Fall 2019 (Total Marks 20)

Deadline

Your Assignment must be uploaded/ submitted before or on November 14, 2019, Time 23:59

(STUDENTS ARE STRICTLY DIRECTED TO SUBMIT THEIR ASSIGNMENT BEFORE OR BY DUE DATE. NO ASSIGNMNENT AFTER DUE DATE WILL BE ACCEPTED VIA E.MAIL).

Rules for Marking

It should be clear that your Assignment will not get any credit IF:

• The Assignment submitted, via email, after due date.

• The submitted Assignment is not found as MS Word document file.

• There will be unnecessary, extra or irrelevant material.

• The Statistical notations/symbols are not well-written i.e., without using MathType software.

• The Assignment will be copied from handouts, internet or from any other student’s file. Copied material (from handouts, any book or by any website) will be awarded ZERO MARKS. It is PLAGIARISM and an Academic Crime.

• The medium of the course is English. Assignment in Urdu or Roman languages will not be accepted.

• Assignment means Comprehensive yet precise accurate details about the given topic quoting different sources (books/articles/websites etc.). Do not rely only on handouts. You can take data/information from different authentic sources (like books, magazines, website etc.) BUT express/organize all the collected material in YOUR OWN WORDS. Only then you will get good marks.

Objective(s) of this Assignment:

The assignment is being uploaded to build up the concepts of Inferential statistics.

Assignment # 01 (Lessons 1-9)

Question 1: Marks: 10

Suppose are iid with pdf zero elsewhere. Find the MLE of

Question 2: Marks: 10

Let X be a Bernoulli . Thus the pdf of Bernoulli distribution is

Find the Fisher Information

**Q.2 Solution:**

Suppose are iid with pdf zero elsewhere. Find the MLE of

@zareen

3. (6.1.9) SupposeX1,…,Xnare iid with pdff(x;θ) = (1/θ)e−x/θ. Findthe mle ofP(X≤2).Answer:For this distribution we have that`(θ) =−nlog(θ)−∑Xi/θ`

′(θ) =−nθ+∑Xiθ2.Solving`′(θ) = 0, we see thatˆθ= ̄X.SinceP(X≤2) =∫20(1/θ)e−x/θ= 1−e−2/θ.Thus the mle ofP(X≤2) is1−e−2/ ̄X.

]]>Let X be a Bernoulli . Thus the pdf of Bernoulli distribution is

]]>Suppose are iid with pdf zero elsewhere. Find the MLE of