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Due Tuesday February 19, 2006 | Due Tuesday February 19, 2006 | ||
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| − | Write a short report to present your results. | + | Guidelines: |
| − | Be sure to include all the relevant graphs as well as a copy of your code. | + | |
| − | Teamwork is encouraged, but the write up of your report must be your own. | + | Write a short report to present your results. |
| − | Please write the names of your collaborators on the cover page of your report. | + | Be sure to include all the relevant graphs as well as a copy of your code. |
| − | + | Teamwork is encouraged, but the write up of your report must be your own. | |
| + | Please write the names of your collaborators on the cover page of your report. | ||
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Question 1: Design and execute an experiment that illustrates the Central Limit Theorem. (You may use problem 5 in DHS p. 80 for inspiration.) | Question 1: Design and execute an experiment that illustrates the Central Limit Theorem. (You may use problem 5 in DHS p. 80 for inspiration.) | ||
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| − | + | Question 2: Consider n-dimensional feature vectors coming from two classes. Assume that the distributions of the feature vectors for the two classes are (known) normal distributions and that the priors for the classes P(w1) and P(w2) are also known. Write a computer program that classifies the feature vectors according to Bayes decision rule. Generate some artificial (normally distributed) data, and test your program on the data you generated. Try feature vectors of various dimensions. Quantify the accuracy of your results. How does the dimension of the feature vectors affect accuracy? (You may use problem 2 in DHS p. 80 for inspiration.) | |
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Question 3: Take a subset of the data you used for Question 2. Use maximum likelihood estimation to estimate the parameters of the feature distribution. Experiment to illustrate the accuracy of the classifier obtained with this estimate. Then repeat the experiments using approximately Gaussian data generated using your answer in Question 1. | Question 3: Take a subset of the data you used for Question 2. Use maximum likelihood estimation to estimate the parameters of the feature distribution. Experiment to illustrate the accuracy of the classifier obtained with this estimate. Then repeat the experiments using approximately Gaussian data generated using your answer in Question 1. | ||
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Question 4: Replace the words “maximum likelihood estimation” by “Bayesian parameter estimation” in Question 3. | Question 4: Replace the words “maximum likelihood estimation” by “Bayesian parameter estimation” in Question 3. | ||
| − | [[ | + | Here is a tutorial on [[Generating Gaussian Samples_OldKiwi]], although the Matlab command normrnd accomplishes this as well. |
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Revision as of 15:23, 20 March 2008
Hw assignment 1
Due Tuesday February 19, 2006
Guidelines:
Write a short report to present your results. Be sure to include all the relevant graphs as well as a copy of your code. Teamwork is encouraged, but the write up of your report must be your own. Please write the names of your collaborators on the cover page of your report.
Question 1: Design and execute an experiment that illustrates the Central Limit Theorem. (You may use problem 5 in DHS p. 80 for inspiration.)
Question 2: Consider n-dimensional feature vectors coming from two classes. Assume that the distributions of the feature vectors for the two classes are (known) normal distributions and that the priors for the classes P(w1) and P(w2) are also known. Write a computer program that classifies the feature vectors according to Bayes decision rule. Generate some artificial (normally distributed) data, and test your program on the data you generated. Try feature vectors of various dimensions. Quantify the accuracy of your results. How does the dimension of the feature vectors affect accuracy? (You may use problem 2 in DHS p. 80 for inspiration.)
Question 3: Take a subset of the data you used for Question 2. Use maximum likelihood estimation to estimate the parameters of the feature distribution. Experiment to illustrate the accuracy of the classifier obtained with this estimate. Then repeat the experiments using approximately Gaussian data generated using your answer in Question 1.
Question 4: Replace the words “maximum likelihood estimation” by “Bayesian parameter estimation” in Question 3.
Here is a tutorial on Generating Gaussian Samples_OldKiwi, although the Matlab command normrnd accomplishes this as well.
