Jump to content

英文维基 | 中文维基 | 日文维基 | 草榴社区

Conditional entropy

From Wikipedia, the free encyclopedia
(Redirected from Conditional information)
Venn diagram showing additive and subtractive relationships various information measures associated with correlated variables and . The area contained by both circles is the joint entropy . The circle on the left (red and violet) is the individual entropy , with the red being the conditional entropy . The circle on the right (blue and violet) is , with the blue being . The violet is the mutual information .

In information theory, the conditional entropy quantifies the amount of information needed to describe the outcome of a random variable given that the value of another random variable is known. Here, information is measured in shannons, nats, or hartleys. The entropy of conditioned on is written as .

Definition

[edit]

The conditional entropy of given is defined as

(Eq.1)

where and denote the support sets of and .

Note: Here, the convention is that the expression should be treated as being equal to zero. This is because .[1]

Intuitively, notice that by definition of expected value and of conditional probability, can be written as , where is defined as . One can think of as associating each pair with a quantity measuring the information content of given . This quantity is directly related to the amount of information needed to describe the event given . Hence by computing the expected value of over all pairs of values , the conditional entropy measures how much information, on average, the variable encodes about .

Motivation

[edit]

Let be the entropy of the discrete random variable conditioned on the discrete random variable taking a certain value . Denote the support sets of and by and . Let have probability mass function . The unconditional entropy of is calculated as , i.e.

where is the information content of the outcome of taking the value . The entropy of conditioned on taking the value is defined by:

Note that is the result of averaging over all possible values that may take. Also, if the above sum is taken over a sample , the expected value is known in some domains as equivocation.[2]

Given discrete random variables with image and with image , the conditional entropy of given is defined as the weighted sum of for each possible value of , using as the weights:[3]: 15 

Properties

[edit]

Conditional entropy equals zero

[edit]

if and only if the value of is completely determined by the value of .

Conditional entropy of independent random variables

[edit]

Conversely, if and only if and are independent random variables.

Chain rule

[edit]

Assume that the combined system determined by two random variables and has joint entropy , that is, we need bits of information on average to describe its exact state. Now if we first learn the value of , we have gained bits of information. Once is known, we only need bits to describe the state of the whole system. This quantity is exactly , which gives the chain rule of conditional entropy:

[3]: 17 

The chain rule follows from the above definition of conditional entropy:

In general, a chain rule for multiple random variables holds:

[3]: 22 

It has a similar form to chain rule in probability theory, except that addition instead of multiplication is used.

Bayes' rule

[edit]

Bayes' rule for conditional entropy states

Proof. and . Symmetry entails . Subtracting the two equations implies Bayes' rule.

If is conditionally independent of given we have:

Other properties

[edit]

For any and :

where is the mutual information between and .

For independent and :

and

Although the specific-conditional entropy can be either less or greater than for a given random variate of , can never exceed .

Conditional differential entropy

[edit]

Definition

[edit]

The above definition is for discrete random variables. The continuous version of discrete conditional entropy is called conditional differential (or continuous) entropy. Let and be a continuous random variables with a joint probability density function . The differential conditional entropy is defined as[3]: 249 

(Eq.2)

Properties

[edit]

In contrast to the conditional entropy for discrete random variables, the conditional differential entropy may be negative.

As in the discrete case there is a chain rule for differential entropy:

[3]: 253 

Notice however that this rule may not be true if the involved differential entropies do not exist or are infinite.

Joint differential entropy is also used in the definition of the mutual information between continuous random variables:

with equality if and only if and are independent.[3]: 253 

Relation to estimator error

[edit]

The conditional differential entropy yields a lower bound on the expected squared error of an estimator. For any random variable , observation and estimator the following holds:[3]: 255 

This is related to the uncertainty principle from quantum mechanics.

Generalization to quantum theory

[edit]

In quantum information theory, the conditional entropy is generalized to the conditional quantum entropy. The latter can take negative values, unlike its classical counterpart.

See also

[edit]

References

[edit]
  1. ^ "David MacKay: Information Theory, Pattern Recognition and Neural Networks: The Book". www.inference.org.uk. Retrieved 2019-10-25.
  2. ^ Hellman, M.; Raviv, J. (1970). "Probability of error, equivocation, and the Chernoff bound". IEEE Transactions on Information Theory. 16 (4): 368–372. CiteSeerX 10.1.1.131.2865. doi:10.1109/TIT.1970.1054466.
  3. ^ a b c d e f g T. Cover; J. Thomas (1991). Elements of Information Theory. Wiley. ISBN 0-471-06259-6.