Suppose Y1, Y2, …, Yn are
independent and identically distributed random variables from a
uniform distribution on [0,k].
a. Determine the density of Y(n) = max(Y1,
Y2, …, Yn).
b. Compute the bias of the estimator k = Y(n) for
estimating k.
TOPIC: Distribution of n-th order statistic for an Uniform distribution and its' bias.
Suppose Y1, Y2, …, Yn are independent and identically distributed random variables from a uniform distribution...
Let Y1, Y2, . .. , Yn be independent and identically distributed random variables such that for 0 < p < 1, P(Yi = 1) = p and P(H = 0) = q = 1-p. (Such random variables are called Bernoulli random variables.) a Find the moment-generating function for the Bernoulli random variable Y b Find the moment-generating function for W = Yit Ye+ … + . c What is the distribution of W? 1.
Let Yi, Y2,.... Yn denote independent and identically distributed uniform random variables on the interval (0,4A) obtain a method of moments estimator for λ, λ. Calculate the mean squared error of this estimator when estimating λ. (Your answer will be a function of the sample size n and λ
Let Yi, Y2,.... Yn denote independent and identically distributed uniform random variables on the interval (0,4A) obtain a method of moments estimator for λ, λ. Calculate the mean squared error of this estimator when estimating λ. (Your answer will be a function of the sample size n and λ
Let Y1, Y2, . . . , Yn be independent random variables with Exponential distribution with mean β. Let Y(n) = max(Y1,Y2,...,Yn) and Y(1) = min(Y1,Y2,...,Yn). Find the probability P(Y(1) > y1,Y(n) < yn).
Let Y1, Y2, ..., Yn be independent random variables each having uniform distribution on the interval (0, θ) (c) Find var(Y(j) − Y(i)). Let Y İ, Y2, , Yn be independent random variables each having uniform distribu- tion on the interval (0,0) Let Y İ, Y2, , Yn be independent random variables each having uniform distribu- tion on the interval (0,0)
Let Y1, Y2, ..., Yn be independent random variables each having uniform distribution on the interval (0, θ). Find variance(Y(j) − Y(i)) Let Yİ,Y2, , Yn be independent random variables each having uniform distribu - tion on the interval (0,0) Fin ar(Y)-Yo
Let Y1, Y2, ..., Yn be independent random variables each having uniform distribution on the interval (0, θ). (a) Find the distribution of Y(n) and find its expected value. (b) Find the joint density function of Y(i) and Y(j) where 1 ≤ i < j ≤ n. Hence find Cov(Y(i) , Y(j)). (c) Find var(Y(j) − Y(i)). Let Yİ, Ya, , Yn be independent random variables each having uniform distribu- tion on the interval (0, 6) (a) Find the distribution...
Let (X1, Y1) and (X2, Y2) be independent and identically distributed continuous bivariate random variables with joint probability density function: fX,Y (x,y) = e-y, 0 <x<y< ; =0 , elsewhere. Evaluate P( X2>X1, Y2>Y1) + P (X2 <X1, Y2<Y1) .
Suppose Y1, Y2, ... Yn are mutually independent random variables with Y1 ~ N(μ1, (σ1)^2) Y2 ~ N(μ2, (σ2)^2) ... Yn ~ N(μn, (σn)^2) Find the distribution of U=summation(from i=1 to n) ((Yi - μi)/σi)^2 I am not sure where should I start this question, could you please show me the detail that how you do these two parts? thanks :)
QUESTION 3 Let Y1, Y2, ..., Yn denote a random sample of size n from a population whose density is given by (Parcto distribution). Consider the estimator β-Yu)-min(n, Y, where β is unknown (a) Derive the bias of the estimator β. (b) Derive the mean square error of B. , Yn).