It’s an iconic image—11 men on a beam over Rockefeller Center with a hazy New York skyline in the background. They wear newsboy caps and knit hats, share cigarettes, casually juggle lunchboxes, and display bare ankles, arms, and even one chest. Though widely accepted now as a staged publicity shot, for generations the image has evoked a sense of American resiliency, pride, and work ethic.
Today it’s also an image that may cause cringes and concerns for the implied lack of safety precautions and concern for workers’ health and protection. Human safety is the biggest risk in construction. According to OSHA statistics, 4,764 workers died on the job in 2020, and workers in transportation and material moving occupations and construction and extraction occupations accounted for nearly half of all fatal occupational injuries (47.4 percent), representing 1,282 and 976 workplace deaths, respectively. Many factors affect risk on construction sites, including:
Over the past 60 years, technology has significantly evolved and transformed construction sites, bringing about many advancements and improvements. From the beginnings of computer-aided design (CAD) and building information modeling (BIM) in the late 1950s and early 1960s to current advances in augmented and virtual reality, technology has long played a key role in advancing both the abilities and efficiencies of construction.
For instance, construction machinery has become more advanced, efficient, and safer over the years. Equipment such as excavators, cranes, bulldozers, and loaders has undergone technological advancements, including GPS (Global Positioning Systems) and automation features, enhanced operator controls, improved safety systems, and better fuel efficiency. Robotic automation—such as automated brick-laying—increases efficiency, reduces labor-intensive tasks, and minimizes worker exposure to safety risks. Stronger and lighter helmets, high-visibility clothing, fall protection systems, respiratory protection, and improved hearing protection devices not only reduce the human risk for death and injury but also corporate liability.
Advancements in communication technology have enabled real-time monitoring and control of construction sites from remote locations. This allows project managers and supervisors to check progress, track equipment, and address safety issues without being physically present on the site. Remote monitoring also facilitates quick response to emergencies and better coordination between teams. In addition, mobile apps and software have become essential tools for managing projects, communicating with team members, accessing blueprints and specifications, performing safety inspections, and tracking progress.
One of the most impactful technologies on construction is the Internet of Things (IoT). IoT technology has been increasingly adopted in construction, enabling the integration and communication of various devices and sensors. IoT devices can monitor equipment performance, track materials, collect data on site conditions, and enhance safety through real-time monitoring and predictive analytics. Let’s dive a little deeper into how IoT technology can address many of the risk factors discussed above to improve safety and reduce risk on construction sites.
The combination of equipment management software and mobile technology makes it easy for construction sites to mandate inspections, safety equipment, and more, even when on-site supervisors are missing or otherwise occupied.
Creative applications of inherent software features can also be used to improve safety adherence on sites. Many software solutions allow assets to be “grouped”; assets can be tagged with low energy Bluetooth (BLE) trackers or cellular/GPS devices and the system identifies if items in a group are not nearby. Tagging a box housing safety harnesses with a BLE tracker, and pairing it with GPS-tracked scaffolding, can highlight if the safety harnesses are not present while workers and machinery are in use near the scaffolding. Technology may not be able to force workers to wear safety equipment but can make it easier to spot problems before they become injuries.
Playwright George Bernard Shaw is credited with saying, “The single biggest problem in communication is the illusion that it has taken place.” IoT technology helps erase that illusion. With a documented, digital, and easy-to-use workflow that crosses the barriers between office, shop, and field, communication about issues with machinery, needed assets, and preventative maintenance are not illusions but facts.
Collecting real-time use data from machines and vehicles allows equipment managers to set preventative maintenance schedules based on actual mileage or hours of use rather than more nebulous time frames. OSHA recommends preventative maintenance as a key component in hazard prevention and control. A strong preventative maintenance program ensures machinery and vehicles are in safe operable condition and avoids missing key equipment on job sites that could create safety hazards.
Using digital workflows for inspections, maintenance requests, and work orders also ensures that everyone in the chain of command understands when safety issues have been spotted, alerts all key players when work orders are assigned and in progress, and mandates documentation through notes and images of completed work. Automating notifications based on role, type of asset, or job site, also ensures that there are no gaps in communication preventing required equipment from being replaced on projects.
IoT has wide-ranging benefits for safety, but sometimes it needs a little help. That’s where artificial intelligence (AI) can be a game changer.
When AI cameras are focused on in-cab driver behavior, many of the safety issues caused by fatigue and distraction are mitigated. Safety managers can specifically target their educational programs for the most common safety issues for their drivers. They can also use that footage to help fleet managers find solutions to previously unknown safety issues. For instance, if employees are frequently witnessed using their phones for delivery directions, a decision might be made to better utilize equipment management software to optimize and share dispatch directions via mobile apps.
While many tracking systems in vehicles alert managers to safety events such as harsh braking or speeding, camera footage fills in the circumstances around those issues and allows safety personnel to collaborate with managers to correct and improve these conditions. An example:
A fleet manager notes that most harsh braking events happen between 11:30 a.m. and 1:30 p.m. The safety manager views dash camera footage during this time and sees that drivers are in heavier lunchtime traffic and are also often eating their lunches while driving. Together, the safety and fleet managers work to adjust schedules so that drivers are on the road during lighter traffic times and have sufficient time to eat when not driving.
Technology helps construction companies accomplish more, overcome labor shortages, save money, and improve productivity. Applied correctly, it can also make a monumental difference in safety compliance, improvement of training and safety programs, and mitigation of risk and liability for the company.
This article was originally published in the September/October 2023 issue of California Constructor.
References:
OSHA - Health & Safety in Construction