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Regression Analysis of Television Channels

Essay by   •  January 5, 2017  •  Coursework  •  3,535 Words (15 Pages)  •  1,119 Views

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Table of Contents

Introduction        

Processing the dataset        

        The Dataset        

        Descriptive Statistics        

        Null Hypothesis Testing        

        Correlation between the Variables        

        Regression Model of the Dataset        

        Residuals Testing        

        Predicting with regression model        

Conclusion - Key findings        

Table of Figures:

Figure 1: Sale Price vs. Market Retail Sales        

Figure 2: Sale Price Vs. Market Buying Income        

Figure 3: Sale Price Vs. TV Homes per Station        

Figure 4: Sale Price vs. Network Hourly Rate        

Figure 5: Sale Price Vs. National Spot Rate        

Figure 6: Sale Price Vs. Age of Station        

Figure 7: Sale Price Vs. Number of ties with major Networks        

Figure 8: Sale Price Vs. Percent of Market Population in Urban Areas        

Tables:

Table 1: Variables of the dataset        

Table 2: Descriptive statistics of the dataset        

Table 3: STATA result for the two-sample t-test statistic for the mean of selling price depending on the age of the station        

Table 4: Correlation coefficient table between each variable of the dataset        

Table 5: Regression Results in STATA for regression of Sale Price with National Spot Rate and Market Buying Income        

Table 6: Regression Result in STATA of sale price with national spot rate        

Table 7: Regression results in STATA for Sale Price against National Spot Rate Market Buying Income, with no constant        

Table 8: Results in STATA for Breusch Pagan test        

Table 93: Results in STATA for White’s Test for homoscedasticity        

Table 10: Results in STATA for Breusch-Godfrey LM test for autocorrelation        

Table 11: Results in STATA of VIF (variance inflation factor) multicollinearity test        

Table 12: Results in STATA for Ramsey RESET Test        

Table 13: Results in STATA for Skewness/Kurtosis Tests for Normality        


Introduction

In the present project, we examine a data set with variables referring to the operation of 31 regional TV stations in the USA. Initially, we produce the descriptive statistics for these variables. Afterwards, a linear regression model is built based on the principle of independent and dependent variable, where the dependent variable is the selling price of each station.

The selection of the independent variables is based at first on the backward selection method, which means that the regression model starts by including all independent variables in its equation. The significance of each variable is evaluated based on its p-value as well as the effect on the value of R-squared, in order to reduce the number of independent variables included in the model. As a result, the final regression model has the least amount of significant variables as possible.

However, in order to verify the model, the forward selection method is also performed. In this case, the regression modelling process begins by using each variable independently and then step-by-step slowly building the model, depending on the significance of the coefficient of each variable on the selling price of the TV stations. By following this selection process, we can be sure that the regression model includes every significant variable. The result however is the same with the backward selection process.

Furthermore, the residual diagnostic checks are performed, in order to determine if all conditions required for the assumptions of the linear regression model are satisfied.

Once the regression model is checked and verified, we then go on to predict the selling price of a hypothesized TV station, with its own values of independent variables.

 All of the above steps, (including regression and residual tests) are performed using STATA 14.1. Every command used during the process is shown, with its accompanying result, with the purpose to show the methodology we followed.


Processing the dataset

  • The Dataset

The dataset selected for the present project[1] was obtained from the internet and refers to regional television stations, including their selling prices, in the United States of America.

As mentioned before, it contains details for 31 TV stations, accompanied with 10 columns. The first column is the index name of each TV station, the second is the selling price which will be used as the dependent variable of the regression model, and the 8 that follow are the model’s independent variables.

The table below shows in greater detail the data contained in the dataset, including the variable names, type and measurement units.

Description

Name

Type

Measurement Unit

Station Call letters

stationcall

String

-

Sale Price

saleprice

Integer

$ (in thousands)

Market Retail Sales

marketretailsales

Integer

$ (in millions)

Market Buying Income

marketbuyingincome

Integer

$ (in millions)

TV Homes/station

tvhomesstation

Integer

$ (in thousands)

Network Hourly Rate

networkhourlyrate

Integer

$ per Hour

National Spot Rate

nationalspotrate

Integer

$ per Hour

Age of Station

ageofstation

Byte

0 = Before 1952,

1 = After 1952

Number of ties with major networks

numberoftieswithmajornetworks

Byte

0, 1, 2

Percent of Market Population in Urban areas

percentofmarketpopulationinurban

Float

Percentage

...

...

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