Marché nord-américain de la surveillance de l’état des structures – Tendances et prévisions du secteur jusqu’en 2030

Analyse et perspectives du marché de la surveillance de la santé structurelle en Amérique du Nord

Les fabricants cherchent en permanence des moyens d'augmenter la précision du travail, d'améliorer les services et la sécurité, et de travailler avec une technologie en constante évolution. La mise en œuvre de la surveillance de l'état des structures est une condition nécessaire pour fournir des services améliorés, ininterrompus, gratuits et rapides aux applications des utilisateurs finaux. La surveillance de l'état des structures dans le secteur des infrastructures est largement utilisée pour les solutions de surveillance de l'état des structures et l'adoption croissante des technologies numériques dans le secteur industriel. La surveillance de l'état des structures aide les opérateurs à prendre de meilleures décisions concernant la chaîne d'approvisionnement, les machines, les performances des actifs, le forage, etc. Le marché nord-américain de la surveillance de l'état des structures devrait croître en raison de la numérisation croissante du secteur de la construction.

Data Bridge Market Research analyse que le marché nord-américain de la surveillance de la santé structurelle devrait atteindre la valeur de 3 409,52 milliers USD d'ici 2030, à un TCAC de 18,0 % au cours de la période de prévision.

North America Structural Health Monitoring Market Definition

Structural health monitoring (SHM) monitors changes in the material and geometric qualities of engineering structures, such as bridges and buildings, over time using periodically sampled response measurements. The output of this process is periodically updated information regarding the ability of the structure to perform its intended function in light of the inevitable aging and degradation resulting from operational environments for long-term structural health monitoring. After extreme events, such as earthquakes or blast loading, structural health monitoring is used for rapid condition screening and aims to provide, in near real-time, reliable information regarding the integrity of the structure.

Structural health monitoring offers the following numerous benefits to the customers: forecast and measures profits, Integrate and augment systems, track and measure construction activities, manage risk portfolio, boost revenue and enhance productivity, enable remote operations, reduce manual interactions, automate decisions, and others. Structural health monitoring simplifies communications between the system and the operators. It is helping the laborers to enhance their productivity and to optimize cost and operations.

North America Structural Health Monitoring Market Dynamics

This section deals with understanding the market drivers, advantages, opportunities, restraints, and challenges. All of this is discussed in detail below:    

Drivers

• GROWING INFRASTRUCTURAL DEVELOPMENT ACROSS THE GLOBE 

Structural health monitoring (SHM) is a range of systems implemented on full-scale civil infrastructures to assist and inform operators about the continued 'fitness for purpose' of structures under gradual or sudden changes to their state and to learn about either or both of the load and response mechanisms.

Infrastructure plays a critical role in economic and social development across the globe. It has huge importance in both developed and developing economies. The impact of seismic transformation in the economy has changed citizens' perspectives.

The importance of infrastructure is widely recognized and well-researched. However, there have been relatively few attempts to track and monitor infrastructure investment across countries where studies have assessed North America infrastructure needs; the adoption of myriad definitions and approaches has consistently made monitoring trends difficult. The various initiatives and developments in infrastructure across the globe are expected to drive the growth of the North America structural health monitoring market.

Restraint

• HIGH INSTALLATION AND MONITORING COSTS

The need and requirement for structural health monitoring systems have increased due to rapid digitalization and improved industrialization. Most complicated civil structures need structural health monitoring systems. But small structures cannot manage the structural health monitoring systems' installation cost and maintenance charges. As the need increases, the raw materials cost for structural health monitoring systems gradually increases.

Both capital expenditure (CAPEX) and operational expenditure (OPEX) are essential for structural health monitoring systems. The initial procurement of structural health monitoring systems, huge cabinets, and monitoring software is included in CAPEX. Structural health monitoring systems cost more than others because they require huge cabinets containing modules that allow growth. As a result, organizations must plan for their desired capacity to reap the full benefits of structural health monitoring systems. Structural health monitoring units require ongoing, high-cost maintenance after installation. High-complexity structures necessitate high-efficiency instrumentation, which raises total costs. Furthermore, the expenditures of monitoring are quite significant. Also, structural health monitoring systems involve costing issues in the maintenance and upgradation of the system, which is projected to restrain the market.

Opportunity

INTEGRATION OF TECHNOLOGICALLY ADVANCED SOLUTIONS FOR STRUCTURAL HEALTH MONITORING

Business process automation uses technology to execute recurring tasks or processes in a business where manual effort can be replaced. It is done to minimize costs, increase efficiency, and streamline processes. Digital transformation has been a top priority for companies in recent years, but now many businesses are taking a closer look at the actively evolving concept of digitalization.

Structural health monitoring implements a damage detection strategy for aerospace, civil and mechanical engineering infrastructure. Advances in sensors and information technologies have brought structural health monitoring (SHM) a data-driven remedy for civil infrastructure safety. Typical damage experienced by this infrastructure might be the development of fatigue cracks, degradation of structural connections, or bearing wear in rotating machinery. This application's structural health monitoring solution will integrate structural dynamics, wireless data acquisition, local actuation, micro-electromechanical systems (MEMS) technology, and statistical pattern recognition algorithms.

In a sense, the new integrated technologies involve the usage of ultrasonic, dye penetration, and fibroscopy, among others. The involvement of these integrated technologies does not cause any defect or damage to the critical structures because it is difficult to monitor the entire health of a structure using only one technique; the integration approach is the greatest instrument for structural health monitoring. As a result, many key players are focusing on developing cost-effective structural health monitoring solutions that incorporate electrical, magnetic, thermal, and other physical variables, chemical variables, and a variety of technologies to provide more accurate results, which is likely to boost the adoption of integrated structural health monitoring systems.

Challenge

LACK OF STANDARDIZATION IN MANAGING LARGE VOLUMES OF DATA

The lack of standardized terminology for categorizing and describing various interventions in the field of structural health monitoring involves structural factors, environmental factors, and others that are causing problems for the health of critical structures. The structural health monitoring solution installed places is classified depending upon the criticality of the civil structures and the location of the structures. Different structural health monitoring solutions, such as the sensor system, the data acquisition, and transmission system, the data management system, the condition evaluation system, and others, are used for different intense critical structures in dams, bridges, and other manufacturing industries. Therefore, standardization acts as the major factor that acts as a major challenge for the market.

The intensity of the critical civil structure determines the appropriate structural health monitoring solution to be used with standard harmonization. However, there are some differences in the product design, testing, and installation requirements between the business and the government system due to the difference in the classification of zones by manufacturers and regulatory bodies. The above factors led to the lack of standardization, which is challenging for the market.

Recent Developments

• In May 2021, Sisgeo S.r.l. introduced the MD-Profile gauges. The system is suitable for geotechnical and structural applications, for which vertical or horizontal accurate profiling is needed, to improve the product portfolio of the company.
• In November 2020, HBK updated or technically refined its compressive force transducer C10 to make it more cost-efficient due to increased precision. This helped the product as an ideal solution for demanding test branches, laboratory, and production applications.

North America Structural Health Monitoring Market Scope

North America structural health monitoring market is segmented into six notable segments such as type, connectivity, installation, method, application, and end user. The growth among segments helps you analyze niche pockets of growth and strategies to approach the market and determine your core application areas and the difference in your target markets. 

NORTH AMERICA STRUCTURAL HEALTH MONITORING MARKET, BY TYPE

• Hardware
• Software
• Services

On the basis of type, the North America structural health monitoring market is segmented into hardware, software and services.

NORTH AMERICA STRUCTURAL HEALTH MONITORING MARKET, BY CONNECTIVITY

• Wired
• Wireless

On the basis of connectivity, the North America structural health monitoring market is segmented into wired and wireless.

NORTH AMERICA STRUCTURAL HEALTH MONITORING MARKET, BY INSTALLATION TYPE

• New Installation
• Retrofit

On the basis of installation, the North America structural health monitoring market is segmented into new installation and retrofit.

NORTH AMERICA STRUCTURAL HEALTH MONITORING MARKET, BY METHOD

• Visual Inspection
• Non-Destructive Evaluation (NDE)

On the basis of method, the North America structural health monitoring market is segmented into visual inspection and non-destructive evaluation.

NORTH AMERICA STRUCTURAL HEALTH MONITORING MARKET, BY APPLICATION

• Damage Detection
• Crack Detection
• Strain Monitoring
• Wire Break Monitoring
• Leakage Detection
• Multimodal Sensing
• Corrosion Monitoring
• Hotspot Monitoring
• Impact Monitoring
• Deflection Monitoring

On the basis of application, the North America structural health monitoring market is segmented into damage detection, crack detection, strain monitoring, wire break monitoring, leakage detection, multimodal sensing, corrosion monitoring, hotspot monitoring, impact monitoring and deflection monitoring.

NORTH AMERICA STRUCTURAL HEALTH MONITORING MARKET, BY END USER

• Civil
• Aerospace
• Energy
• Mining
• Marine
• Industrial
• Offshore Platform
• Defense
• Schools
• Public Parks And Recreation
• Automotive
• Others

On the basis of end user, the North America structural health monitoring market is segmented into civil, aerospace, energy, mining, marine, industrial, offshore platform, defense, school, public park & recreation, automotive and others.

North America Structural Health Monitoring Market Regional Analysis/Insights

The North America structural health monitoring market is categorized into six notable segments such as type, connectivity, installation type, method, application, and end user.

The countries covered in this market report U.S., Canada, and Mexico.

U.S. is expected to grow due to rise in technological advancement in structural health monitoring market.

La section du rapport sur les pays fournit également des facteurs d'impact sur les marchés individuels et des changements de réglementation sur le marché national qui ont un impact sur les tendances actuelles et futures du marché. Des points de données tels que les nouvelles ventes, les ventes de remplacement, la démographie des pays, les actes réglementaires et les tarifs d'importation et d'exportation sont quelques-uns des principaux indicateurs utilisés pour prévoir le scénario de marché pour les différents pays. En outre, la présence et la disponibilité des marques nord-américaines et les défis auxquels elles sont confrontées en raison de la concurrence importante ou rare des marques locales et nationales, ainsi que l'impact des canaux de vente sont pris en compte lors de l'analyse prévisionnelle des données nationales.

Analyse du paysage concurrentiel et des parts de marché du marché de la surveillance de la santé structurelle en Amérique du Nord

Le paysage concurrentiel du marché nord-américain de la surveillance de l'état des structures fournit des détails par concurrent. Les détails inclus sont la présentation de l'entreprise, les finances de l'entreprise, les revenus générés, le potentiel du marché, les investissements en R&D, les nouvelles initiatives du marché, les sites et installations de production, les forces et les faiblesses de l'entreprise, le lancement du produit, les approbations de produits, la largeur et la portée du produit, la domination des applications, la courbe de vie du type de produit. Les points de données ci-dessus fournis ne concernent que l'orientation de l'entreprise vers le marché nord-américain de la surveillance de l'état des structures.

Français Certains des principaux acteurs opérant sur le marché de la surveillance de la santé structurelle sont GEOKON, Campbell Scientific, Inc., SIXENSE Systems, Kinemetrics, Digitexx Data Systems, Inc., NATIONAL INSTRUMENTS CORP., OSMOS Group SA, HBK, Nova Ventures, Acellent Technologies Inc., James Fisher and Sons plc., SODIS Lab, GoeSIG Ltd, STRUCTURAL MONITORING SYSTEMS PLC., FEAC Engineering, Xylem Inc., Sisgeo Srl, FIRST SENSOR AG, Digitex, Geomotion Singapore et COWI A/S, entre autres.

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