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Probability Density Function Concept Figure 7.8 Consider a signal that varies in time. What is the probability that the signal at a future time will reside.

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Presentation on theme: "Probability Density Function Concept Figure 7.8 Consider a signal that varies in time. What is the probability that the signal at a future time will reside."— Presentation transcript:

1 Probability Density Function Concept Figure 7.8 Consider a signal that varies in time. What is the probability that the signal at a future time will reside between x and x +  x?

2 In-Class Example Determine the probability that x is between 1 and 7.

3 Probability Distribution Function (PDF) The probability distribution function (PDF) is related to the integral of the pdf. A consequence of this is that Figure 7.14 pdf PDF corrections

4 Normalization of the pdf When the pdf is ‘normalized’ correctly: Here, >> not normalized So, define p new (x) = 1/3 p(x) such that

5 Probability Density & Distribution pdf PDF Fig. 7.14 Pr[x≤1] = 0.5 / 3.0 = 1/6 = 16.7 % Determine Pr[x≤1] using the pdf and using the PDF.

6 In-Class Example Determine the expressions for the PDF curve, knowing that of the pdf curve. Integrating the pdf expressions give

7 In-Class Example N 2 molecules travel at speeds in this room according to the Maxwell-Boltzman speed distribution. The probability density function that describes this is: Determine the speed below which 95 % of the molecules travel.

8 In-Class Example ∫→ pdfPDF 810 m/s C = p

9 The Normal pdf and PDF Figure 8.4

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