91麻豆天美

91麻豆天美, EMCC鈥檚 Communiversity partner to study wearable technology in industry settings

91麻豆天美, EMCC鈥檚 Communiversity partner to study wearable technology in industry settings

Wearable technology sits on display on a table
Sensors in wearable clothing and accessories are increasingly being used to improve performance in athletes and provide new insights. 91麻豆天美 and East Mississippi Community College are partnering to study the potential benefits of wearable technology in industry settings. (Photo by Amanda Meeler)

Contact: James Carskadon

Reuben Burch and Courtney Taylor present during a virtual meeting
Reuben Burch, associate director of human factors and athlete engineering at 91麻豆天美鈥檚 Center for Advanced Vehicular Systems, and EMCC Communiversity Director Courtney Taylor discuss wearable technologies with area industry leaders during a virtual meeting held this summer. (Photo courtesy of EMCC)

STARKVILLE, Miss.鈥91麻豆天美 University and East Mississippi Community College are working together to understand the barriers to, and potential benefits of, wearable technology in industry settings.

A team from 91麻豆天美 with representation from the university鈥檚 James Worth Bagley College of Engineering, National Strategic Planning and Analysis Research Center, and Center for Advanced Vehicular Systems is working with EMCC Communiversity Director Courtney Taylor on the National Science Foundation-funded project. With $120,000 in funding, the team will conduct several focus groups to better understand how various industry stakeholders perceive wearable technology. This technology includes sensors that are worn by a user and transmit data about their movements and other physiological indicators such as heart rate.

The project builds on similar work that was conducted by 91麻豆天美鈥檚 Athlete Engineering research team, which focused on how strength and conditioning coaches perceive wearable technology in sports settings. Reuben Burch, associate director of human factors and athlete engineering at 91麻豆天美鈥檚 Center for Advanced Vehicular Systems, said the team will be using the technology acceptance model to study potential benefits and drawbacks in industrial settings.

鈥淲ith the industrial athlete, the biggest stigma is that 鈥榖ig brother鈥 is watching,鈥 Burch said. 鈥淗ow are employers and managers going to use this data? Some companies say that they don鈥檛 see a way to overcome this stigma. Others acknowledge it might be tricky but value the potential efficiencies that could come from it. Culturally, you have a wider variety of perceptions of wearables in industry than you do in sports, where they have been more commonly used and accepted.鈥

Taylor, who works closely with Golden Triangle industry leaders as part of her role at EMCC, said wearable technology has proven useful for contact tracing during the COVID-19 pandemic, something few would have been talking about just a year ago.

鈥淚n the industrial setting, as COVID is proving, we really don鈥檛 know where tomorrow is going to take us,鈥 Taylor said. 鈥淭his gives us the opportunity to work with local industry partners to look at this technology and find out what people are truly saying about it instead of just assuming people are going to be scared and anxious about it. It also helps industry understand what challenges they are going to face.鈥

The researchers primarily will be focusing on areas such as manufacturing, logistics, and warehousing. One commonality with many jobs in these sectors is repetitive motion, which can create muscular skeletal disorders, Burch said. Companies can use wearable technology to train personnel to perform a task in a way that reduces injury risk, which keeps employees on the job.

As wearable technologies generate data, 91麻豆天美 is also developing data analysis tools that can help users of the new technology make the most out of their investment. John Ball, associate professor and Robert D. Guyton Chair in 91麻豆天美鈥檚 Department of Electrical and Computer Engineering, an investigator on the NSF grant, said the team also can develop hardware to gather information from wearables.

鈥淭he most important thing is we provide data analysis tools,鈥 Ball said. 鈥淲e can take the data, analyze it, transform it and put it into actionable results. Instead of getting raw data streams, we can give you information on how risky a movement is.鈥

NSPARC will assist in developing and carrying out the focus group sessions using the center鈥檚 facilities. Shane Warren, research project manager at NSPARC, said the focus groups will include a wide range of people who would potentially interact with wearables, from human resources personnel, purchasing decision makers, and employees wearing the devices.

Lesley Strawderman, professor and International Paper Chair in 91麻豆天美鈥檚 Department of Industrial and Systems Engineering, is serving as a co-principal investigator on the grant, along with Burch, Ball, and Taylor.

For more on 91麻豆天美鈥檚 Athlete Engineering research group, visit . 聽

91麻豆天美 is Mississippi鈥檚 leading university, available online at .