Designing accessible public transportation

See how University at Buffalo researchers are working with the NFTA and community members to improve the public transportation experience for passengers who have a disability.

By David J. Hill

Release Date October 13, 2017 This content is archived.

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“One of the biggest benefits we have is being able to work with the NFTA and learn about the real-world challenges passengers with disabilities face when taking public transportation.”
Brittany Perez, research associate
University at Buffalo IDeA Center

For many people who have a disability, taking public transportation is a necessity. But it can also be a nightmare.

The barriers abound. It can be extremely difficult to get up and down the stairs on the bus. Riders who use a wheelchair often feel undue attention drawn upon them as passengers sit and wait impatiently while the bus operator secures the wheelchair in place.

But a research partnership between the University at Buffalo and the Niagara Frontier Transportation Authority (NFTA) is working to dramatically improve the public transit experience for the region’s many riders who have some type of disability.

They’re taking what they’ve learned through lab simulations on the South Campus and applying the findings to the NFTA’s fleet of buses. Their results also have helped inform national standards for accessible public transportation.

The work being done by the NFTA and UB’s Center for Inclusive Design and Environmental Access (IDeA Center) is critical for public transit users like Andrew Marcum, program director for the Center for Self Advocacy, a Buffalo-based nonprofit organization that helps individuals with developmental disabilities lead independent, productive lives.

The center offers a travel training program that teaches anyone who has a disability how to use the region’s public transportation system.

“Access to reliable, accessible public transit is essential for people with disabilities to be able to live independent, full lives in the community,” says Marcum.

Informing national standards

In recent years, IDeA Center studies have helped inform national guidelines for accessible public transportation, including a recent ruling by the U.S. Access Board to change the ramp slope to make it easier for passengers who use a wheeled mobility device and others to board buses. Researchers there also have published several papers in peer-reviewed journals.

“It’s our hope that our research findings will guide standards that will make buses more accessible to all,” says Victor Paquet, professor of industrial and systems engineering in UB’s School of Engineering and Applied Sciences.

“We want our findings to be communicated not only in the scientific literature, but more importantly, to the people and transportation agencies that can greatly benefit from this information,” adds Paquet, one of numerous researchers from a range of fields at UB who collaborate with the IDeA Center, which is housed in the School of Architecture and Planning.

Other collaborators include James Lenker, associate professor of rehabilitation science in the School of Public Health and Health Professions, who has also worked on the bus studies.

Testing wheelchair securement systems

The IDeA Center collaborated with community members who use a variety of wheeled mobility devices to conduct usability testing on three different types of wheelchair securement systems for buses.

Americans with Disabilities Act (ADA) regulations require transit authorities to have two wheelchair securement spaces.

While there are now several other types of securement systems available, the traditional system has been a four-point securement: two hooks for the front of the wheelchair and two for the rear, plus a lap or shoulder belt, all of which have to be attached by the bus driver.

But, says Brittany Perez, an occupational therapist and research associate in the IDeA Center who has led the bus studies, “There are a lot of challenges with this securement system. It’s time-consuming, the wheelchair user often feels that there is unwanted attention drawn to them, and there’s time pressure for the bus driver who is hurrying to stay on schedule.”

“As a result, passenger compliance with using wheelchair securement systems is extremely low,” adds Paquet. “The IDeA Center has been working to find creative ways to ensure that wheelchair users are safe, and that they are more likely to use the securement technologies available on the bus because they’re not as time-consuming or intrusive.”

Researchers began by examining the traditional, manual, four-point securement system that requires the bus driver’s assistance and compared that to two securement system alternatives:

  1. A manual, three-point securement system (known by the brand name Q’Pod) that also requires the bus driver to hook the wheeled mobility device in place. Lab tests showed this system takes less time than the traditional four-point securement system. Community participants also rated it as easier to use.
  2. An automated, rear-facing system (Quantum) that Perez says is “different than anything that has been available thus far in the securement industry.” In this system, the passenger backs into the securement space, which is equipped with a rear protective padding. The rider simply presses a button to initiate two telescoping arms that apply pressure to both sides of the wheelchair, securing it into place. “In our study, we found that this system significantly reduces securement time and increases independence, and our participants rated the automated system very highly,” Perez says.

Improving bus ramps

Before shifting focus toward wheelchair securement, the IDeA Center conducted a study examining the slope of a newer bus-ramp technology. The ramp unfolds after the bus door opens and allows passengers to board the vehicle, whether they are in a wheeled mobility device, use a cane or walker, or are a parent pushing a stroller.

Their study, like others, found that a 1 to 6 ramp — meaning a ratio of 1 inch in vertical rise to 6 inches of horizontal run — is safer and easier to use than the previous standard slope of 1 to 4 in transit vehicles.

The IDeA Center also reported that ramps are better than lifts. “The ramp allows riders to enter and exit the bus independently, whereas the use of a lift requires the full assistance of the bus driver,” Perez says. “The ramp can benefit all kinds of passengers.”

Last January, the U.S. Access Board issued a final ruling making the 1 to 6 ramp the maximum slope standard for transit vehicles when the ramp is deployed to the street level.

Jeffrey Sweet, an NFTA equipment engineer who has more than three decades of experience in public transportation, worked with researchers to develop best-in-class equipment for those with special needs.

“We’ve adopted the 1 to 6 ramp, and that’s just one of a number of improvements we have developed,” says Sweet, who is continuously looking at ways to meet and exceed regulations and requirements.

The IDeA Center’s studies on the wheelchair securement and ramp access were both funded through the Administration for Community Living’s Rehabilitation Engineering Research Centers (RERC) program.

Prior to the ramp and wheelchair securement studies, the IDeA Center, again through RERC funding, studied the interior design of the NFTA’s 40-foot buses. The research led to improvements in the turn space wheelchair users have when boarding the bus, as well as the positioning of the fare-collection box to make to make it more user friendly.

Partners in public transportation

The IDeA Center and NFTA began their partnership almost 10 years ago. The benefits are mutual. IDeA Center researchers get to take what they learned in the simulation lab and apply it to the real world using NFTA buses and riders who rely on accessible public transportation.

“One of the biggest benefits we have is being able to work with the NFTA and learn about the real-world challenges passengers with disabilities face when taking public transportation,” Perez says.

The IDeA Center has conducted some of its research in its former lab in an annex building on the South Campus, which houses a full scale, low-floor bus simulator that allows researchers to work in poor weather conditions or when an NFTA bus is not available. But the NFTA has also brought some of its 40-foot buses and its smaller Paratransit Access Line vehicles to campus.

“We could stay on campus in our simulator and be limited to what we learn in the lab, but having that open dialogue with the NFTA has been helpful in designing and implementing our research studies. Some of the conversations they’ve had around accessibility are very progressive for a transit authority their size,” Perez says.

Meanwhile, the NFTA is supplied with data from research studies, which the authority can use to inform changes that improve service for all NFTA users. In 2016, the NFTA’s system-wide Metro Bus and Rail services provided a total of 28.1 million rides.

“The IDeA Center really provided us with a tremendous amount of insight and valuable information,” says Sweet. “It helped us exceed regulations and improve our service, based on actual data.”

Metro has a fully accessible bus and rail system. But for passengers who can’t use regular Metro Bus or Metro Rail service due to a disability, the NFTA provides curb-to-curb transportation through its Paratransit Access Line.

“We know from experience that when people have negative experiences using public transportation, they tend not to use it,” says Marcum of the Center for Self Advocacy. “That’s why the research the IDeA Center is doing, and the investments the NFTA is making, are so important. It means better access to the community for people with disabilities.”