This statistic shows the results of a 2018 survey on the greatest sources of risk which construction industry executives in the United States expect to face in 2019. During the survey, some ** percent reported availability of qualified workers in the industry to be the greatest risk to the industry in 2019.

This statistic shows the results of a 2017 survey on the greatest sources if risk, which organizations in the United Kingdom construction industry need to build resilience to in the next three years. Of respondents, ** percent reported disruptive competitors in the market to be the greatest concern for the success of the construction industry. Additionally, ** percent of respondents saw macroeconomic uncertainty and events as a source of business risk.

Data-Driven Construction Risk Prediction Software Market Outlook

According to our latest research, the global Data-Driven Construction Risk Prediction Software market size reached USD 1.12 billion in 2024, reflecting robust demand for intelligent risk management solutions across the construction sector. The market is set to expand at a CAGR of 14.6% from 2025 to 2033, with the forecasted market size projected to reach USD 3.72 billion by 2033. This strong growth trajectory is fueled by increasing adoption of digital technologies, the rising complexity of construction projects, and heightened regulatory requirements for safety and compliance.

One of the primary growth factors driving the Data-Driven Construction Risk Prediction Software market is the escalating need for advanced analytics and predictive insights in construction project management. As construction projects become more complex and expensive, stakeholders are seeking solutions that can proactively identify, assess, and mitigate risks associated with project delays, cost overruns, safety incidents, and compliance violations. The integration of artificial intelligence, machine learning, and big data analytics into construction risk management software has significantly enhanced the ability of firms to predict and manage risks in real time. This, in turn, reduces financial losses, improves project outcomes, and enhances stakeholder confidence, making such software an indispensable tool for modern construction firms.

Another key driver is the growing emphasis on safety and regulatory compliance within the construction industry. Governments and regulatory bodies worldwide have implemented stringent safety standards and compliance requirements, compelling construction firms to adopt sophisticated risk prediction tools. These solutions not only help in identifying potential hazards and non-compliance issues early on but also provide actionable insights for preventive measures. As a result, construction companies are increasingly investing in data-driven risk prediction software to ensure adherence to regulations, minimize workplace accidents, and avoid costly penalties. The growing awareness of the importance of a safe working environment is further propelling market growth.

The rapid digital transformation of the construction industry is also contributing significantly to the expansion of the Data-Driven Construction Risk Prediction Software market. The adoption of Building Information Modeling (BIM), Internet of Things (IoT), and cloud-based collaboration platforms has created vast amounts of data, which can be leveraged by advanced risk prediction software to deliver deeper insights and more accurate forecasts. The integration of these technologies enables seamless data collection from various sources, facilitating comprehensive risk analysis and proactive decision-making. This digital shift is enabling construction companies to move from reactive to predictive risk management approaches, further accelerating the adoption of data-driven solutions.

From a regional perspective, North America leads the market due to the early adoption of advanced construction technologies and a strong focus on safety and regulatory compliance. Europe follows closely, driven by stringent regulations and a mature construction sector. The Asia Pacific region is emerging as a high-growth market, fueled by rapid urbanization, infrastructure development, and increasing investments in digital technologies. Latin America and the Middle East & Africa are also witnessing steady growth, supported by rising construction activities and a growing awareness of the benefits of predictive risk management solutions. Each region presents unique opportunities and challenges, shaping the overall dynamics of the global market.

Component Analysis

The Component segment of the Data-Driven Construction Risk Prediction Software market is divided into software and services, each playing a pivotal role in the ecosystem. The software segment, which

The Construction Risk Management market has emerged as a critical segment of the construction industry, focusing on identifying, assessing, and mitigating risks associated with building projects. As the industry continues to evolve, the importance of effective risk management is underscored by the increasing complex

Data on the distribution of small and medium enterprises (SME) in the construction sector in the United Kingdom (UK) in the years ending June 2014 to June 2020, by financial risk rating, show that in June 2014, it was found that 60 percent of construction sector SMEs were rated as having worse than average financial risk, by 2020 this number had dropped to 55 percent.

Abstract Paper aims To study fall-accident cases in order to analyze the commonly missing or not adequately applied risk management measures (RMM) and its consequences depending on falling height. Originality First study to analyze failed RMM for preventing falls from height. Research method The study reviewed court cases published by the journal “Safety & Health Practitioner”. NIOSH recommendations were used to define RMM to apply to this study. Main findings Finally, in 98% of analyzed cases, the fall from height was a result of several non-adequate or missing RMM: in 81.6% procedures of work, 65.8% guardrails and edge protection, 60.5% risk assessment, and 60.5% platforms or scaffolds. It can be concluded that falls from height pose a significant risk for workers, which could be prevented by adequately apply RMM. Implications for theory and practice The focus in the prevention of falls should be given on most common RMM.

Introduction

Workplace Safety Statistics: Do you think your workplace is dangerous? If you work in high-risk areas like law enforcement, emergency services, or agriculture, you might. But accidents can happen in any job, from offices to construction sites. Falls cause injuries to millions of workers each year, whether they’re in retail, admin, or on a construction site. Workplace accidents are a problem for everyone.

They lead to medical and insurance costs, lost productivity, and lost wages. Plus, they can lower morale and engagement among employees. To tackle these issues, it’s important to understand Workplace Safety Statistics. Let’s look at some interesting numbers.

Abstract The construction of electric power substations poses a great number of risks due to its dangerous environment. The objective of this work was to evaluate the perception of construction workers on risks, methods they use for evaluation and managing risks to which they are exposed. This study carried out a qualitative and quantitative analysis during the expansion of one electric substation, adding an additional 100 MVA power transformer. The risks were identified and analysed by using the Preliminary Risk Analysis (PRA). Additionally, a questionnaire on construction safety was created and applied on all 27 workers which participated in the construction. The results showed which activities are present during the construction of a power substation, which risks are involved and how to manage them. It was found that among several, the PRA and Checklists were the most commonly used analysis tools. Further on, it was found a relation between training and risk perception. Among perceived risks were: noise, working at heights, electric shocks, traffic accidents, poisonous animals, dust, fire and explosions. The conclusion of this study was that the construction of electric power substations brings several safety risks and that the instruction of workers allows an effective risk management, and can reduce the number of accidents in this type of working activity.

Construction Safety Monitoring Systems Market Outlook

The global construction safety monitoring systems market size was valued at approximately USD 3.2 billion in 2023, and it is projected to reach USD 7.8 billion by 2032, growing at a compound annual growth rate (CAGR) of 10.5% during the forecast period. The market is witnessing robust growth driven by increasing awareness about occupational safety, stringent regulatory requirements, and technological advancements in safety monitoring solutions.

One of the primary growth factors for the construction safety monitoring systems market is the rising awareness and emphasis on workplace safety. Construction sites are inherently hazardous environments with numerous risks, including falls, machinery accidents, and exposure to harmful substances. Governments and regulatory bodies across the globe are enforcing stringent safety regulations to mitigate these risks, thereby driving the demand for advanced safety monitoring systems. In addition to regulatory scrutiny, the increasing cost of workplace injuries and the subsequent financial losses are compelling construction companies to invest in reliable safety monitoring solutions.

Technological advancements are another crucial growth factor for the construction safety monitoring systems market. Innovations such as the Internet of Things (IoT), artificial intelligence (AI), and big data analytics are being integrated into safety monitoring systems, enhancing their efficiency and effectiveness. IoT-enabled sensors and wearable devices can continuously monitor workers' health and safety parameters, providing real-time alerts for any deviations from safe conditions. AI and machine learning algorithms can analyze data from these devices to predict potential hazards and prevent accidents before they occur. The integration of these advanced technologies is significantly improving the overall safety standards on construction sites.

The growing trend of smart cities and infrastructure development projects worldwide is also contributing to the market's growth. Governments and private sector entities are investing heavily in the construction of smart cities, which require the implementation of advanced safety monitoring systems to ensure the safety of workers and the public. The increasing number of infrastructure projects, such as highways, bridges, and tunnels, further fuels the demand for robust safety monitoring solutions. These projects involve complex and hazardous construction processes that necessitate the use of advanced safety systems to prevent accidents and ensure smooth operations.

The integration of Construction Safety Wearables is revolutionizing the way safety is managed on construction sites. These wearables, equipped with IoT-enabled sensors, are designed to monitor workers' health and environmental conditions in real-time. They can track vital signs such as heart rate, body temperature, and even detect falls or prolonged inactivity, providing immediate alerts to supervisors. This proactive approach not only enhances worker safety but also helps in reducing the response time during emergencies. By providing real-time data, construction safety wearables enable companies to make informed decisions, ensuring a safer working environment. As the adoption of these devices increases, they are becoming an integral part of the construction safety monitoring systems, contributing significantly to the market's growth.

Regionally, North America currently holds the largest market share in the construction safety monitoring systems market, primarily due to stringent safety regulations and the presence of major construction companies. The Asia Pacific region, however, is expected to witness the highest growth rate during the forecast period. Rapid industrialization, urbanization, and infrastructure development in countries like China and India are driving the demand for construction safety monitoring systems in this region. Additionally, increasing awareness about workplace safety and government initiatives to improve safety standards are further propelling the market growth in the Asia Pacific.

Component Analysis

The construction safety monitoring systems market can be segmented into three primary components: hardware, software, and services. Each of these components plays a crucial role in the overall functionality and effectiveness of safety monitoring systems, catering to different aspects of construction site safety management.<

2021FEBEREC-STD-126

This research data consists of quantitative and qualitative data collected from the construction industry professionals working on megaprojects in South Africa. Qualitative data is in form of words which provides the possible mitigations to the risks affecting the development of construction megaprojects. On the other hand, quantitative data is numerical, it provides answers to closed ended questions which were asked using rating scales.

The Construction Risk Assessment Software market is experiencing robust growth, driven by increasing demand for enhanced safety measures, stricter regulatory compliance, and the need for improved project efficiency. The market, currently estimated at $2.5 billion in 2025, is projected to witness a Compound Annual Growth Rate (CAGR) of 15% from 2025 to 2033. This growth is fueled by several key factors. Firstly, the rising adoption of cloud-based solutions offers scalability, accessibility, and real-time data analysis, enhancing risk mitigation capabilities. Secondly, the increasing complexity of construction projects, coupled with stringent safety regulations worldwide, is pushing organizations to adopt sophisticated risk assessment software to prevent accidents and minimize financial losses. The market segmentation reveals a significant demand from both large enterprises and SMEs, with cloud-based solutions witnessing higher adoption rates due to their cost-effectiveness and flexibility. Finally, technological advancements like AI and machine learning integration are further refining risk assessment capabilities, leading to more accurate predictions and proactive mitigation strategies. The market's growth is not without its challenges. High initial investment costs for software implementation and integration with existing systems can act as a barrier, particularly for smaller construction firms. Furthermore, the need for specialized training and ongoing maintenance can hinder adoption in some regions. However, the long-term benefits of reduced project delays, improved safety records, and enhanced regulatory compliance outweigh these initial hurdles. The geographic distribution shows strong market penetration in North America and Europe, followed by a steadily growing presence in Asia-Pacific and other regions. Continuous innovation, coupled with strategic partnerships and collaborations within the industry, will further propel the market's expansion in the coming years. Key players are focusing on developing user-friendly interfaces and integrating advanced analytics to maintain a competitive edge and cater to the evolving needs of the construction industry.

The Construction Risk Assessment Software market is witnessing significant growth as industries increasingly recognize the critical importance of managing risks in construction projects. This specialized software encompasses a suite of tools designed to identify, analyze, and mitigate potential risks throughout the

Introduction

Construction Software Statistics: Construction software encompasses a range of digital tools designed to enhance efficiency and collaboration across various stages of construction projects.

Key types include project management, Building Information Modeling (BIM), cost estimation, accounting, field management, contract management, and procurement software.

These tools automate tasks, improve communication, and provide accurate reporting, leading to cost savings and better risk management.

Recent trends highlight a shift towards cloud-based solutions, mobile compatibility, and the integration of artificial intelligence and machine learning. Which are expected further to drive innovation and efficiency in the construction industry.

The Construction Risk & Safety Software market, valued at $4025.1 million in 2025, is experiencing robust growth driven by increasing construction activity globally, stringent safety regulations, and a rising demand for improved project efficiency. The market's expansion is fueled by the adoption of cloud-based solutions offering enhanced accessibility and data sharing capabilities among stakeholders. General contractors, building owners, and subcontractors are key adopters, leveraging software to manage risks proactively, improve safety protocols, and reduce project delays and costs. The market is segmented across deployment models (installed PC, installed mobile, and cloud-based) and user types, with cloud-based solutions exhibiting significant growth due to their scalability and cost-effectiveness. While the initial investment in software can be a restraint for smaller companies, the long-term benefits in terms of reduced incidents, improved compliance, and enhanced project outcomes are driving widespread adoption. Key players like Assignar, B2W Software, and others are continuously innovating, introducing features such as AI-powered risk assessment and real-time safety monitoring, further fueling market growth. The forecast period (2025-2033) anticipates continued expansion, driven by technological advancements leading to more sophisticated and user-friendly software solutions. The increasing integration of IoT devices and data analytics within the software is expected to provide invaluable insights into potential risks and enhance predictive capabilities. Furthermore, the burgeoning construction sector in developing economies presents substantial growth opportunities. However, challenges remain, including the need for effective user training and ongoing software maintenance, as well as concerns about data security and privacy. Despite these challenges, the long-term outlook for the Construction Risk & Safety Software market remains positive, with substantial growth potential across all segments and geographical regions.

The Construction Data Analytics Tool market is experiencing robust growth, driven by the increasing adoption of digital technologies within the construction industry. The market's expansion is fueled by several key factors: the need for enhanced project efficiency and cost reduction, improved risk management capabilities, and the demand for data-driven decision-making across all stages of construction projects. The integration of Building Information Modeling (BIM) and Internet of Things (IoT) technologies is further accelerating market growth, enabling real-time data collection and analysis, ultimately leading to better project outcomes. We estimate the 2025 market size at $3.5 billion, based on observed growth in related sectors and the increasing penetration of data analytics solutions in construction. A compound annual growth rate (CAGR) of 15% is projected for the forecast period (2025-2033), indicating significant future potential. Market segmentation reveals strong demand across various deployment models (installed PC, installed mobile, cloud-based) and user types (general contractors, building owners, independent construction managers, subcontractors). Cloud-based solutions are particularly gaining traction due to their accessibility, scalability, and cost-effectiveness. Geographical analysis suggests North America and Europe currently hold the largest market share, but rapid growth is anticipated in the Asia-Pacific region, driven by increasing infrastructure development and the adoption of advanced technologies in emerging economies. However, factors such as high initial investment costs for implementing data analytics tools and a lack of skilled workforce to interpret and utilize the data effectively present challenges to market penetration. Despite these restraints, the overall market outlook remains positive, fueled by technological advancements and the industry's ongoing push for digital transformation.

This is an API that allows you to look up the daily status of major accidents in the construction industry. It provides work type, cause, accident type, accident overview, and risk reduction measures. ※ callApiId = 1010 (Required as a fixed value) ※ This data analyzes fatal accidents that occurred in the construction industry between 2017 and 2021, and derives high-risk work, accident occurrence situations, and major causal factors that can cause serious injuries or more. ※ Since the work environment of each workplace may be different, please refer to this data to identify high-risk work and accident-causing factors considering the environment and work characteristics. ※ Since the work environment of each workplace may be different, please refer to the data to identify high-risk work and accident-causing factors considering the workplace environment and work characteristics.

The construction industry, valued at $231 million in 2025, is experiencing robust growth in the adoption of safety apps, driven by a rising focus on worker safety regulations and a need to improve efficiency. A compound annual growth rate (CAGR) of 6.2% projects a significant market expansion through 2033. This growth is fueled by several key factors. Increasing awareness of workplace hazards and the associated liabilities is pushing companies to adopt technology for proactive risk management. The integration of features like real-time location tracking, incident reporting, and hazard identification within these apps streamlines safety protocols, reducing paperwork and enhancing response times to incidents. Furthermore, the rising availability of affordable mobile devices and robust internet connectivity in construction sites is facilitating wider app adoption. Competition is fierce, with established players like SafetyHQ and Safesite facing challenges from newer, specialized apps addressing specific safety needs (e.g., fall prevention, heat stress management). The market shows potential for consolidation as companies seek to offer comprehensive safety solutions, potentially leading to mergers and acquisitions in the coming years. The market segmentation reveals opportunities for specialization. Apps focusing on specific hazards (like fall protection or trench safety) are gaining traction due to their targeted functionality. Regional variations in safety regulations and technological adoption rates will also shape market growth. North America and Europe are expected to dominate initially, followed by gradual expansion in Asia-Pacific and other developing regions. Restraining factors include the initial investment required for app implementation, concerns about data privacy, and the digital literacy levels within construction workforces. Overcoming these hurdles through user-friendly designs, robust security measures, and targeted training programs will be crucial for sustained market growth. The continuous evolution of safety regulations will also drive the need for app updates and the development of new features, creating ongoing opportunities for innovation and market expansion.

Construction Health and Safety Service Market Outlook

The global construction health and safety service market size was valued at approximately USD 9.5 billion in 2023 and is projected to reach around USD 15.2 billion by 2032, exhibiting a CAGR of 5.2% during the forecast period. The increasing emphasis on worker safety and stringent regulatory requirements are the primary drivers of this market growth.

One of the primary growth factors is the rising awareness about occupational health and safety (OHS) among construction companies. The construction industry is one of the most hazardous sectors, with high rates of accidents and occupational illnesses. Companies are increasingly realizing the importance of investing in health and safety services to mitigate risks, enhance workforce productivity, and comply with laws and regulations. Additionally, advancements in technology are providing innovative solutions such as wearable safety devices, real-time monitoring systems, and predictive analytics, further fueling market growth.

Government regulations and policies play a crucial role in driving the construction health and safety service market. Regulatory bodies worldwide are continually updating and enforcing safety standards to ensure workplace safety. For instance, in the United States, the Occupational Safety and Health Administration (OSHA) mandates strict compliance with safety standards, compelling construction companies to invest in comprehensive safety programs. Similarly, the European Union has stringent regulations in place under its Framework Directive on Safety and Health at Work, encouraging market expansion.

The growing construction activities globally, particularly in emerging economies, are another significant factor contributing to market growth. Urbanization and industrialization are driving the demand for residential, commercial, and infrastructure projects, necessitating robust health and safety measures. The increasing number of construction projects also leads to a higher demand for skilled labor, making safety training and compliance management services essential to ensure a safe working environment.

From a regional perspective, North America and Europe currently dominate the construction health and safety service market due to stringent regulatory frameworks and high awareness levels. However, the Asia Pacific region is expected to exhibit the highest growth rate during the forecast period, driven by rapid urbanization, increasing construction activities, and the implementation of stricter safety regulations.

In addition to the existing safety measures, Process Safety Services are becoming increasingly vital in the construction industry. These services focus on preventing and managing risks associated with hazardous processes, particularly in projects involving complex machinery and chemical handling. By implementing robust process safety protocols, companies can significantly reduce the likelihood of catastrophic incidents, ensuring the safety of both workers and the surrounding environment. The integration of process safety services not only enhances compliance with regulatory standards but also fosters a culture of safety and responsibility within organizations. As construction projects grow in complexity, the demand for specialized process safety expertise is expected to rise, driving further advancements in this critical area.

## Service Type Analysis

### Risk Assessment

Risk assessment services are a critical component of the construction health and safety service market. These services involve identifying potential hazards, evaluating risks, and implementing control measures to mitigate them. With the construction industry being inherently risky, the demand for risk assessment services is high. Companies are increasingly investing in these services to ensure regulatory compliance, reduce accident rates, and protect their workforce. The integration of advanced technologies such as drones for site inspection and AI for predictive analysis is further enhancing the effectiveness of risk assessment services.

One of the key drivers for the risk assessment segment is the increasing complexity of construction projects. As projects become more intricate, the potential for hazards increases, necessitating comprehensive risk assessments. Additionally, the rising awareness about the financial and reputational implications of workplace accidents is encouraging companies to prioritize risk assessment

The Construction Data Analytics Software market is experiencing robust growth, projected to reach a substantial size, driven by the increasing need for enhanced efficiency, cost reduction, and risk mitigation within the construction industry. The market's Compound Annual Growth Rate (CAGR) of 10.5% from 2019 to 2033 indicates a significant upward trajectory. This growth is fueled by several key factors. Firstly, the adoption of Building Information Modeling (BIM) and related technologies is creating a surge in data volume, necessitating sophisticated analytics solutions for effective project management. Secondly, the increasing pressure on construction firms to deliver projects on time and within budget is pushing them to adopt data-driven decision-making processes. Furthermore, the integration of IoT sensors and other data-gathering technologies into construction sites is generating valuable real-time insights, further accelerating the demand for advanced analytics capabilities. Leading players like Autodesk, RIB Software, and Hexagon PPM are actively shaping this landscape with their comprehensive solutions, while innovative startups are introducing niche applications and specialized tools. The market's segmentation, while not explicitly provided, likely reflects the diverse needs across different project types, geographical regions, and organizational sizes. This fragmentation creates opportunities for both established players and emerging companies to cater to specific market niches. The forecast period of 2025-2033 suggests continued market expansion, as the industry progressively embraces digital transformation. However, challenges remain. Integration complexities across different software platforms and the need for skilled professionals to interpret and utilize the data effectively can pose significant hurdles to wider adoption. Nevertheless, the long-term outlook remains positive, driven by ongoing technological advancements, increasing data availability, and growing recognition of the value proposition offered by construction data analytics. The market's growth will likely be influenced by broader economic conditions, infrastructure investments, and government regulations promoting digitalization within the construction sector.

The data included in this publication depict components of wildfire risk specifically for populated areas in the United States. These datasets represent where people live in the United States and the in situ risk from wildfire, i.e., the risk at the location where the adverse effects take place.National wildfire hazard datasets of annual burn probability and fire intensity, generated by the USDA Forest Service, Rocky Mountain Research Station and Pyrologix LLC, form the foundation of the Wildfire Risk to Communities data. Vegetation and wildland fuels data from LANDFIRE 2020 (version 2.2.0) were used as input to two different but related geospatial fire simulation systems. Annual burn probability was produced with the USFS geospatial fire simulator (FSim) at a relatively coarse cell size of 270 meters (m). To bring the burn probability raster data down to a finer resolution more useful for assessing hazard and risk to communities, we upsampled them to the native 30 m resolution of the LANDFIRE fuel and vegetation data. In this upsampling process, we also spread values of modeled burn probability into developed areas represented in LANDFIRE fuels data as non-burnable. Burn probability rasters represent landscape conditions as of the end of 2020. Fire intensity characteristics were modeled at 30 m resolution using a process that performs a comprehensive set of FlamMap runs spanning the full range of weather-related characteristics that occur during a fire season and then integrates those runs into a variety of results based on the likelihood of those weather types occurring. Before the fire intensity modeling, the LANDFIRE 2020 data were updated to reflect fuels disturbances occurring in 2021 and 2022. As such, the fire intensity datasets represent landscape conditions as of the end of 2022. The data products in this publication that represent where people live, reflect 2021 estimates of housing unit and population counts from the U.S. Census Bureau, combined with building footprint data from Onegeo and USA Structures, both reflecting 2022 conditions.The specific raster datasets included in this publication include:Building Count: Building Count is a 30-m raster representing the count of buildings in the building footprint dataset located within each 30-m pixel.Building Density: Building Density is a 30-m raster representing the density of buildings in the building footprint dataset (buildings per square kilometer [km²]).Building Coverage: Building Coverage is a 30-m raster depicting the percentage of habitable land area covered by building footprints.Population Count (PopCount): PopCount is a 30-m raster with pixel values representing residential population count (persons) in each pixel.Population Density (PopDen): PopDen is a 30-m raster of residential population density (people/km²).Housing Unit Count (HUCount): HUCount is a 30-m raster representing the number of housing units in each pixel.Housing Unit Density (HUDen): HUDen is a 30-m raster of housing-unit density (housing units/km²).Housing Unit Exposure (HUExposure): HUExposure is a 30-m raster that represents the expected number of housing units within a pixel potentially exposed to wildfire in a year. This is a long-term annual average and not intended to represent the actual number of housing units exposed in any specific year.Housing Unit Impact (HUImpact): HUImpact is a 30-m raster that represents the relative potential impact of fire to housing units at any pixel, if a fire were to occur. It is an index that incorporates the general consequences of fire on a home as a function of fire intensity and uses flame length probabilities from wildfire modeling to capture likely intensity of fire.Housing Unit Risk (HURisk): HURisk is a 30-m raster that integrates all four primary elements of wildfire risk - likelihood, intensity, susceptibility, and exposure - on pixels where housing unit density is greater than zero.