakes, etc., these loadings get stronger. These occurrences have the potential to seriously compromise a building's structural integrity, cause catastrophic damage, and even take lives. However, putting SHM technologies in place would save down on repair and maintenance expenses throughout the course of a structure's life. These systems are essential for maintaining the structural integrity of important buildings, such as hospitals or national monuments. Additionally, proactive government actions to address the aforementioned issues are anticipated to fuel the expansion of the global structural health monitoring market throughout the course of the projected period. For instance, China's Ministry of Transportation issued a national design code for structural health monitoring in October 2014 that mandates SHM systems be planned concurrently with infrastructures to guarantee the systems' quality and integrity as the infrastructures are being built. Additionally, GOST R 53778-2010, a Russian standard, has been expanded upon and authorised as GOST 31937-2011, a Eurasian standard. Similar to GOST R 53778-2010, this standard requires the construction of structural health monitoring systems in nations including Russia, Tajikistan, and the Ukraine. The Russian Standards for Buildings and Constructions' National Standard Department has given its approval to this standard.

Restraints:                                             

  • Lack of skilled professionals

The vast majority of structural health monitoring tools now available are built using traditional damage tolerance techniques. As a result, non-destructive inspection (NDI) techniques have been developed, some of which are time-consuming and call for highly qualified specialists, such as operators and inspectors. For instance, applications in ships and aeroplanes necessitate component disassembly, which necessitates docking ships and docking aircraft, both of which waste time. Over the course of the projected period, it is also anticipated that a lack of qualified personnel to deploy, design, and manage SHM systems will restrain market expansion.

Opportunities:

  • Growing funding assistance for smart city initiatives

Proactive government programmes and investments in the creation of smart cities, particularly in Africa and India, are anticipated to offer market participants lucrative expansion potential. The deployment of SHM will be essential to the creation of smart cities since it will allow for the monitoring of numerous structures, including buildings and roadways.

  • SHM system integration with mass notification systems (MNS)

The main functions of SHM systems are to monitor structures and report to the relevant qualified persons. However, the only alternative available to those responsible for maintaining the structure in the case of failure is notifying. A way to incorporate public alerting system measures in the event of emergencies and reduce the number of victims is also provided by the integration of MNS with SHM systems. Over the course of the projection period, these aspects are anticipated to offer significant growth possibilities for market participants.

Challenges                                     

  • Cyber-attack threats to networked SHM systems

Due to a lack of security safeguards, the majority of SHM systems currently in use function on wireless technology and are connected to the Internet. Important buildings including government-secured institutions, dams, bridges, and aeroplanes are also vulnerable to attacks and can result in a significant number of fatalities if system integrity is compromised. This is a crucial problem that SHM system designers must take into consideration. Therefore, these issues are anticipated to limit market expansion to some level.

Segmentation Analysis:

The global structural health monitoring market has been segmented based on application, solution type, technology, and regions.

By Application

The application segment is large machines & equipment, bridges & dams, vessels & platforms, building & stadiums, and airframes & wind turbines. The bridges & dams segment led the largest share of the structural health monitoring market with a market share of around 27.3% in 2021. More than 61,000 bridges across the nation had structural flaws in 2014, according to the U.S. Department of Transportation (DOT), necessitating extensive monitoring and inspection for maintenance and repair work. Similar to this, there is a growing need for structural health monitoring systems in other locations due to the increasing number of bridges that are both physically and functionally poor.

By Solution Type                                                                            

The solution type includes software & services and hardware. The hardware segment led the structural health monitoring market with a market share of around 63.08% in 2021. Due to the high cost of crucial SHM system components including sensors and data collecting systems, the segment is expanding. The installation of several hardware components is necessary to cover structures including buildings, dams, bridges, stadiums, and airframes. In terms of various hardware solutions, sensors are anticipated to be a more significant source of market income. The market is expanding as a result of improvements in sensor technology, an increase in the use of smart materials, and smart constructions with integrated sensors.

By Technology

The technology includes wired and wireless. The wired segment led the structural health monitoring market with a market share of around 74.08% in 2021.  Since they offer dependable connectivity, wired systems are frequently used for ongoing monitoring of many types of structures because they do not place any restrictions on long-distance data transfer. Furthermore, wired SHM systems are already being utilised globally for the evaluation of various structures, such as buildings, dams, and bridges in various nations.

Structural Health Monitoring Market By Technology

By Regional Analysis:

The regions analyzed for the structural health monitoring market include North America, Europe, South America, Asia Pacific, the Middle East, and Africa. The North America region dominated the Structural Health Monitoring market and held the 39% share of the market revenue in 2021.

  • North America region witnessed a major share. The need for structural health monitoring systems is growing in North America as a result of factors like the government's increased focus on maintaining and repairing civil infrastructure, the deteriorating infrastructure, and greater government spending. Additionally, to safeguard the safety and security of buildings and people, nations like the U.S. and Canada are increasingly depending on structural health monitoring systems. Civil infrastructure like bridges, dams, and tunnels have adopted structural health monitoring systems as a result of the rapid ageing of infrastructure in North America and Europe.
  • Asia Pacific is anticipated to experience significant growth during the Projection period. Structural health monitoring is becoming more important as a result of the considerable increase of infrastructure projects including bridges, power plants, and smart cities across Asia Pacific. In order to encourage economic growth, many nations, notably China, India, and others, are increasing their investments in infrastructure, such as buildings and bridges. Rapid urbanisation and the pressing demand for top-notch infrastructure are the main forces behind the market's expansion. Structural health monitoring systems will be in great demand to maintain and monitor the state of each structure and avoid catastrophic breakdowns as a result of the increase in civil infrastructure projects.

Global Structural Health Monitoring Market- Country Analysis:

  • Germany

Germany's structural health monitoring market size was valued at USD 0.072 billion in 2021 and is expected to reach USD 0.13 billion by 2029, at a CAGR of 8% from 2022 to 2029.

The demand in the German market is being driven by improvements in sensor technology and an increase in the use of smart sensors in structural health monitoring systems. In the past few years, fibre optic sensors have undergone tremendous advancement. It is widely used to measure a variety of factors in structural health monitoring, including structural displacements, acceleration, humidity, pressure, stresses, etc.

  • China

China Structural Health Monitoring’s market size was valued at USD 0.15 billion in 2021 and is expected to reach USD 0.31 billion by 2029, at a CAGR of 9.8% from 2022 to 2029. The market is being propelled by the rapidly expanding building and construction sector, increased public infrastructure spending by the government, growing safety concerns, and the presence of significant suppliers in China. The Chinese government is making significant investments in civil infrastructure and modern infrastructure to build and renovate ageing facilities. This will further increase demand for structural health monitoring systems in the nation throughout the course of the projection period.

  • India

India's Structural Health Monitoring market size was valued at USD 0.13 billion in 2021 and is expected to reach USD 0.26 billion by 2029, at a CAGR of 9.3% from 2022 to 2029.  The structural health monitoring market in India is expanding as a result of rising technology development and the country's booming building industry. Similar to how advances in sensor and wireless technology, regional player penetration, and lower sensor costs are anticipated to support market expansion for structural health monitoring in the nation.

Key Industry Players Analysis:                                                     

To increase their market position in the global Structural Health Monitoring business, top companies focus on tactics such as adopting new technology, mergers & acquisitions, product developments, collaborations, partnerships, joint ventures, etc.

  • Nova Metrix LLC
  • Geocomp Corporation
  • Acellent Technologies, Inc.
  • Campbell Scientific, Inc.
  • COWI
  • Sixense
  • GEOKON
  • National Instruments Corporation
  • Pure Technologies (Xylem, Inc.)
  • Digitex
  • SGS SA
  • Kinematrics

Latest Development:

  • In March 2021, The launch of the GeoNet 8900 series data gathering system was announced by Geokon. A low power wireless data collecting system called the GeoNet 8900 series collects information from sensors and provides safe online access to see the information.
  • In November 2020, The launch of S-lynks, a new tool for global real-time structural integrity monitoring of infrastructure and buildings, was announced by Sarcel.

Report Metrics

Report Attribute 

Details

Study Period

2021-2029

Base year

2021  

CAGR (%)

12%

Market Size

1.5 billion in 2021

Projection period

2022-2029

Projection unit

Value (USD)

Segments covered

By Application, By Solution Type, By Technology, and Region.

Report Scope

Revenue Projection, competitive landscape, company ranking, growth factors, and trends

Companies covered

Nova Metrix LLC, Geocomp Corporation, Acellent Technologies, Inc., Campbell Scientific, Inc., COWI, Sixense, GEOKON, National Instruments Corporation, Pure Technologies (Xylem, Inc.), Digitex, SGS SA, Kinematrics., among others

By Application

  • Large Machines & Equipment
  • Bridges & Dams
  • Vessels & Platforms
  • Building & Stadiums
  • Airframes & Wind Turbines

By Solution Type

  • Software & Services
  • Hardware

By Technology

  • Wired
  • Wireless

Regional scope

  • North America
  • Europe
  • Asia-Pacific
  • South America
  • Middle East and Africa

Scope of the Report

Global Structural Health Monitoring Market by Application:

  • Large Machines & Equipment
  • Bridges & Dams
  • Vessels & Platforms
  • Building & Stadiums
  • Airframes & Wind Turbines

Global Structural Health Monitoring Market by Solution Type:

  • Software & Services
  • Hardware

Global Structural Health Monitoring Market by Technology:

  • Wired
  • Wireless

Global Structural Health Monitoring Market by Region:

  • North America
    • USA
    • Canada
    • Mexico
  • Europe
    • Germany
    • France
    • UK
    • Italy
    • Spain
    • Russia
  • Asia-Pacific
    • Japan
    • China
    • India
    • Korea
    • Southeast Asia
  • South America
    • Brazil
    • Peru
  • Middle East and Africa
    • UAE
    • South Africa
    • Saudi Arabia

Frequently Asked Questions

What will be the market size of the Structural Health Monitoring market?

Global Structural Health Monitoring market is expected to reach USD 3.71 billion by 2029, at a CAGR of 12% from 2022 to 2029.

Which is the fastest growing market for structural health monitoring market?

Asia Pacific is the fastest growing market for structural health monitoring market.

What are the ongoing opportunities in the structural health monitoring market?

Using advanced smart sensor is projected to influence the market in the upcoming years.

Which is the leading segment based on solution in structural health monitoring market?

Hardware is a leading segment based on solution in structural health monitoring market.

Which are the leading market players active in the Structural Health Monitoring market?

Leading market players active in the global structural health monitoring market are Nova Metrix LLC, Geocomp Corporation, Acellent Technologies, Inc., Campbell Scientific, Inc., COWI, Sixense, GEOKON, National Instruments Corporation, Pure Technologies (Xylem, Inc.), Digitex, SGS SA, Kinematrics.

Political Factors- The government has many options for influencing the industry. The USA has a strong democratic system and an effective rule of law thanks to elections that are considered fair and transparent. The people choose one candidate to act as both the head of state and the head of government under a presidential democracy like the one practised in the USA. The USA is home to many tech behemoths, like Microsoft, Amazon, Google, Apple, and others, contributing to a strong economy. As a result, the government attempts to create more business-friendly regulations. The political situation of the country raises a lot of issues. Risks might come from trade restrictions, currency limitations, and monetary regulations. Businesses should take special steps to mitigate political risks. For instance, businesses can stay away from investments where this kind of risk is higher. Political risk insurance may be able to mitigate significant potential losses. Therefore, any functioning business experiences a direct impact from the political environment on its profitability.

Economical Factors- The US software and information technology (IT) sector is the most developed and expanding. And evidence of this may be found in the growth of the USA's GDP contribution and the creation of numerous job opportunities. The sector generates 11.8 million jobs and $1.6 trillion of the US value-added GDP, or more than 8% of the US economy. The USA is a high-income nation with a per capita income of more than $65,112. The American economy is capitalist, or you might say market-based. The global economy exposes the US economy to more external shocks. A slowdown in the economies of Europe or Asia has a greater impact on the US economy. For instance, the Indian IT industry depends heavily on foreign clients, particularly the USA, for more than 70% of its revenue; therefore, changes in the exchange rate can significantly impact the IT industry's performance as well as other sectors. The USA's inflation rate in 2019 was 2.3%, 0.4% higher than the inflation rate in 2018, which was 1.9%. Most of the physical and human resources needed for the information and technology sector are readily available because the USA is a developed country. Infrastructure refers to all the hardware and networking tools required to maintain an IT operation. Most empirical investigations have concluded that greater use of information and technology can boost GDP, productivity, and employment.

Social Factor- A social environment comprises a group of people's values, beliefs, habits, and activities. A company is impacted by both its internal social environment and the external social environment. Other social issues also have a strong impact on business. For instance, there is no official language in the United States. However, English is spoken by the majority of Americans, or close to 30 million people. English has been designated as an official language in 31 US states. There are 350 languages spoken in the USA besides English, some of which are Spanish, Chinese, French, etc. Given the variety of languages spoken there, communication in the nation is made simple. Additionally, the fact that English is a universal language makes it easier for IT companies to interact and collaborate with global businesses. The task is fairly simple for international corporations and businesses operating there due to the high level of education in economies like India, China, Japan, France, and the United States. There are plenty of qualified workers readily available for IT organisations.

Structural Health Monitoring Market By PESTEL

Technological Factors- Technological features, including R&D effort, automation, technology incentives, and the pace of technological progress are examples of technological factors. They can establish entry barriers, the minimum effective production level, and impact outsourcing choices. Additionally, changes in technology can have an impact on prices, quality, and innovation. A company should analyse the industry's technological state as well as how quickly it is being disrupted by technology. Slow technological disruption will allow more time, whereas rapid disruption may give a firm little time to adapt and be profitable.

Environmental Factors- Environmental considerations include ecological and environmental elements including weather, climate, and climate change, which may negatively impact some sectors of the economy like tourism, agriculture, and insurance. Additionally, as people become more aware of the possible effects of climate change, it changes how businesses run and the products they offer, creating new markets and eroding or eliminating existing ones. Climate changes, such as climate change, greenhouse gas emissions, and growing pollution, are effectively by prominent market players. It should emphasise waste management, recycling, renewable energy sources, and structural health monitoring wastage that decomposes naturally or artificially. It should also be aware of how its resources and waste are being used up, as this could negatively affect its brand reputation and consumer loyalty.

Legal Factors- The structural health monitoring industry are subject to very strict legislative requirements. Market players to gain consumer loyalty and faith in their brand products, it is crucial that it abide by all laws and binding rules and regulations. Nearly all nations now have laws that must be followed for consumer protection, data privacy, intellectual property rights (IPR), health and safety, employees and the workplace, and other topics. Therefore, it becomes essential for this business to conduct itself lawfully and ethically to prevent any legal proceedings or penalties or punishments from a court of law. The law is derived from five sources, similar to the United States, including common law, treaties, statutory law, and administrative regulations (which includes case law). Information technology law is a transaction-based discipline that deals with problems when businesses create, licence, buy, or sell products and services related to information technology and computers.

  1. Introduction
    • 1. Objectives of the Study
    • 2. Market Definition
    • 3. Research Scope
  2. Research Methodology and Assumptions
  3. Executive Summary
  4. Premium Insights
    • 1. Porter’s Five Forces Analysis
    • 2. Value Chain Analysis
    • 3. Top Investment Pockets
      • 3.1. Market Attractiveness Analysis By Application
      • 3.2. Market Attractiveness Analysis By Solution Type
      • 3.3. Market Attractiveness Analysis By Technology
      • 3.4. Market Attractiveness Analysis By Region
    • 4. Industry Trends
  5. Market Dynamics
    • 1. Market Evaluation
    • 2. Drivers
      • 2.1. Government safety actions are being increased, and the SHM system is being standardised
    • 3. Restraints
      • 3.1. Lack of skilled professionals
    • 4. Opportunities
      • 4.1. Expansion of end users
    • 5. Challenges
      • 5.1. Cyber-attack threats to networked SHM systems
  1. Global Structural Health Monitoring Market Analysis and Projection, By Application
    • 1. Segment Overview
    • 2. Large Machines & Equipment
    • 3. Bridges & Dams
    • 4. Vessels & Platforms
    • 5. Building & Stadiums
    • 6. Airframes & Wind Turbines
  2. Global Structural Health Monitoring Market Analysis and Projection, By Solution Type
    • 1. Segment Overview
    • 2. Software & Services
    • 3. Hardware
  3. Global Structural Health Monitoring Market Analysis and Projection, By Technology
    • 1. Segment Overview
    • 2. Wired
    • 3. Wireless
  4. Global Structural Health Monitoring Market Analysis and Projection, By Regional Analysis
    • 1. Segment Overview
    • 2. North America
      • 2.1. U.S.
      • 2.2. Canada
      • 2.3. Mexico
    • 3. Europe
      • 3.1. Germany
      • 3.2. France
      • 3.3. U.K.
      • 3.4. Italy
      • 3.5. Spain
    • 4. Asia-Pacific
      • 4.1. Japan
      • 4.2. China
      • 4.3. India
    • 5. South America
      • 5.1. Brazil
    • 6. Middle East and Africa
      • 6.1. UAE
      • 6.2. South Africa
  1. Global Structural Health Monitoring Market-Competitive Landscape
    • Overview
    • Market Share of Key Players in the Structural Health Monitoring Market
      • 2.1. Global Company Market Share
      • 2.2. North America Company Market Share
      • 2.3. Europe Company Market Share
      • 2.4. APAC Company Market Share
    • Competitive Situations and Trends
      • 3.1. Product Launches and Developments
      • 3.2. Partnerships, Collaborations, and Agreements
      • 3.3. Mergers & Acquisitions
      • 3.4. Expansions
  1. Company Profiles
    • Nova Metrix LLC
      • 1.1. Business Overview
      • 1.2. Company Snapshot
      • 1.3. Company Market Share Analysis
      • 1.4. Company Product Portfolio
      • 1.5. Recent Developments
      • 1.6. SWOT Analysis
    • Geocomp Corporation
      • 2.1. Business Overview
      • 2.2. Company Snapshot
      • 2.3. Company Market Share Analysis
      • 2.4. Company Product Portfolio
      • 2.5. Recent Developments
      • 2.6. SWOT Analysis
    • Acellent Technologies, Inc.
      • 3.1. Business Overview
      • 3.2. Company Snapshot
      • 3.3. Company Market Share Analysis
      • 3.4. Company Product Portfolio
      • 3.5. Recent Developments
      • 3.6. SWOT Analysis
    • Campbell Scientific, Inc.
      • 4.1. Business Overview
      • 4.2. Company Snapshot
      • 4.3. Company Market Share Analysis
      • 4.4. Company Product Portfolio
      • 4.5. Recent Developments
      • 4.6. SWOT Analysis
    • COWI
      • 5.1. Business Overview
      • 5.2. Company Snapshot
      • 5.3. Company Market Share Analysis
      • 5.4. Company Product Portfolio
      • 5.5. Recent Developments
      • 5.6. SWOT Analysis
    • Sixense
      • 6.1. Business Overview
      • 6.2. Company Snapshot
      • 6.3. Company Market Share Analysis
      • 6.4. Company Product Portfolio
      • 6.5. Recent Developments
      • 6.6. SWOT Analysis
    • GEOKON
      • 7.1. Business Overview
      • 7.2. Company Snapshot
      • 7.3. Company Market Share Analysis
      • 7.4. Company Product Portfolio
      • 7.5. Recent Developments
      • 7.6. SWOT Analysis
    • National Instruments Corporation
      • 8.1. Business Overview
      • 8.2. Company Snapshot
      • 8.3. Company Market Share Analysis
      • 8.4. Company Product Portfolio
      • 8.5. Recent Developments
      • 8.6. SWOT Analysis
    • Pure Technologies (Xylem, Inc.)
      • 9.1. Business Overview
      • 9.2. Company Snapshot
      • 9.3. Company Market Share Analysis
      • 9.4. Company Product Portfolio
      • 9.5. Recent Developments
      • 9.6. SWOT Analysis
    • Digitex
      • Business Overview
      • Company Snapshot
      • Company Market Share Analysis
      • Company Product Portfolio
      • Recent Developments
      • SWOT Analysis

List of Table

  1. Global Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  2. Global Large Machines & Equipment, Structural Health Monitoring Market, By Region, 2021–2029 (USD Billion)
  3. Global Bridges & Dams, Structural Health Monitoring Market, By Region, 2021–2029 (USD Billion)
  4. Global Vessels & Platforms, Structural Health Monitoring Market, By Region, 2021–2029 (USD Billion)
  5. Global Building & Stadiums, Structural Health Monitoring Market, By Region, 2021–2029 (USD Billion)
  6. Global Airframes & Wind Turbines, Structural Health Monitoring Market, By Region, 2021–2029 (USD Billion)
  7. Global Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  8. Global Software & Services, Structural Health Monitoring Market, By Region, 2021–2029 (USD Billion)
  9. Global Hardware, Structural Health Monitoring Market, By Region, 2021–2029 (USD Billion)
  10. Global Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  11. Global Wired, Structural Health Monitoring Market, By Region, 2021–2029 (USD Billion)
  12. Global Wireless, Structural Health Monitoring Market, By Region, 2021–2029 (USD Billion)
  13. Global Structural Health Monitoring Market, By Region, 2021–2029 (USD Billion)
  14. North America Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  15. North America Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  16. North America Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  17. USA Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  18. USA Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  19. USA Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)  
  20. Canada Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  21. Canada Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  22. Canada Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  23. Mexico Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  24. Mexico Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  25. Mexico Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  26. Europe Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  27. Europe Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  28. Europe Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  29. Germany Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  30. Germany Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  31. Germany Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  32. France Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  33. France Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  34. France Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  35. UK Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  36. UK Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  37. UK Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  38. Italy Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  39. Italy Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  40. Italy Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  41. Spain Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  42. Spain Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  43. Spain Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  44. Asia Pacific Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  45. Asia Pacific Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  46. Asia Pacific Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  47. Japan Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  48. Japan Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  49. Japan Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  50. China Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  51. China Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  52. China Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  53. India Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  54. India Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  55. India Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  56. South America Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  57. South America Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  58. South America Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  59. Brazil Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  60. Brazil Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  61. Brazil Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  62. Middle East and Africa Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  63. Middle East and Africa Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  64. Middle East and Africa Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  65. UAE Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  66. UAE Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  67. UAE Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)
  68. South Africa Structural Health Monitoring Market, By Application, 2021–2029 (USD Billion)
  69. South Africa Structural Health Monitoring Market, By Solution Type, 2021–2029 (USD Billion)
  70. South Africa Structural Health Monitoring Market, By Technology, 2021–2029 (USD Billion)

List of Figures 

  1. Global Structural Health Monitoring Market Segmentation
  2. Structural Health Monitoring Market: Research Methodology
  3. Market Size Estimation Methodology: Bottom-Up Approach
  4. Market Size Estimation Methodology: Top-Down Approach
  5. Data Triangulation
  6. Porter’s Five Forces Analysis
  7. Value Chain Analysis
  8. Global Structural Health Monitoring Market Attractiveness Analysis By Application
  9. Global Structural Health Monitoring Market Attractiveness Analysis By Solution Type
  10. Global Structural Health Monitoring Market Attractiveness Analysis By Technology
  11. Global Structural Health Monitoring Market Attractiveness Analysis By Region
  12. Global Structural Health Monitoring Market: Dynamics
  13. Global Structural Health Monitoring Market Share By Application (2021 & 2029)
  14. Global Structural Health Monitoring Market Share By Solution Type (2021 & 2029)
  15. Global Structural Health Monitoring Market Share By Technology (2021 & 2029)
  16. Global Structural Health Monitoring Market Share by Regions (2021 & 2029)
  17. Global Structural Health Monitoring Market Share by Company (2020)

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