Programming Assignment 1: Air Pollution: Instructions HelpIntroductionFor

1. Programming Assignment 1: Air Pollution: Instructions Help
2.  
3. Introduction
4. For this first programming assignment you will write three functions that are meant to interact with dataset that accompanies this assignment. The dataset is contained in a zip file specdata.zip that you can download from the Coursera web site.
5. Data
6. The zip file containing the data can be downloaded here:
7. specdata.zip [2.4MB]
8. The zip file contains 332 comma-separated-value (CSV) files containing pollution monitoring data for fine particulate matter (PM) air pollution at 332 locations in the United States. Each file contains data from a single monitor and the ID number for each monitor is contained in the file name. For example, data for monitor 200 is contained in the file "200.csv". Each file contains three variables:
9. Date: the date of the observation in YYYY-MM-DD format (year-month-day)
10. sulfate: the level of sulfate PM in the air on that date (measured in micrograms per cubic meter)
11. nitrate: the level of nitrate PM in the air on that date (measured in micrograms per cubic meter)
12. For this programming assignment you will need to unzip this file and create the directory 'specdata'. Once you have unzipped the zip file, do not make any modifications to the files in the 'specdata' directory. In each file you'll notice that there are many days where either sulfate or nitrate (or both) are missing (coded as NA). This is common with air pollution monitoring data in the United States.
13. Part 1
14. Write a function named 'pollutantmean' that calculates the mean of a pollutant (sulfate or nitrate) across a specified list of monitors. The function 'pollutantmean' takes three arguments: 'directory', 'pollutant', and 'id'. Given a vector monitor ID numbers, 'pollutantmean' reads that monitors' particulate matter data from the directory specified in the 'directory' argument and returns the mean of the pollutant across all of the monitors, ignoring any missing values coded as NA. A prototype of the function is as follows
15. pollutantmean <- function(directory, pollutant, id = 1:332) {
16. ## 'directory' is a character vector of length 1 indicating
17. ## the location of the CSV files
18.  
19. ## 'pollutant' is a character vector of length 1 indicating
20. ## the name of the pollutant for which we will calculate the
21. ## mean; either "sulfate" or "nitrate".
22.  
23. ## 'id' is an integer vector indicating the monitor ID numbers
24. ## to be used
25.  
26. ## Return the mean of the pollutant across all monitors list
27. ## in the 'id' vector (ignoring NA values)
28. }
29. You can see some example output from this function. The function that you write should be able to match this output. Please save your code to a file named pollutantmean.R.
30. Part 2
31. Write a function that reads a directory full of files and reports the number of completely observed cases in each data file. The function should return a data frame where the first column is the name of the file and the second column is the number of complete cases. A prototype of this function follows
32. complete <- function(directory, id = 1:332) {
33. ## 'directory' is a character vector of length 1 indicating
34. ## the location of the CSV files
35.  
36. ## 'id' is an integer vector indicating the monitor ID numbers
37. ## to be used
38.  
39. ## Return a data frame of the form:
40. ## id nobs
41. ## 1 117
42. ## 2 1041
43. ## ...
44. ## where 'id' is the monitor ID number and 'nobs' is the
45. ## number of complete cases
46. }
47. You can see some example output from this function. The function that you write should be able to match this output. Please save your code to a file named complete.R. To run the submit script for this part, make sure your working directory has the file complete.R in it.
48. Part 3
49. Write a function that takes a directory of data files and a threshold for complete cases and calculates the correlation between sulfate and nitrate for monitor locations where the number of completely observed cases (on all variables) is greater than the threshold. The function should return a vector of correlations for the monitors that meet the threshold requirement. If no monitors meet the threshold requirement, then the function should return a numeric vector of length 0. A prototype of this function follows
50. corr <- function(directory, threshold = 0) {
51. ## 'directory' is a character vector of length 1 indicating
52. ## the location of the CSV files
53.  
54. ## 'threshold' is a numeric vector of length 1 indicating the
55. ## number of completely observed observations (on all
56. ## variables) required to compute the correlation between
57. ## nitrate and sulfate; the default is 0
58.  
59. ## Return a numeric vector of correlations
60. }
61. For this function you will need to use the 'cor' function in R which calculates the correlation between two vectors. Please read the help page for this function via '?cor' and make sure that you know how to use it.
62. You can see some example output from this function. The function that you write should be able to match this output. Please save your code to a file named corr.R. To run the submit script for this part, make sure your working directory has the file corr.R in it.
63.  
64. Grading
65. This assignment will be graded using unit tests executed via the submit script you run on your computer. To obtain the submit script, run the following code in R:
66. source("http://d396qusza40orc.cloudfront.net/rprog%2Fscripts%2Fsubmitscript1.R")
67. Or you can download the script to your working directory (NOTE: you may need to rename the file to be "submitscript1.R". Then source the file locally via
68. source("submitscript1.R")
69. The first time you run the submit script it will prompt you for your Submission login and Submission password. These can be found at the top of the Programmi ng Assignments page. To execute the submit script, type
70. submit()
71. at the console prompt (after source-ing the file). NOTE that the submit script requires that you be connected to the Internet in order to work properly. When you execute the submit script in R, you will see the following menu (after typing in your submission login email and password):
72. [1] 'pollutantmean' part 1
73. [2] 'pollutantmean' part 2
74. [3] 'pollutantmean' part 3
75. [4] 'pollutantmean' part 4
76. [5] 'complete' part 1
77. [6] 'complete' part 2
78. [7] 'complete' part 3
79. [8] 'corr' part 2
80. [9] 'corr' part 2
81. [10] 'corr' part 2
82. Which part are you submitting [1-10]?
83. We will compare the output of your functions to the correct output. For each test passed you receive the specified number of points on the Assignments List web page.