Data Mining: The Textbook

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8.2. EXTREME VALUE ANALYSIS

241

	0.4													0.35
	0.35													0.3
DENSITY												DENSITY
	0.25																		BUT NOT
	0.3													0.25
																	OUTLIERS
PROBABILITY												PROBABILITY
													0.2					EXTREME VALUES

	0.2
														0.15
	0.15
	0.1	LOWER							UPPER					0.1
															LOWER							UPPER
		TAIL							TAIL														DENSITY
					DENSITY THRESHOLD									0.05
	0.05																						THRESHOLD
	0	−4	−3	−2	−1	0	1	2	3	4	5			0	−4	−3	−2		−1	0	1	2	3	4	5
	−5													−5
						VALUE														VALUE

(a) Symmetric distribution (b) Asymmetric distribution

Figure 8.2: Tails of a symmetric and asymmetric distribution

distributions. Some asymmetric distributions, such as an exponential distribution, may not even have a tail at one end of the distribution.

A model distribution is selected for quantifying the tail probability. The most commonly used model is the normal distribution. The density function f_X (x) of the normal distribution with mean μ and standard deviation σ is defined as follows:

f_X (x) =	1		−(x−μ)²			(8.1)
			e		.
				2·σ²

	^√2·π	·
σ ·	^√2·π	·

A standard normal distribution is one in which the mean is 0, and the standard deviation σ is 1. In some application scenarios, the mean μ and standard deviation σ of the distribution may be known through prior domain knowledge. Alternatively, when a large number of data samples is available, the mean and standard deviation may be estimated very accurately. These can be used to compute the Z-value for a random variable. The Z-number z_i of an observed value x_i can be computed as follows:

z_i = (x_i − μ)/σ.

(8.2)

Large positive values of z_i correspond to the upper tail, whereas large negative values correspond to the lower tail. The normal distribution can be expressed directly in terms of the Z-number because it corresponds to a scaled and translated random variable with a mean 0 and standard deviation of 1. The normal distribution of Eq. 8.3 can be written directly in terms of the Z-number, with the use of a standard normal distribution as follows:

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