| 21. | If and only if all the " Y " " i " have gamma distributions with the same scale parameter.
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| 22. | The parameter \ gamma controls the rate of jump arrivals and the scaling parameter \ lambda inversely controls the jump size.
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| 23. | Due to properties of the Fourier transform, the rotation and scaling parameters can be determined in a manner invariant to translation.
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| 24. | It depends on a scale parameter ? > 0 and shape parameters " m " > 1 / 2 and ?.
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| 25. | The scale parameters c, \ sigma and k determine the scaling of the inputs in the polynomial, RBF and MLP kernel function.
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| 26. | When the scale parameter \ mu equals 2, the distribution simplifies to the chi-squared distribution with " 2k " degrees of freedom.
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| 27. | P ( s, x ) is the cumulative distribution function for Gamma random variables with shape parameter s and scale parameter 1.
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| 28. | As with other probability distributions, the Tukey lambda distribution can be transformed with a location parameter, ?, and a scale parameter, ?.
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| 29. | The versions below with _ ls appended show how to generalize this to encompass an arbitrary location parameter mu and scale parameter sigma.
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| 30. | When \ mu is equal to 0 and the scale parameter is equal to 1, the Holtsmark distribution has the probability density function:
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