While it wasn’t quite the fairy tale ending in Bolt’s final race – he came third and claimed only bronze in the 100m final at the IAAF World Athletics Championships in London – his overall career results are certainly fit for the record books.
He is the fastest runner in history over 100m and 200m, as well as winning the “triple triple” at the Olympics: gold in the 100m, 200m and 4x100m relay at three consecutive games, in Beijing, London and Rio. (The Beijing 2008 4x100m relay gold was later revoked after his team mate Nesta Carter was disqualified for failing a drug test.)
Bolt also held the world championship title over these distances between 2009 and 2015, with the exception of one false start in the 100m in 2011.
But is the Jamaican athlete the greatest of all time, as is often claimed?
The performance of past 100m winners could be influenced by a number of things such as race conditions and scientific advantages that were available at the time.
For Bolt to truly deserve the title of “greatest of all time”, we need to compare his results to those of previous athletes over the 100m. We also need to compare his track performances to the fastest times over the other track distances. We can do this using statistics.
If we look at the fastest 100m race times for each year, we see there has been a large decrease in fastest times for both men and women.
This pattern of decreasing times is observed for race times across all distances. A key reason in the decrease in race times is due to advances in modern training and scientific knowledge. In our statistical model, we include a changing trend in time so we can compare athlete performances in different years.
We also need to include adjustments in our statistical model for environmental and political factors that influence the population from which athletes are. During World War I and World War II, for example, the pool of athletes was depleted by men away fighting for their country.
The statistical model that we used, that includes both the trend in time and adjustment for population influences, is called a Weibull distribution.
This distribution is perfect for calculating the probability of rare events occurring in a given year, such as the fastest race times, and is ideal for estimating the probability of breaking world records.
Crunch the numbers
We use this distribution to model the fastest race times each year over the distances 100m, 200m, 400m, 800m, 1500m, 5000m and 10,000m. Using the statistical properties of the distribution, we can then rescale to compare different athletes’ performances over different distances. This means we can answer the question: is Usain Bolt the greatest athlete of all time?
The top 10 rankings from the statistical model are given below. These rankings account for the advantage of racing in different years and account for performances over different distances.
Bolt is the world’s fastest man of all time over 100m and 200m but the title of world’s greatest athlete goes to Lee Evans of the United States, who broke the world record in the mens 400m at the Olympics in 1968 in Mexico City.
Griffith-Joyner’s 100m world record time of 10.49s was suspected to be wind-assisted. But she also ran the second- and third-fastest official times in history for the women’s 100m, at 10.61s and 10.62s, so the title is well deserved.
The study of extremes
All this number crunching might seem like just a bit of fun, but statistical modelling of minima and maxima is actually really important and commonly used in fields of engineering, finance and earth sciences.
For example, we use distributions like this one to model the wettest day of the year and estimate the amount of rainfall we expect on average once every 100 years – the 1-in-100-year prediction.