How wearables address the risks of a growing mobile workforce
New technologies can improve the safety and health of lone workers and mobile employees.
Insurance agents and adjustors are often away from their desks attending to customer needs and inquiries in the field. It follows that property insurance adjustors are typically some of the first people on the scene after a natural disaster or personal-property emergency.
Conditions on the ground are often less than ideal. Damaged structures, flood waters and violent weather can all threaten the safety of adjustors as they work to help customers file claims.
While this is a required function of business, it also creates risks for employee safety. Insurance companies have provided training and planned for these situations by creating standard operating procedures and protocols to help keep employees safe.
But now, managing the security of mobile workforces is not unique to the insurance industry.
New safety protocols
The pandemic has caused an increase in employees working remotely. At first, this was viewed as a short-term necessity. In many cases, however, it is a permanent change.
When employees are not operating in an office or controlled environment, it makes it more difficult for businesses to manage the risks those workers invariably encounter. It also becomes increasingly difficult to know when a worker needs emergency assistance.
Organizations with employees who operate outside of traditional workplace settings have a need to develop safety protocols and invest in different technologies that secure the safety of mobile workers.
While proper training in safety procedures remains crucial, providing mobile workers with the right tools to request and receive help in an emergency is critical.
According to the Pew Research Center, approximately 95% of Americans now own a cell phone of some type, and more than one-third own a smartphone. While these devices provide many conveniences, in emergency situations they remain highly limited, especially in environments that have poor reception or that limit a user’s ability to reach and operate the device.
For example, a cell phone is not able to detect whether its owner slipped and fell, was trapped by falling debris, or experienced one of the thousands of other emergencies that can occur on the job. With a cell phone, the user is still required to be conscious and within range of the phone to be able to make a call for help.
In the case of mobile workers and lone workers, cell phones are not the most reliable or function-rich options for tracking and monitoring employee safety and health. Additionally, should a lone worker be confronted by a hostile third party, the cell phone is the first item often taken to prevent a call for help.
Additional safety solutions
In emergency situations, there is a better communication solution than traditional cell phones or smartphones. These situations are good candidates for easily worn devices (i.e., wearables or wearable devices) that automatically report changes that could indicate an emergency. A worker could easily utilize such a device to express the need for help without having to speak or make much movement.
Already there are products like smart hard hats, smart safety vests, smart eyewear and even stick-on patches that can monitor everything from an employee’s location to body temperature and positioning. These devices eliminate the need for a worker to proactively report an emergency. But like cell phones, they have their limitations as well.
For example, while the devices can transmit certain information about a situation to a manager or human resources department, they do not create a direct line of communication between the worker and responder. If verbal communication is possible in the emergency, the worker would still need to place a call on a phone.
A better option would be Mobile Personal Emergency Response System (mPERS) devices similar to those used by seniors for years. Essentially, a help button that can be pressed after a fall to alert emergency responders that assistance is needed. These types of technologies have become more beneficial because they no longer require a base station device to place calls, which limits their range of use.
Like other wearables, mPERS devices are small and lightweight. They provide state-of-the-art location technologies and built-in fall advisory capabilities. Wearables with this type of functionality are able to detect horizontal and vertical movement. But they take safety a step further than simply reporting a fall on the job via a text message or red flag in a software system. mPERS devices can also eliminate the need for the worker to initiate a call for help. Instead, they can trigger one automatically, and cloud-based technologies make it possible for Central Stations to immediately respond to the call for help.
Another benefit of mPERS devices over cell phones is long battery life. Unlike phones that sometimes have to be charged multiple times a day, mPERS devices have less functions and do not need to be fully functional at all times. They can be left off or essentially in a hibernation mode until the SOS button on the device is pressed. Once this action occurs, location information can be sent to a central reporting destination and an emergency call can be placed. This enables mPERS devices to run on a single charge between 2 and 30 days depending upon the configuration and use of the device.
Whatever wearable device makes the most sense for a particular company, the most important factor is that business owners and managers take advantage of these new technologies that could save lives and improve the safety and health of their lone workers and mobile employees.
Chris Holbert is the CEO of SecuraTrac. He can be reached by calling (888) 973-2872 or by sending email to chris@securatrac.com. The opinions expressed here are the author’s own.
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