In probability theory, Cantelli's inequality (also called the Chebyshev-Cantelli inequality and the one-sided Chebyshev inequality) is an improved version of Chebyshev's inequality for one-sided tail bounds. The inequality states that, for
where
Applying the Cantelli inequality to gives a bound on the lower tail,
While the inequality is often attributed to Francesco Paolo Cantelli who published it in 1928, it originates in Chebyshev's work of 1874. When bounding the event random variable deviates from its mean in only one direction (positive or negative), Cantelli's inequality gives an improvement over Chebyshev's inequality. The Chebyshev inequality has "higher moments versions" and "vector versions", and so does the Cantelli inequality.
For one-sided tail bounds, Cantelli's inequality is better, since Chebyshev's inequality can only get
On the other hand, for two-sided tail bounds, Cantelli's inequality gives
which is always worse than Chebyshev's inequality (when ; otherwise, both inequalities bound a probability by a value greater than one, and so are trivial).
Various stronger inequalities can be shown. He, Zhang, and Zhang showed (Corollary 2.3) when and :
In the case this matches a bound in Berger's "The Fourth Moment Method",
This improves over Cantelli's inequality in that we can get a non-zero lower bound, even when .