- Hands-On Mathematics for Deep Learning
- Jay Dawani
- 215字
- 2021-06-18 18:55:26
Joint distributions
So far, we have dealt with and learned about distributions that relate to one random variable; but now, say we have two random variables, X and Y. Then, their joint distribution is defined as 
, such that 
.
In joint distributions, we usually tend to know the distribution of a set of variables, but sometimes, we may only want to know the distribution of a subset. We call this the marginal distribution. We define the marginal distribution of X as follows:
Let's say our n continuous random variables in A are jointly distributed and have the f PDF. Then, we have the following:
Here, 
and 
.
Let's revisit an earlier example, where we have two variables, X and Y. If the variables are continuous, then their joint distribution is 
and 
.
Now, let's suppose our n continuous random variables are independent. Then, 
for all cases of 
.
If 
is a cumulative distribution function and 
is the PDF, then 
and 
.
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