Presentation is loading. Please wait.

Presentation is loading. Please wait.

Confidence Intervals Tobias Econ 472.

Published byPercival Hill Modified over 5 years ago

Similar presentations

Presentation on theme: "Confidence Intervals Tobias Econ 472."— Presentation transcript:

1 Confidence Intervals Tobias Econ 472

2 The Design To illustrate the interpretation of confidence intervals in a regression context, we design the following experiment: Data sets of different sizes (either n=100 or n=2,500) are generated from the simple regression model: Tobias Econ 472

3 The Design, Continued We set:
We draw the errors and the x’s independently from a N(0,1) distribution. The y’s are then calculated using our regression equation. Tobias Econ 472

4 The Design For each data set, we compute the OLS estimates. We then calculate a 95% confidence interval for the slope parameter as: where Tobias Econ 472

5 The Design, Continued In this design, we have imposed that the variance parameter is 1, and we assume that this is known. As discussed in class, the interpretation of confidence intervals is that, in repeated sampling from the population, the constructed intervals will cover or contain the true regression parameter a pre-specified percentage of the time. Tobias Econ 472

6 The Design, continued. So, if I continue to generate new data sets, run a regression and construct, say, a 95% confidence interval each time, then (approximately) 5 percent of the collected intervals should NOT contain the true parameter. Tobias Econ 472

7 The Design, Continued In the following 2 tables, we generate 1,000 data sets with n=100, and each time, we construct a confidence interval at the pre-specified level of significance. A sample of these intervals are reported in the following two tables. The last table performs the same exercise for 90% intervals using n=2,500 instead of n=100. Tobias Econ 472

8 A Sample of 95% Confidence Intervals
Out of 1,000 trials, 53 of the intervals (5.3%) did not contain the true regression parameter. Tobias Econ 472

9 A Sample of 90% Confidence Intervals
Of the 1,000 trials, 93 (9.3%) of the intervals did not contain the true parameter. These intervals are a bit tighter than those on the previous slide. Tobias Econ 472

10 90% Intervals with n=2,500 Of 1,000 trials, 116 (11.6%) fell outside the intervals. Importantly, note that these intervals are much tighter than those on the previous page, owing to the larger sample size. Tobias Econ 472

11 Hypothesis Testing Tobias Econ 472

12 Tobias Econ 472

13 Tobias Econ 472

14 Tobias Econ 472

15 Tobias Econ 472

16 Tobias Econ 472

17 Tobias Econ 472

18 Tobias Econ 472

19 Tobias Econ 472

20 Tobias Econ 472

21 Tobias Econ 472

Download ppt "Confidence Intervals Tobias Econ 472."

Similar presentations

AP Statistics Section 11.2 B. A 95% confidence interval captures the true value of in 95% of all samples. If we are 95% confident that the true lies in.

AP Statistics Section 11.2 B. A 95% confidence interval captures the true value of in 95% of all samples. If we are 95% confident that the true lies in.
CmpE 104 SOFTWARE STATISTICAL TOOLS & METHODS MEASURING & ESTIMATING SOFTWARE SIZE AND RESOURCE & SCHEDULE ESTIMATING.

CmpE 104 SOFTWARE STATISTICAL TOOLS & METHODS MEASURING & ESTIMATING SOFTWARE SIZE AND RESOURCE & SCHEDULE ESTIMATING.
Sampling: Final and Initial Sample Size Determination

Sampling: Final and Initial Sample Size Determination
Introduction to Regression Analysis

Introduction to Regression Analysis
Section 7.1 Hypothesis Testing: Hypothesis: Null Hypothesis (H 0 ): Alternative Hypothesis (H 1 ): a statistical analysis used to decide which of two competing.

Section 7.1 Hypothesis Testing: Hypothesis: Null Hypothesis (H 0 ): Alternative Hypothesis (H 1 ): a statistical analysis used to decide which of two competing.
T-test.

T-test.
Inference about a Mean Part II

Inference about a Mean Part II
8-1 Introduction In the previous chapter we illustrated how a parameter can be estimated from sample data. However, it is important to understand how.

8-1 Introduction In the previous chapter we illustrated how a parameter can be estimated from sample data. However, it is important to understand how.
How confident are we that our sample means make sense? Confidence intervals.

How confident are we that our sample means make sense? Confidence intervals.
Chapter 12 Section 1 Inference for Linear Regression.

Chapter 12 Section 1 Inference for Linear Regression.
Simple Linear Regression Analysis

Simple Linear Regression Analysis
Standard error of estimate & Confidence interval.

Standard error of estimate & Confidence interval.
Review of normal distribution. Exercise Solution.

Review of normal distribution. Exercise Solution.
Econ 3790: Business and Economics Statistics Instructor: Yogesh Uppal

Econ 3790: Business and Economics Statistics Instructor: Yogesh Uppal
Copyright © 2013, 2010 and 2007 Pearson Education, Inc. Chapter Inference on the Least-Squares Regression Model and Multiple Regression 14.

Copyright © 2013, 2010 and 2007 Pearson Education, Inc. Chapter Inference on the Least-Squares Regression Model and Multiple Regression 14.
1 Level of Significance α is a predetermined value by convention usually 0.05 α = 0.05 corresponds to the 95% confidence level We are accepting the risk.

1 Level of Significance α is a predetermined value by convention usually 0.05 α = 0.05 corresponds to the 95% confidence level We are accepting the risk.
QBM117 Business Statistics Estimating the population mean , when the population variance  2, is known.

QBM117 Business Statistics Estimating the population mean , when the population variance  2, is known.
Topics: Statistics & Experimental Design The Human Visual System Color Science Light Sources: Radiometry/Photometry Geometric Optics Tone-transfer Function.

Topics: Statistics & Experimental Design The Human Visual System Color Science Light Sources: Radiometry/Photometry Geometric Optics Tone-transfer Function.
Montecarlo Simulation LAB NOV 27 2009 ECON 4550. Montecarlo Simulations Monte Carlo simulation is a method of analysis based on artificially recreating.

Montecarlo Simulation LAB NOV ECON Montecarlo Simulations Monte Carlo simulation is a method of analysis based on artificially recreating.
Learning Objectives In this chapter you will learn about the t-test and its distribution t-test for related samples t-test for independent samples hypothesis.

Learning Objectives In this chapter you will learn about the t-test and its distribution t-test for related samples t-test for independent samples hypothesis.

Similar presentations

Ads by Google