In 2024, the construction industry recorded *** fatalities due to occupational accidents. The fatalities of all industrial accidents totaled ***.

In the financial year 2023/24, slips and falls made up most of the non-fatal injuries of employees in the construction industry in Great Britain. There were *** people due to falls from a height, while *** people were injured while handling, lifting or carrying something. Being stricken by a vehicle or a moving object were also common non-fatal accidents.

The graph illustrates the annual fatalities among construction workers in the United States from 2018 to 2023. The x-axis displays the years, labeled with abbreviated two-digit numbers from '18 to '23, while the y-axis represents the total number of deaths recorded each year. Over this five-year span, the fatalities range from a low of 951 in 2021 to a high of 1,066 in 2019. The data shows fluctuations in annual deaths, with a decrease in fatalities in 2020 and 2021 followed by an increase in 2022. The graph provides a visual representation of the trends in construction worker fatalities during this period.

According to a survey conducted in India in 2023, ** percent of the respondents believe that behavioral, leadership, and culture change will be instrumental in driving worker safety over the next five years in the construction industry. Other than this, increased safety monitoring and onsite health and wellness testing as well as the use of data and analytics would be leading technologies that drive worker safety in the future. All the respondents of this survey were industry leaders within the construction industry in India.

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.

Construction Safety Management Software Market Outlook

According to our latest research, the global Construction Safety Management Software market size reached USD 1.72 billion in 2024, reflecting the increasing prioritization of safety and compliance in the construction industry worldwide. The market is expected to grow at a robust CAGR of 10.6% from 2025 to 2033, reaching a forecasted value of USD 4.24 billion by 2033. This impressive expansion is primarily driven by stringent regulatory requirements, advancements in digital technologies, and the need to minimize workplace accidents and operational disruptions in construction projects.

The primary growth factor fueling the Construction Safety Management Software market is the rising emphasis on workplace safety and regulatory compliance across the construction sector. As governments and regulatory bodies across the globe enforce stricter safety standards, construction firms are increasingly adopting digital solutions to ensure compliance and reduce the risk of accidents. Construction Safety Management Software not only streamlines safety processes but also provides real-time monitoring and reporting, which is essential for managing complex, multi-site projects. The integration of advanced analytics and mobile capabilities further enhances the ability of project managers to identify hazards, track incidents, and implement corrective measures promptly. As a result, organizations are witnessing significant improvements in safety performance, reduction in workplace injuries, and enhanced operational efficiency, all of which contribute to the market’s robust growth trajectory.

Another significant driver of the Construction Safety Management Software market is the growing adoption of cloud-based solutions, which offer scalability, flexibility, and enhanced accessibility. Cloud deployment allows construction companies to centralize safety data, facilitate collaboration among stakeholders, and ensure seamless updates and maintenance of software platforms. This is particularly important for large-scale construction projects that involve multiple contractors, subcontractors, and geographically dispersed teams. The ability to access safety data and analytics from any location empowers organizations to make informed decisions quickly, mitigate risks proactively, and foster a culture of safety across all levels of the workforce. Furthermore, the integration of mobile applications and IoT devices is enabling real-time data capture and instant communication, which are crucial for effective incident management and compliance tracking.

The increasing focus on digital transformation within the construction industry is also playing a pivotal role in the expansion of the Construction Safety Management Software market. As construction projects become more complex and timelines more stringent, companies are leveraging digital tools to optimize workflows, enhance productivity, and ensure safety. The implementation of Construction Safety Management Software is enabling organizations to automate routine tasks, standardize safety protocols, and streamline audit and inspection processes. This not only reduces administrative burdens but also ensures that safety practices are consistently applied across all project sites. Moreover, the use of data analytics and artificial intelligence is enabling predictive risk assessment, allowing companies to anticipate potential hazards and take preventive actions. This proactive approach to safety management is gaining traction among industry leaders, further propelling market growth.

From a regional perspective, North America continues to dominate the Construction Safety Management Software market, driven by a mature construction industry, stringent safety regulations, and high adoption of digital technologies. However, the Asia Pacific region is emerging as the fastest-growing market, supported by rapid urbanization, infrastructure development, and increasing awareness of workplace safety. Europe also holds a significant market share, with strong regulatory frameworks and a focus on sustainability and worker welfare. In contrast, Latin America and the Middle East & Africa are witnessing steady growth, albeit at a slower pace, due to evolving regulatory landscapes and gradual digital adoption. Overall, the global market is characterized by diverse regional dynamics, with each region presenting unique opportunities and challenges for market players.

Component Analysis

In 2022, the total number of accidents with fatalities in the construction industry amounted to *** cases. Construction work segment caused nearly *** fatal injuries to workers that year.

The global Construction Safety Wearables market is poised for substantial growth, projected to reach approximately $1.8 billion by 2033, with a Compound Annual Growth Rate (CAGR) of around 18% from 2025 to 2033. This robust expansion is primarily driven by an increasing emphasis on worker safety regulations and a growing awareness of the financial and human costs associated with construction site accidents. Advancements in technology, particularly in areas like the Internet of Things (IoT), artificial intelligence (AI), and miniaturization, are enabling the development of more sophisticated and user-friendly wearable devices. These devices offer real-time monitoring of vital signs, environmental hazards, and worker location, thereby empowering proactive safety interventions and reducing the incidence of injuries and fatalities. The demand for solutions addressing repetitive work and working at heights is particularly strong, as these are historically high-risk areas within the construction industry. The market is further segmented by device type, with exoskeletons and smart glasses emerging as key growth segments, offering enhanced physical support and improved situational awareness respectively. Companies like Hilti, Trimble, and Microsoft are actively investing in R&D and strategic partnerships to capture market share, offering innovative solutions that integrate seamlessly into existing construction workflows. North America and Europe currently lead the market due to stringent safety standards and early adoption of technology. However, the Asia Pacific region, particularly China and India, is expected to witness the fastest growth, fueled by rapid infrastructure development, increasing urbanization, and a burgeoning construction sector. While the potential for this market is immense, challenges such as the initial cost of implementation, the need for extensive training, and concerns regarding data privacy and security may present temporary headwinds. Nevertheless, the overarching commitment to a zero-accident construction environment is expected to propel sustained adoption and innovation in construction safety wearables. The construction industry, historically a domain of high-risk activities, is undergoing a significant transformation driven by the advent of sophisticated safety wearables. This report delves into the burgeoning market for these intelligent devices, analyzing their impact, trends, and future trajectory from 2019 to 2033. With a base year of 2025, the market is poised for substantial expansion, projecting a demand that will reach several million units by the end of the study period. Innovations in smart technology are fundamentally reshaping how worker safety is managed on construction sites, promising to reduce accidents, enhance productivity, and foster a more secure work environment.

Financial overview and grant giving statistics of Nyc Building and Construction Industry Safety Fund

Helmet Object Detection Dataset

The dataset consist of photographs of construction workers during the work. The dataset provides helmet detection using bounding boxes, and addresses public safety tasks such as providing compliance with safety regulations, authomizing the processes of identification of rules violations and reducing accidents during the construction work.

💴 For Commercial Usage: To discuss your requirements, learn about the price and buy the dataset, leave a request on our website to buy the dataset

https://www.googleapis.com/download/storage/v1/b/kaggle-user-content/o/inbox%2F12421376%2Fc7a46d2407e8aa245f107524fcaecff5%2Fhelmets.png?generation=1686295342860797&alt=media" alt="">

Dataset structure

• img - contains of original images of construction workers
• boxes - includes bounding box labeling for the original images
• annotations.xml - contains coordinates of the bounding boxes and labels (helmet, no_helmet), created for the original photo

Data Format

Each image from img folder is accompanied by an XML-annotation in the annotations.xml file indicating the coordinates of the bounding boxes and labels for helmet detection. For each point, the x and y coordinates are provided.

Example of XML file structure

https://www.googleapis.com/download/storage/v1/b/kaggle-user-content/o/inbox%2F12421376%2Fce2115cd583ab7bc4e1d3d2749b4d7ad%2Fcarbon%20(7).png?generation=1686295970420156&alt=media" alt="">

Helmet Detection might be made in accordance with your requirements.

🧩 This is just an example of the data. Leave a request here to learn more

🚀 You can learn more about our high-quality unique datasets here

keywords: object detection dataset, helmet detection, helmet recognition, helmet segmentation, hard hat dataset, construction dataset, construction industry dataset, construction data, manufacturing dataset, safety dataset, industrial safety database, health and safety dataset, quality control dataset, image dataset, quality assurance dataset

The numbers reflect incidents that were reported to and tracked by the Ministry of Labour. They exclude death from natural causes, death of non- workers at a workplace, suicides, death as a result of a criminal act or traffic accident (unless the OHSA is also implicated) and death from occupational exposures that occurred in the past.

Data from the Ministry of Labour reflects Occupational Health and Safety (OHS) and Employment Standards (ES) information at a point in time and/or for specific reporting purposes. As a result, the information above may not align with other data sources.

Notes on critical injuries :

For the purposes of the data provided, a critical injury of a serious nature includes injuries that:

1. "Place life in jeopardy"
2. "Produce unconsciousness"
3. "Result in substantial loss of blood"
4. "Involve the fracture of a leg or arm but not a finger or toe"
5. "Involve the amputation of a leg, arm, hand or foot but not a finger or toe"
6. "Consist of burns to a major portion of the body"
7. "Cause the loss of sight

Only critical injury events reported to the ministry are included here. This represents data that was reported to the ministry and may not represent what actually occurred at the workplace. The critical injury numbers represent critical injuries reported to the ministry and not necessarily critical injuries as defined by the Occupational Health and Safety Act (OHSA). Non- workers who are critically injured may also be included in the ministry's data. Critical injuries data is presented by calendar year to be consistent with Workplace Safety and Insurance Board harmonized data;

Data is reported based on calendar year

Individual data for the Health Care program is available for Jan. 1 to Mar. 31, 2011 only. From April 2011 onwards Health Care data is included in the Industrial Health and Safety numbers.

Notes on Fatalities :

Only events reported to the ministry are included here. The ministry tracks and reports fatalities at workplaces covered by the OHSA. This excludes death from natural causes, death of non-workers at a workplace, suicides, death as a result of a criminal act or traffic accident (unless the OHSA is also implicated) and death from occupational exposures that occurred many years ago. Fatalities data is presented by calendar year to be consistent with Workplace Safety and Insurance Board harmonized data. Fatality data is reported by year of event.

*[OHSA]: Occupational Health and Safety Act *[Mar.]: March *[Jan.]: January

As of 2024, annual fatality data (including previous years) is reported by year of death.

China Other Construction, Safety Metal Product: YoY: Total Liability data was reported at 8.782 % in Oct 2015. This records a decrease from the previous number of 9.710 % for Sep 2015. China Other Construction, Safety Metal Product: YoY: Total Liability data is updated monthly, averaging 17.778 % from Jan 2006 (Median) to Oct 2015, with 89 observations. The data reached an all-time high of 56.340 % in Aug 2008 and a record low of 1.146 % in Dec 2014. China Other Construction, Safety Metal Product: YoY: Total Liability data remains active status in CEIC and is reported by National Bureau of Statistics. The data is categorized under China Premium Database’s Industrial Sector – Table CN.BHV: Construction and Safety Use Metal Product: Other Construction, Safety Metal Product.

China Other Construction, Safety Metal Product: YoY: Number of Employee: Average data was reported at 2.864 % in Dec 2012. This records an increase from the previous number of -2.552 % for Nov 2012. China Other Construction, Safety Metal Product: YoY: Number of Employee: Average data is updated monthly, averaging 9.947 % from Jan 2006 (Median) to Dec 2012, with 55 observations. The data reached an all-time high of 19.360 % in Jul 2011 and a record low of -10.291 % in Oct 2012. China Other Construction, Safety Metal Product: YoY: Number of Employee: Average data remains active status in CEIC and is reported by National Bureau of Statistics. The data is categorized under China Premium Database’s Industrial Sector – Table CN.BHV: Construction and Safety Use Metal Product: Other Construction, Safety Metal Product.

AI-Powered Construction Safety Analytics Market Outlook

According to our latest research, the AI-Powered Construction Safety Analytics market size reached USD 2.13 billion in 2024 globally, with a robust compound annual growth rate (CAGR) of 19.7% anticipated through the forecast period. By 2033, the market is projected to attain a value of USD 10.97 billion, driven by increased adoption of artificial intelligence in construction safety management and the growing emphasis on minimizing workplace accidents. This accelerated growth is fueled by the integration of advanced analytics, real-time monitoring, and predictive safety solutions, which are transforming the construction sector’s approach to risk management and regulatory compliance.

The primary growth driver for the AI-Powered Construction Safety Analytics market is the escalating demand for proactive risk identification and mitigation in the construction industry. As construction projects become larger and more complex, the potential for workplace accidents and safety violations increases. AI-powered analytics tools enable real-time data collection from various sources, including wearables, site cameras, and IoT sensors, allowing for immediate detection of unsafe behaviors or hazardous conditions. This not only enhances worker safety but also reduces project downtime, insurance costs, and potential legal liabilities. The ability of AI to process vast amounts of unstructured data and deliver actionable insights is revolutionizing how construction firms manage safety protocols, leading to a marked reduction in accident rates and fostering a culture of safety-first across the sector.

Another significant factor fueling market expansion is the tightening of regulatory frameworks and the increasing emphasis on compliance with occupational health and safety standards worldwide. Governments and regulatory bodies are mandating stricter safety protocols, and non-compliance can result in severe penalties, project shutdowns, or reputational damage. AI-powered safety analytics platforms help construction companies stay ahead of regulatory requirements by automating compliance management, tracking incidents, and generating detailed audit trails. These solutions not only streamline reporting but also offer predictive analytics to prevent future incidents, thereby aligning operational practices with legal mandates and industry best practices. The resulting reduction in regulatory risk is a compelling incentive for construction firms to invest in advanced safety analytics technologies.

Technological advancements and the proliferation of smart construction sites are further accelerating the adoption of AI-powered safety analytics. The integration of AI with IoT, drones, and wearable devices is enabling a new era of connected construction environments where safety is monitored continuously and in real-time. These technologies facilitate comprehensive site hazard detection, equipment monitoring, and worker tracking, significantly improving incident response times and overall site safety. Additionally, the shift towards digital transformation in construction, spurred by the need for operational efficiency and cost-effectiveness, is fostering greater acceptance of AI-driven solutions. Construction companies are increasingly recognizing the value of data-driven decision-making, which not only enhances safety outcomes but also contributes to project profitability and sustainability.

From a regional perspective, North America currently leads the AI-Powered Construction Safety Analytics market, owing to its advanced construction sector, high adoption of digital technologies, and stringent safety regulations. However, Asia Pacific is emerging as a high-growth region, driven by rapid urbanization, significant infrastructure investments, and increasing awareness of workplace safety. Countries such as China, India, and Japan are witnessing a surge in smart construction initiatives, supported by government policies and growing investments in AI and IoT technologies. Europe also represents a substantial market share, characterized by strong regulatory frameworks and a focus on sustainable construction practices. Meanwhile, regions like Latin America and the Middle East & Africa are gradually embracing AI-powered safety analytics as part of broader efforts to modernize their construction industries and enhance worker safety standards.

Component Analysis

The AI-Powered Construct

This open-access dataset, provides a detailed time-motion study of construction work, specifically focusing on MEP (Mechanical, Electrical, and Plumbing) activities. The dataset is intended to facilitate research and analysis to improve operational efficiency and safety within the construction industry. It includes anonymized and pseudonymized data, ensuring privacy while still offering valuable insights into worker activities.

Contents: (1)Time-motion study dataset: Captures categorized work activities by MEP workers at a second-to-second level. (2) Description of work activities: Provides detailed classifications of the tasks performed, allowing for in-depth analysis.

This dataset has been made publicly available under the CC-BY-SA license, encouraging reuse and redistribution with proper attribution and share-alike terms. By downloading the dataset, users acknowledge and agree to comply with the terms outlined above.

Funding and Support: This work has been supported by the “Hukka LVI- ja sähkötöissä” (Waste in Plumbing and Electrical Work) project, funded by STUL (Electrical Contractor Association), LVI-TU (HVAC Contractor Association), and STTA (Electrical Employers Union) from Finland.

This comprehensive dataset offers valuable resources for research and analysis purposes. For further information or collaboration inquiries, feel free to reach out to discuss data collection methods and potential research partnerships: olli.seppanen@aalto.fi & christopher.gorsch@vtt.fi.

Construction Equipment Telematics Safety Market Outlook

According to our latest research, the global construction equipment telematics safety market size reached USD 6.2 billion in 2024, reflecting the sector's robust adoption of telematics-enabled safety solutions across construction sites worldwide. The market is poised to grow at a CAGR of 13.7% from 2025 to 2033, with the market forecasted to reach USD 19.3 billion by 2033. This remarkable growth is primarily driven by the increasing emphasis on operator safety, regulatory mandates, and the demand for enhanced operational efficiency in the construction industry. As per our most recent analysis, advancements in telematics technology and integration with IoT and AI platforms are further fueling the adoption of these solutions on a global scale.

One of the primary growth factors propelling the construction equipment telematics safety market is the rising need for real-time monitoring and safety compliance on construction sites. The construction sector is inherently hazardous, with a high incidence of accidents and injuries. Telematics solutions provide real-time data on equipment usage, operator behavior, and site conditions, enabling proactive safety measures and swift incident response. This data-driven approach not only helps in reducing workplace accidents but also assists construction companies in adhering to increasingly stringent safety regulations imposed by governmental authorities worldwide. The ability to monitor equipment remotely and ensure compliance with safety standards is becoming a critical differentiator for construction firms, thereby accelerating market growth.

Another significant driver is the growing integration of telematics with advanced analytics, artificial intelligence, and machine learning technologies. Modern telematics systems are not limited to basic GPS tracking; they now offer predictive maintenance, geofencing, and automated alerts for unsafe practices or hazardous conditions. These capabilities help in minimizing equipment downtime, optimizing asset utilization, and enhancing overall project productivity. The synergy between telematics and digital technologies is enabling construction companies to transition towards smart, connected worksites. This digital transformation is fostering a culture of safety, accountability, and efficiency, further boosting the adoption of telematics safety solutions across the construction equipment landscape.

Furthermore, the escalating investments in infrastructure development, particularly in emerging economies, are fueling the demand for construction equipment telematics safety systems. Governments and private sector entities are prioritizing large-scale projects such as highways, bridges, and urban developments, which necessitate the deployment of sophisticated machinery and robust safety protocols. Telematics solutions are increasingly being integrated into both new and existing fleets to ensure regulatory compliance, reduce liability, and optimize performance. As the construction industry continues to expand and modernize, the need for comprehensive safety management tools is expected to grow, thereby driving sustained demand for telematics-enabled safety solutions.

From a regional perspective, Asia Pacific remains a dominant force in the construction equipment telematics safety market, owing to rapid urbanization, infrastructural investments, and stringent safety regulations in countries such as China, India, and Japan. North America and Europe are also witnessing substantial adoption, driven by technological innovation and a strong focus on workplace safety. Meanwhile, the Middle East & Africa and Latin America are emerging as promising markets, supported by increasing construction activities and government initiatives aimed at improving safety standards. The regional diversity in regulatory frameworks, technological readiness, and market maturity continues to shape the competitive dynamics and growth trajectory of the global construction equipment telematics safety market.

Component Analys

Financial overview and grant giving statistics of Louisiana Construction Maintenance Industry Safety Services Inc.

The Construction Safety Monitoring Systems market is crucial to ensuring worker safety and regulatory compliance within the dynamic construction industry. These systems encompass a range of technologies and methodologies designed to monitor various safety parameters on construction sites, thereby reducing incidents

The construction industry is struggling with poor safety performance. Also, the existing construction safety performance (CSP) measurement methods are no longer effective by reaching their point of diminishing returns, which ultimately points to the need for a novel and reliable method for CSP measurement. To do so, a systematic and comprehensive review of existing methods is a prerequisite. Therefore, this study aims to conduct a comprehensive review of CSP research using a science mapping approach. The CSP research literature was retrieved from the Scopus literature database and analyzed using VOSviewer and NVIVO tools, to visualize the domain-specific body of knowledge. The investigation highlighted the most productive and influential contributors, highly focused research levels, project types and phases, research instruments and data sources, CSP measurement methods, key safety practices, current research trends, future research directions, theoretical and practical implications. This study has observed the CSP research paradigm shift from reactive to proactive approach. To this end, 11 safety dimensions that comprise 109 safety practices were identified, and a proactive CSP management approach was proposed.

The Construction Safety Compliance Solutions market has become an increasingly vital component of the construction industry, focusing on ensuring safety regulations are met while enhancing operational efficiency. These solutions comprise a range of services and technologies, including safety training programs, compl