The COVID-19 outbreak has brought new realities to light that, just a few months ago, seemed unimaginable. Stay-at-home orders are keeping many people close to home. And social distancing – along with frequent cleaning of technology devices, hands and surfaces – is widely accepted as the new norm.
That doesn’t mean that adopting these new precautionary measures has been easy, though. Social distancing is not just about avoiding gatherings with friends and family, closing schools or working from home. A strict physical distance must be kept in order to prevent the spread of contagions. Yet, front-line workers in healthcare, public safety, retail, manufacturing and transportation & logistics have found it particularly challenging to maintain a three or six-foot separation from other people while maintaining essential services.
Handoffs from employees to customers are still occurring at curbside and drive-thru lanes. Blood draws, medical treatments and other patient care actions still require clinicians to be in close proximity to patients. And those producing, picking, packing and delivering goods to maintain supply chain continuity and support a booming e-commerce market will – at some point – come into close contact with colleagues, customers or both. Despite best efforts, there are just some scenarios in which it is impossible to fully comply with social distancing recommendations.
That being said, we are quickly discovering many instances in which technology can help workers and their customers minimize close-contact scenarios, if not eliminate them all together. We breakdown a few of them below:
Traditionally, patient triage and initial diagnostics have been conducted in person by healthcare team members. Now, some are being done online or over the phone with a list of pre-identified questions to minimize the risk of potential contagion exposure to other patients and clinicians. This new practice has proved valuable from a social distancing perspective, but has not yet been implemented at the level required to be highly effective or efficient from an operational perspective given the labor resources required to virtually screen patients. Instead, AI could be used to conduct the initial screening of patients without human interface and likewise guide patients to the right direction based on the severity of their conditions. In-person diagnosis should only be conducted if deemed necessary. AI can gain info, process it and provide the output to the patients and care team members via machine learning algorithms.
The right combination of AI and predictive analytics technologies can also assist in optimizing hospitals’ operating efficiencies, increasing asset utilization and maintaining required equipment disinfection.
IoT-enabled thermometers could potentially be used to take patients’ temperatures from a distance. Similarly, patients can take their own temperatures and upload their data via mobile devices for virtual monitoring by their care team. This enables healthcare providers to efficiently collect more data while reducing their risk of getting exposed – or exposing their patients – to contagions.
IoT-connected sensors can also prove valuable in healthcare, as well as retail, to alert people when they are not maintaining the mandated physical distance when standing in lines. Likewise, this solution can make a difference for public transportation systems seeking to maintain a certain physical distance between vehicle operators and among passengers. Manufacturing and e-commerce fulfillment environments can also use sensors to maintain physical distancing between workers and/or co-bots.
Real-time data is essential to tracking both people and assets, either to monitor compliance with stay-at-home orders or the current location of essential supplies and equipment. 5G provides the network bandwidth needed to expand such track-and-trace capabilities.
Extended range scanners, in particular, allow front-line healthcare and public safety teams to scan barcodes on citizen ID cards while maintaining required physical distancing. Check out this blog post to learn more.
There is a strong case for smart robotics solutions in warehousing and retail environments right now. Employing co-bots to retrieve picked items and transport them to packing stations can reduce warehouse workers’ movements and interactions. And mobile automation solutions that roam grocery store aisles to check for out-of-stocks or misplaced items can minimize the number of associates that have to be on the floor. Of course, intelligent automation solutions could be used to deliver essentials, such as food and medicine, to customers and patients as well.
In healthcare environments, smart robots could potentially be used to take patients’ temperatures in lieu of other IoT technologies. Co-bots could also be used to transport COVID-19 samples from the point of collection to the lab to reduce unnecessary walking by care team members and maintain social distancing. Similar technologies are already in use in some hospitals to remotely monitor patients and reduce close contact for nurses and doctors.
Self-checkout kiosks are another way of maintaining physical distancing between customers and associates in retail environments. My colleagues recently spoke about this in detail. Check out the blog post.
There are many more ways in which technologies which were once considered “good to have” can now be highly-effective game changers in the fight against COVID-19. Our team is here to answer your questions or provide technology recommendations based on your specific challenges and goals. Subscribe to our blog to receive our latest insights and feel free to contact us here.
Shohail Ahmed is currently a Senior Engineering Manager for Zebra Technologies, responsible for leading cross functional teams within the Engineering Shared Services (ESS) department. Shohail has more than 15 years of experience within the Electronics and Telecommunication industry and has focused on achieving business goals by leveraging high performing teams.
Shohail holds a diploma in Telecommunication and Electronics from DeVry Institute of Technology. He is also a certified Project Management Professional (PMP) from PMI and currently working on acquiring a Bachelor’s in Business Management from Athabasca University.