Difference between revisions of "Diamonds Regression Lab"

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(Step 2: Preform the Regression)
(Step 2: Preform the Regression)
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Go ahead and create these columns in your data set.  Use Data --> Compute --> Expression in StatCrunch.
 
Go ahead and create these columns in your data set.  Use Data --> Compute --> Expression in StatCrunch.
  
=== Step 2: Preform the Regression ===
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=== Step 2: Regression ===
  
 
Use simple linear regression (Stat --> Regression --> Simple Linear) to compute b0 and b1 for the following linear models:
 
Use simple linear regression (Stat --> Regression --> Simple Linear) to compute b0 and b1 for the following linear models:
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Here "x*y*z" and "x+y+z" should be whatever you called the columns in the Feature Engineering Step.  If you didn't specify labels, they will be labeled as shown here, by default.
 
Here "x*y*z" and "x+y+z" should be whatever you called the columns in the Feature Engineering Step.  If you didn't specify labels, they will be labeled as shown here, by default.
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=== Step 3: Model Selection ===
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 +
Make a judgement concerning which of the two models is more appropriate for simple linear regression.  Remember the conditions listed in the book, and how you check for them.  Don't worry about outliers yet, we will deal with them, below.  Be prepared to justify your judgement when you write up your lab.
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 +
=== Step 4: Outlier Elimination ===
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You might have noticed outliers and remembered that one of the conditions for regression was the "no outlier condition."  You can eliminate outliers, but only if there is a justifiable reason to do so.  Consider an outlier.  If the jeweler measured the dimensions wrong, and there is no way to tell what the dimensions should be, then yes you should eliminate the diamond from consideration.  On the other hand, if the store actually sold a round cut diamond with said dimensions and said weight, you should not eliminate the diamond from consideration. 
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How can you tell if the dimensions are wrong?  In StatCrunch, click on the most extreme outlier.  It will turn pink on the scatter plot and other graphs created.  Now plot three scatter plots showing (x, carat), (y, carat), (z, carat) and locate the pink outlier on the graph.  Could you change a single measurement of the four without affecting at least one of the others?  What does this tell you about the validity measurements?  It would be too tedious to check all of the other outliers (but if you were working for a client, that's what you would have to do) so we are going to assume that all other outliers tell the same story.

Revision as of 21:10, 26 August 2019

This Lab is Under Construction

The size of a diamond can described by its dimensions (x, y, and z) and by its weight (usually expressed in carats). We are going to investigate the relationship between these two descriptions. Download the diamonds3K data, and view the codebook a larger data set, from which our data were randomly sampled (so they would fit reliably into StatCrunch).

The weight of a diamond is its volume times its density. As you might imagine, the shape of a diamond matters. If diamonds were cut as cylinders, the relationship between weight and dimensions would be:

weight = density*pi/4 * x*y*z.

If diamonds were cut as right-circular-cones this relationship would be

weight = density*pi/12 * x*y*z.

In both cases, the weight is a number (coefficient) times the product of the dimensions. The coefficient on x*y*z is the same for all diamonds of the same shape.

You are going to find this coefficient for "round cut" diamonds. Note the shape of different diamonds may be slightly different, depending on the diamond, so you should expect scatter in the data.

You want to find a formula that predicts weight in terms of x, y, and z (listed in a data set). Your formula would be very useful for a jeweler! Measuring the dimensions of a diamond is sometimes prone to error, and if a round cut diamond doesn't closely follow the formula, that would suggest to the jeweler that they should check that the diamond really has a proper round cut and check that the measurements have been performed correctly.

Round Cut Diamond

Step 1: Feature Engineering

We have three predictor variables x, y, and z. But for simple linear regression, we can have only one explanatory variable. Therefore, we want to create a new feature that combines the information from all these variables. As suggested above, a good feature might be

x*y*z

For comparison, we are also going to use the following feature in a separate model:

x+y+z

Go ahead and create these columns in your data set. Use Data --> Compute --> Expression in StatCrunch.

Step 2: Regression

Use simple linear regression (Stat --> Regression --> Simple Linear) to compute b0 and b1 for the following linear models:

PRODUCT MODEL: Carat = b0 + b1 "x*y*z"
SUM MODEL: Carat = b0 + b1 "x+y+z"

Here "x*y*z" and "x+y+z" should be whatever you called the columns in the Feature Engineering Step. If you didn't specify labels, they will be labeled as shown here, by default.

Step 3: Model Selection

Make a judgement concerning which of the two models is more appropriate for simple linear regression. Remember the conditions listed in the book, and how you check for them. Don't worry about outliers yet, we will deal with them, below. Be prepared to justify your judgement when you write up your lab.

Step 4: Outlier Elimination

You might have noticed outliers and remembered that one of the conditions for regression was the "no outlier condition." You can eliminate outliers, but only if there is a justifiable reason to do so. Consider an outlier. If the jeweler measured the dimensions wrong, and there is no way to tell what the dimensions should be, then yes you should eliminate the diamond from consideration. On the other hand, if the store actually sold a round cut diamond with said dimensions and said weight, you should not eliminate the diamond from consideration.

How can you tell if the dimensions are wrong? In StatCrunch, click on the most extreme outlier. It will turn pink on the scatter plot and other graphs created. Now plot three scatter plots showing (x, carat), (y, carat), (z, carat) and locate the pink outlier on the graph. Could you change a single measurement of the four without affecting at least one of the others? What does this tell you about the validity measurements? It would be too tedious to check all of the other outliers (but if you were working for a client, that's what you would have to do) so we are going to assume that all other outliers tell the same story.