1 / 9

Statistical Inference

Population. Sample. Statistical Inference. 統計推論. parameter. size = N. e.g. mean, s.d…. e.g. sample mean, sample s.d. size = n. sample statistic. Random sample : P(a sample) =. Sample Mean Distribution.  and  are fixed,. but. and s are random variables,.

parley
Download Presentation

Statistical Inference

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Population Sample Statistical Inference 統計推論 parameter size = N e.g. mean, s.d…. e.g. sample mean, sample s.d. size = n sample statistic Random sample: P(a sample) =

  2. Sample Mean Distribution  and  are fixed, but and s are random variables, So what’s the distribution of the sample mean ?

  3. The mean (i.e. expectation) and the variance of and  can be found easily. But we are not satisfied with only TWO single information, we want to know ALL the situation of i.e. The distribution of

  4. If the distribution of X is normal, the distribution of is also normal, since is the linear combination of Xi. BUT, how about if X is NOT normally distributed?

  5. Central Limit Theorem Although X ~ ? approximately, we still have provided that n is sufficiently large. In practice, n > 30. Great!

  6. E.g. 5 Light bulbs,  = 1800 hrs,  = 200 hrs. Find the prob. that a random sample of 100 bulbs will have average life > 1825 hrs We don’t know what’s the distribution of bulbs’ life!! But, by CLT, we know the sample mean’s distribution!! ~N(1800,400) Thus, = 0.1056

  7. E.g. 7 A driver is allowed to work max. 10 hrs per day. Journey time per delivery:  = 30 min.,  = 8 min. How many deliveries so as to less than 1/1000 chance of exceeding 10 hrs. =30n =n82 Var(X) = nVar(Xi) X~N(30n,64n) By CLT, By question, By table, P(X > 600)  0.001 P(z>3.09) = 0.001

  8. To ensure the chance < 0.001, we can take:  4.08 or 4.9 (rejected) n 16 Hence we should schedule 16 or less deliveries per day.

  9. E.g. 10 A die is cast sixty times. Estimate the probability that the total number of points is less than or equal to 200. Let X = total points = 3.5 E(X) = 603.5 = 210 By CLT, Var(X) = 6035/12 = 175 X ~ N(210,175) = 0.236 P(X 200) =

More Related