Template:Characteristics of the exponential distribution alta: Difference between revisions
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=== Characteristics === | === Characteristics === | ||
The characteristics of the 1-parameter exponential distribution can be exemplified by examining its parameter, lambda (<span class="texhtml">λ<span style="font-family: sans-serif;">)</span></span> and the effect lambda has on the | The characteristics of the 1-parameter exponential distribution can be exemplified by examining its parameter, lambda (<span class="texhtml">λ<span style="font-family: sans-serif;">)</span></span> and the effect lambda has on the ''pdf'', reliability and failure rate functions.<br> | ||
==== Effects of <span class="texhtml">λ</span> on the ''pdf'' ==== | ==== Effects of <span class="texhtml">λ</span> on the ''pdf'' ==== | ||
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:*This ''pdf'' can be thought of as a special case of the Weibull<span class="texhtml"</span> ''pdf'' with <span class="texhtml">β = 1</span>. | :*This ''pdf'' can be thought of as a special case of the Weibull<span class="texhtml"</span> ''pdf'' with <span class="texhtml">β = 1</span>. | ||
<br> [[Image:ALTA4reliabilityvstimeplot.gif|thumb|center|400px]] <br> | <br> [[Image:ALTA4reliabilityvstimeplot.gif|thumb|center|400px]] <br> | ||
==== Effects of <span class="texhtml">λ</span> on the Reliability Function ==== | ==== Effects of <span class="texhtml">λ</span> on the Reliability Function ==== | ||
Revision as of 22:47, 6 March 2012
Characteristics
The characteristics of the 1-parameter exponential distribution can be exemplified by examining its parameter, lambda (λ) and the effect lambda has on the pdf, reliability and failure rate functions.
Effects of λ on the pdf
- The scale parameter is [math]\displaystyle{ \tfrac{1}{\lambda } }[/math] .
- As λ is decreased in value, the distribution is stretched out to the right, and as λ is increased, the distribution is pushed toward the origin.
- This distribution has no shape parameter, as it has only one shape (i.e., the exponential). Its only parameter is the failure rate, λ .
- The distribution starts at T = 0 at the level of f(T = 0) = λ. It decreases thereafter exponentially and monotonically as T increases, and it is convex.
- As [math]\displaystyle{ T\to \infty }[/math] , [math]\displaystyle{ f(T)\to 0 }[/math].
- This pdf can be thought of as a special case of the Weibull<span class="texhtml"</span> pdf with β = 1.
Effects of λ on the Reliability Function
- The 1-parameter exponential reliability function starts at the value of 1 at T = 0 . It decreases thereafter monotonically and is convex.
- As [math]\displaystyle{ T\to \infty }[/math] , [math]\displaystyle{ R(T\to \infty )\to 0 }[/math].
Effects of λ on the Failure Rate Function
The failure rate function for the exponential distribution is constant and it is equal to the parameter λ .
