what is the log- likelihood function of the generalized gamma distribution f(x; a,k,λ)?

Consider a Poisson distribution, use the log-likelihood function to determine a 95% confidence interval.

Consider a Poisson distribution, use the log-likelihood function to determine a 95% confidence interval.

Problem 1. The Cauchy distribution with scale 1 has following density function f(x) = 1 /...

Problem 1. The Cauchy distribution with scale 1 has following density function f(x) = 1 / π [1 + (x − η)^2 ] , −∞ < x < ∞. Here η is the location and rate parameter. The goal is to find the maximum likelihood estimator of η. (a) Find the log-likelihood function of f(x) l(η; x1, x2, ..., xn) = log L(η; x1, x2, ..., xn) = (b) Find the first derivative of the log-likelihood function l'(η; x1, x2,...

Suppose Y1, . . . , Yn ind∼ Gamma(2, β). (a) Write down the likelihood function...

Suppose Y1, . . . , Yn ind∼ Gamma(2, β). (a) Write down the likelihood function for β based on Y1, . . . , Yn. (b) Write down the log-likelihood function for β based on Y1, . . . , Yn. (c) Find an expression for the MLE of β. (d) Give the MoMs estimator of β.

1. Remember that a Poisson Distribution has a density function of f(x) = [e^(−k)k^x]/x! . It...

1. Remember that a Poisson Distribution has a density function of f(x) = [e^(−k)k^x]/x! . It has a mean and variance both equal to k. (a) Use the method of moments to find an estimator for k. (b) Use the maximum likelihood method to find an estimator for k. (c) Show that the estimator you got from the first part is an unbiased estimator for k. (d) (5 points) Find an expression for the variance of the estimator you have...

Suppose X ∼ Gamma(α,λ). Find E(Xk) for any integer k ≥ 1 and calculate Var(X)

Suppose X ∼ Gamma(α,λ). Find E(Xk) for any integer k ≥ 1 and calculate Var(X)

True or False: (a) The generalized likelihood ratio statistic Λ (the one we use when the...

True or False: (a) The generalized likelihood ratio statistic Λ (the one we use when the hypotheses are composite, i.e., we must use the MLE estimator in the denominator) is always less than or equal to 1. (b) If the p-value is 0.03, the corresponding test will reject at the significance level 0.02. (c) If a test rejects at significance level 0.06, then the p-value is less than or equal to 0.06. (d) The p-value of a test is the...

Compute and compare λ(t) for exponential, Weibull distribution, and Gamma distribution.

Compute and compare λ(t) for exponential, Weibull distribution, and Gamma distribution.

1. Find k so that f(x) is a probability density function. k= ___________ f(x)= { 7k/x^5...

1. Find k so that f(x) is a probability density function. k= ___________ f(x)= { 7k/x^5 0 1 < x < infinity elsewhere 2. The probability density function of X is f(x). F(1.5)=___________ f(x) = {(1/2)x^3 - (3/8)x^2 0 0 < x < 2 elsewhere   3. F(x) is the distribution function of X. Find the probability density function of X. Give your answer as a piecewise function. F(x) = {3x^2 - 2x^3 0 0<x<1 elsewhere

Let X follow Poisson distribution with λ = a and Y follow Poisson distribution with λ...

Let X follow Poisson distribution with λ = a and Y follow Poisson distribution with λ = b. X and Y are independent. Define a new random variable as Z=X+Y. Find P(Z=k).

Let X1, . . . , Xn be i.i.d from pmf f(x|λ) where f(x) = (e^(−λ)*(λ^x))/x!,...

Let X1, . . . , Xn be i.i.d from pmf f(x|λ) where f(x) = (e^(−λ)*(λ^x))/x!, λ > 0, x = 0, 1, 2 a) Find MoM (Method of Moments) estimator for λ b) Show that MoM estimator you found in (a) is minimal sufficient for λ c) Now we split the sample into two parts, X1, . . . , Xm and Xm+1, . . . , Xn. Show that ( Sum of Xi from 1 to m, Sum...