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By axiom II (normalization), the following must hold:
 
By axiom II (normalization), the following must hold:

Latest revision as of 12:50, 13 February 2013

Practice Problem: normalizing the probability mass function of a discrete random variable


A random variable X has the following probability mass function:

$ p_X (k) = \frac{C}{3^{|k|}}, \text{ for } k \in {\mathbb Z}, $

where C is a constant. Find the value of the constant C.


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Answer 1

(alec green)

By axiom II (normalization), the following must hold:

$ \sum_{k \in \Omega} p_{X}^{k} = 1 $

This implies that the (infinite) sum of probabilities must converge. Therefore, we're looking for the discrete summation of the following qualitative graph, which should = 1:

Drv_norm_dt.PNG

Or equivalently, the continuous integral of the following piecewise function, which should = 1 as well:

Drv_norm_ct.png

We can rearrange our initial sum into a geometric series:

$ \sum_{k \in \Omega} p_{X}^{k} = \sum_{k \in \Z} \frac{C}{3^{|k|}} = \sum_{k \in \Z^{-}} \frac{C}{3^{|k|}} + \frac{C}{3^{0}} + \sum_{k \in \Z^{+}} \frac{C}{3^{|k|}} $

$ = C + 2\sum_{k \in \N^{+}} \frac{C}{3^{k}} \;\;\; \because |-k| = |k| = k \;\;\; \forall \, k \in \Z $

$ = 2\sum_{k \in \N^{0}} \frac{C}{3^{k}} - C = 2C\sum_{k \in \N^{0}} (\frac{1}{3})^{k} - C $

It is now clear that we have a geometric series term of the following form:

$ \sum_{k=0}^{\infty} a^{k} = \frac{1}{1-a} \;\;\; \forall \, |a| < 1 $

Where our 'a' is (1/3). This yields:

$ 2C\frac{1}{1-\frac{1}{3}} - C = 2C\frac{3}{2} - C = 3C - C = 2C $

By our initial constraint of normalization:

$ 2C = 1 \;\;\; \Rightarrow \;\;\; C = \frac{1}{2} $

Now we can label our qualitative graph with our solution:

Drv_norm.PNG

Answer 2

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Answer 3

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