You’ve probably heard this one before, and maybe you’ve even wondered it yourself: Are race car drivers really athletes? After all, isn’t the car doing all of the work? And how much different can it be than driving down the interstate, if only a lot faster?
Anyone in the business of motorsports will answer unequivocally “yes” to the first question and a resounding “no” to the second. So, too, will just about anyone who has spent time driving a race car or go-kart at speed on a racetrack.
Jim Leo, the founder and owner of PitFit Training in Indianapolis, is one of those who wholeheartedly endorses the fact that race car drivers are indeed athletes; however, his arrival at that answer came in a very methodical and hands-on way.
Leo has a degree in exercise physiology and biomechanics and early in his postgraduate career set up a health and wellness program for the employees of Detroit Diesel (now Detroit) in the early 1990s. At the time, the majority shareholder and CEO of Detroit Diesel was one Roger Penske of Penske Racing fame and an 18-time winner of the Indianapolis 500 as a team owner. At the time, Leo was not involved with motorsports and had only a passing interest in them when he approached Penske about creating a fitness regimen for his race teams—specifically, the pit crew members.
Soon after, PitFit Training was born, and Leo found himself training not only the Penske Racing crew members but crew members from other teams as well. This coincided with an increased emphasis on athletes across nearly every sport training more scientifically and specifically for the demands of their particular sport. It wasn’t long after that that drivers were coming to Leo for advanced fitness training.
Driver James Hinchcliffe (left) training. At PitFit, it’s common practice for physical exercise to be immediately followed by mental acuity challenges. / Photo by Walter Kuhn
Now, after more than 20 years in the sector, Leo has honed and refined the techniques he uses to keep drivers physically and mentally performing at their peak. “There’s no question that race car drivers are athletes,” said Leo. “But I’ll take it one step further and say that they are more akin to fighter pilots.”
“If you look at a driver’s physical requirements, such as the elevated heart and breath rates, enduring g-forces (the force of gravity or acceleration on a body) and near-instantaneous reflexes in addition to the high demand on cognitive ability, they align closely to the traits of combat pilots. Every athlete has to make split-second decisions on the field of play that have ramifications that may end in a game-losing situation, which is true of race car drivers as well. But drivers have the added weight that their decisions can not only affect the outcome of their race result but could also cause themselves or a fellow competitor potentially grave harm or their team hundreds of thousands of dollars’ worth of car damage.”
At PitFit, driver James Hinchcliffe (right) completes strength training for his shoulders and arms, key areas of concentration for Indy car drivers since they endure high cornering g-forces without the benefit of power steering. / Photo by Walter Kuhn
Added Leo for further clarification: “Physiologically, we know that a driver’s blood lactate levels rise while in the car as well as cardiovascular demands that are similar to running a 10K at an elite pace.”
Jim Leo likens the cognitive prowess, aka mind conditioning, of a race car driver to that of a combat pilot. It makes sense. Like a fighter pilot, a race car driver must be able to withstand the effects of sustained g-forces on the human body for long periods of time. Consider: An Indy 500 race can sometimes last up to five hours, with drivers often experiencing g’s spiking to three or more. And these drivers, like those pilots, consistently need to have unbelievably quick reaction times and sensorimotor functions, not only to succeed in their mission but to survive.
For a race car driver, reaction times and mental focus are paramount. Driver Charlie Kimball (sitting) tries to keep up with randomized light patterns during a training session at the PitFit facility. / Photo by Walter Kuhn
Imagine yourself having to react to a car that crosses your path at more than 200 miles per hour or to be constantly battered by continuous braking and accelerating forces in a cockpit where temperatures are likely above 100 degrees. Due to the high speeds and g’s alone, the average human on a racing oval would black out.
Where PitFit takes its motorsports training to the next level, and further parallels combat pilot training, is with its approach to incorporating neurocognitive (having to do with the ability to think and reason) elements with physical fitness. PitFit’s brain training is three-pronged, targeting vision, reaction time, and sensorimotor functions to give racing’s athletes the greatest developmental improvements that will lead to success on the tracks.
PitFit incorporates Senaptec’s strobe glasses as part of its neurocognitive exercises. Using liquid crystal technology, the lenses flicker between clear and opaque, removing visual information and forcing an individual to process more efficiently. / Photo courtesy Senaptec
That means workouts are often a combination of neck-centric strengthening exercises matched with ladder-type movements to improve hand-eye-foot coordination that are then paired with high-end virtual- and augmented-reality games and tasks based upon advanced biometrics, artificial intelligence, and data analytics.
PitFit has a custom-built sensory station, for example, created by Oregon-based Senaptec, a startup that’s bringing new visual training technologies to market that are specific to improving eye-to-brain connectivity. (Senaptec has the New York Yankees, Red Bull, and the Air Force on its client list.) PitFit’s station requires drivers to interact with moving images on a screen through activities that an article on thedrive.com compared to the arcade game Whac-A-Mole. Skill levels are then measured to help indicate the driver’s ability to make quick decisions under pressure.
Through high-end virtual and augmented reality games and tasks at the sensory station, you can assess your hand’s reactions to visual signals and find out how well you can see through distractions, judge depth, and track multiple objects in space. / Photo courtesy Senaptec
Race Trainer, another PitFit exclusive, is a homemade steering-resistance machine centered around a weighted steering wheel paired to pedals. A lighted control board behind the wheel prompts the driver to simulate a turn on the track, which then prompts the trainer to pull on resistance bands strapped to weighted headgear worn by the athlete. The exercise, according to PitFit, mimics the effects of those lateral g’s.
The light on PitFit’s Race Trainer serves as a reaction trainer—green means turn now—and it’s all about how the driver responds when the steering wheel and headgear are weighted. / Photo by Walter Kuhn
There are also low-tech training exercises. For instance, a trainer drops playing cards from chest height, and the driver has to try and grab one before the card hits the ground. The cards may fall in different directions, and this builds reaction-time skills that result in better, safer results on the track.
Mind + Matter
To get a sense of what a race car driver deals with, imagine this: You are out in the parking lot of your local shopping center in full sun at high noon in July wearing a pair of thick flannel sweatpants and sweatshirt, with gloves, shoes, and socks, atop an exercise bicycle that you must pedal hard enough to maintain a heart rate above 130 beats per minute. On your head is a helmet that has bungee cords attached, pulling your head randomly in four directions. With your left hand, you’re doing 15-pound bicep curls, while with your right hand you are throwing darts at a board every two seconds and each must hit the bull’s-eye. Meanwhile, a tennis ball machine is firing balls at you from 10 feet away, so you must duck out of the way to avoid being hit. To top it all off, through a set of earphones, you are being fed complex math problems that you must solve instantly or face the possibility of an electric shock if you answer incorrectly or if you miss the bullseye.
Taken as a whole, this hypothetical may border on the absurd, but each element gives us a sense, through ordinary tasks that we can all identify with, of the physical, reflexive, and mental rigors of driving a race car, along with the physical jeopardy that can result from bad decision-making.
“Drivers are always analyzing what they see on track or what information they are being fed from a spotter about track position or an engineer about strategy,” said Leo. “We spend a lot of time training a driver’s neuropathways to better cope with the physical and cognitive demands of racing by having them train at specific intensities, immediately followed by a cognitive skills test like repeating a pattern on a light board or visual recognition test, even sometimes adding some kind of auditory distraction to really create a chaotic environment while their heart and breath rates are still high.
Driver Zach Veach spends time at PitFit doing exercises designed to perfect hand-eye-foot coordination, which is part of the program’s brain training to improve success on the track. / Photo by Walter Kuhn
“The idea is to have them practice focusing on the task at hand to push beyond the physical stress,” elaborated Leo. “This trains a driver to cope with both the physical and mental demands they are required to exercise on track in competition.”
Consistency Is Key
That kind of focus may not be apparent to the spectator trackside or on television, but one need only look at the consistency of a top driver’s lap times to get the real picture. Over the course of a race, discounting laps where there is a yellow flag or a pit stop, it’s common to see a string of 25 or more lap times that never vary by more than half a second—the equivalent of throwing 25 darts in quick succession all within the bullseye.
While the romantic lore around a race car driver may be of a brazen daredevil driving by the seat of his or her pants, the reality is far from it. Drivers are highly fit athletes with astounding cognitive ability—meaning there is far more to winning a race than standing on the gas.
A Fitting Connection
Early in 2019, Matt Anderson, Curator of Transportation for The Henry Ford, along with other staffers, was on the phone with racing legend Lyn St. James. They were talking about themes and stories for Driven to Win: Racing in America, The Henry Ford’s permanent racing exhibition, then in progress. St. James, a longtime supporter and partner of The Henry Ford, was an integral source of ideas and insights related to Driven to Win since its conception—and she is one of the drivers showcased within the exhibit.
Lyn St. James (left), photographed by Michelle Andonian, instructs a student at her Complete Driver Academy in 2008. / THF58776
It was during this call that St. James recommended The Henry Ford investigate Jim Leo’s story of entrepreneurship and innovation. A who’s-who of auto racing had been having great success on the tracks using Leo’s PitFit Training approach, including drivers such as Scott Dixon, Tony Kanaan, Dario Franchitti, Will Power, Kasey Kahne, Sam Hornish, Jr., Larry Dixon, Morgan Lucas, Pippa Mann, Levi Jones, and James Hinchcliffe.
Soon after that call, Anderson and team were in Indianapolis, meeting Leo and touring his industry-leading motorsports training facility. “Jim couldn’t have been friendlier. He opened his doors and gave us an up-close look at his methods and machines,” noted Anderson, who admitted to being a bit starstruck when driver Pippa Mann walked into Leo’s gym to work out while The Henry Ford team was on-site.
“Jim had us try some of the physical and mental workouts,” Anderson continued. “We did our best, but, needless to say, none of us will be starting in the Indy 500 anytime soon.” The team decided then and there to incorporate elements of the PitFit program into the exhibition. Leo enthusiastically agreed to help adapt some of the training machines he uses into interactives for visitors to experience in Driven to Win. We also received assistance from Senaptec, who customized their app specifically for museum visitors.
“Our visitors will be able to use some of the same training machines, and some of the same sensory performance devices, that top drivers use,” Anderson said. “Once you realize the physical strength and mental acuity required of these racers, you’ll never doubt their athletic abilities again.”