{
"cells": [
{
"cell_type": "markdown",
"metadata": {},
"source": [
"#Predicting Airline Delays"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"
\n",
"[Source](http://mashable.com/2014/10/09/airline-delays-increase/)\n",
"\n",
"I don't know about all of you, but flying doesn't always go smoothly for me. I have had some horror stories I could tell you about weird delays I have encountered while flying. Wouldn't it be nice to know how much your flight will probably be delayed and why?\n",
"\n",
"Well, that's what this project will attempt to do. Granted, the data scientists over at Hortonworks [did a very similar project](http://hortonworks.com/blog/data-science-apacheh-hadoop-predicting-airline-delays/) (and a well done one in my opinion!) just a few months ago. My project will be a little different from theirs in that instead of doing a classification problem (yes/no for a delayed flight), this will be a regression problem where I will try to predict the delay time in number of minutes (which can be negative). The regression model will not be restricted to a single city, so we are going to be working with a very large number of training examples! \n",
"\n",
"To complete this project, we need some data about flights. Fortunately, the government keeps such a resource available that we are going to examine in this project. \n",
"\n",
"Similar to the project about faculty salaries, this notebook will be split into two major parts: exploratory data analysis and feature engineering in R, with regression model implementation in Python. "
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"##Getting the Data"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"For this project, the best place to get data about airlines is from the US Department of Transportation, [here](http://www.transtats.bts.gov/DL_SelectFields.asp?Table_ID=236). There are several options available for what data you can choose and which features. For this project, I chose the following features:\n",
"\n",
"- Year\n",
"- Month\n",
"- DayofMonth\n",
"- DayofWeek\n",
"- UniqueCarrier\n",
"- OriginAirportID\n",
"- DestAirportID\n",
"- CRSDepTime (the local time the plane was scheduled to depart)\n",
"- CRSArrTime (the local time the plane was scheduled to arrive)\n",
"- ArrDelay (how early/late the plane was at its final destination in minutes: our target variable)\n",
"- Distance (how far did the plane travel for the route)\n",
"- CRSElapsedTime (the scheduled difference between departure and arrival)\n",
"\n",
"I only wished to include features that a user could enter at any time. In theory, you could predict your flight delay for 6 months from now with this model. Because of that, I can't include any time dependent features (such as, sadly for me, weather, which could have helped with this model's accuracy). The Hortonworks example included weather data as an interesting augmentation to the model. However, for the way I want to set up this model, including weather data would be an example of [data leakage](http://www.quora.com/Whats-data-leakage-in-data-science). \n",
"\n",
"As someone who has studied the weather for a very long time, trust me when I say the furthest out you can predict the weather at a specific location with any sort of accuracy is about a week. We can't include daily max wind speeds, snowfall totals, etc. because there is no way of knowing that before you fly and the day has already ended!\n",
"\n",
"Unfortunately, the way the Department of Transportation processes the downloading, you have to select which features you want and download them, but only for one month at a time (which is tedious and takes a while). Because of this, I have collated the data for you in one large file available on AWS (Amazon Web Services) S3 so you don't have to deal with any of this! The data I chose is for a full year extending from November 2013 to October 2014 (when I did the programming for this project, not all of 2014 was available yet). I have also included a lookup table for the Airports and Carriers that will become useful later. \n",
"\n",
"Now that we understand the basics of the data, let's get it loaded into R (**warning**: the collated file is about 350 MB so downloading it may take a little while if you are following along!)"
]
},
{
"cell_type": "code",
"execution_count": 1,
"metadata": {
"collapsed": false
},
"outputs": [],
"source": [
"%load_ext rpy2.ipython"
]
},
{
"cell_type": "code",
"execution_count": 2,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"%%R\n",
"airportsDB <- read.csv('http://s3.amazonaws.com/jsw.dsprojects/AirlinePredictions/Airport_Lookup.csv',\n",
" header = TRUE, stringsAsFactors = FALSE)\n",
"carriersDB <- read.csv('http://s3.amazonaws.com/jsw.dsprojects/AirlinePredictions/Carrier_Lookup.csv',\n",
" header = TRUE, stringsAsFactors = FALSE)\n",
"flightsDB <- read.csv('http://s3.amazonaws.com/jsw.dsprojects/AirlinePredictions/CombinedFlights.csv',\n",
" header = TRUE, stringsAsFactors = FALSE)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Let's take a look at what our flightsDB dataframe contains to make sure there weren't any issues."
]
},
{
"cell_type": "code",
"execution_count": 4,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
"text/plain": [
" X.1 YEAR MONTH DAY_OF_MONTH DAY_OF_WEEK UNIQUE_CARRIER ORIGIN_AIRPORT_ID\n",
"1 1 2014 1 1 3 AA 12478\n",
"2 2 2014 1 2 4 AA 12478\n",
"3 3 2014 1 3 5 AA 12478\n",
"4 4 2014 1 4 6 AA 12478\n",
"5 5 2014 1 5 7 AA 12478\n",
"6 6 2014 1 6 1 AA 12478\n",
" DEST_AIRPORT_ID CRS_DEP_TIME CRS_ARR_TIME ARR_DELAY CRS_ELAPSED_TIME DISTANCE\n",
"1 12892 900 1225 13 385 2475\n",
"2 12892 900 1225 1 385 2475\n",
"3 12892 900 1225 NA 385 2475\n",
"4 12892 900 1225 59 385 2475\n",
"5 12892 900 1225 110 385 2475\n",
"6 12892 900 1225 -8 385 2475\n",
" X\n",
"1 NA\n",
"2 NA\n",
"3 NA\n",
"4 NA\n",
"5 NA\n",
"6 NA\n"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"head(flightsDB)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Looks like we can get rid of the first and last columns. We also don't need the YEAR column either."
]
},
{
"cell_type": "code",
"execution_count": 5,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"%%R\n",
"\n",
"flightsDB <- subset(flightsDB, select = -c(X, YEAR, X.1))"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"It also appeared as if some of the ARR_DELAY values are NA. We can't predict on these, and we have plenty of training examples anyway, so let's drop the rows where our target variable is missing. How many are missing?"
]
},
{
"cell_type": "code",
"execution_count": 6,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
"text/plain": [
" Min. 1st Qu. Median Mean 3rd Qu. Max. NA's \n",
"-112.00 -11.00 -3.00 7.48 11.00 1983.00 150482 \n"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"summary(flightsDB$ARR_DELAY)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Well 150,000 missing rows does seem like a lot. How many flights are we dealing with?"
]
},
{
"cell_type": "code",
"execution_count": 7,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
"text/plain": [
"[1] 5900609 11\n"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"dim(flightsDB)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"We have 5.9 **MILLION** rows! Compared to that magnitude, 150,000 missing rows is a small percentage. There isn't much we can do with these missing values, so we need to drop them. Let's clean them out."
]
},
{
"cell_type": "code",
"execution_count": 8,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"%%R\n",
"\n",
"flightsDB <- na.omit(flightsDB)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Checking again just to make sure no other features have NA values . . ."
]
},
{
"cell_type": "code",
"execution_count": 9,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
"text/plain": [
" MONTH DAY_OF_MONTH DAY_OF_WEEK UNIQUE_CARRIER \n",
" Min. : 1.000 Min. : 1.00 Min. :1.000 Length:5750127 \n",
" 1st Qu.: 4.000 1st Qu.: 8.00 1st Qu.:2.000 Class :character \n",
" Median : 7.000 Median :16.00 Median :4.000 Mode :character \n",
" Mean : 6.624 Mean :15.74 Mean :3.938 \n",
" 3rd Qu.:10.000 3rd Qu.:23.00 3rd Qu.:6.000 \n",
" Max. :12.000 Max. :31.00 Max. :7.000 \n",
" ORIGIN_AIRPORT_ID DEST_AIRPORT_ID CRS_DEP_TIME CRS_ARR_TIME \n",
" Min. :10135 Min. :10135 Min. : 1 Min. : 1 \n",
" 1st Qu.:11292 1st Qu.:11292 1st Qu.: 925 1st Qu.:1119 \n",
" Median :12889 Median :12889 Median :1320 Median :1520 \n",
" Mean :12671 Mean :12672 Mean :1325 Mean :1499 \n",
" 3rd Qu.:13931 3rd Qu.:13931 3rd Qu.:1720 3rd Qu.:1910 \n",
" Max. :16218 Max. :16218 Max. :2359 Max. :2359 \n",
" ARR_DELAY CRS_ELAPSED_TIME DISTANCE \n",
" Min. :-112.000 Min. : 15.0 Min. : 31 \n",
" 1st Qu.: -11.000 1st Qu.: 84.0 1st Qu.: 361 \n",
" Median : -3.000 Median :116.0 Median : 626 \n",
" Mean : 7.484 Mean :136.7 Mean : 797 \n",
" 3rd Qu.: 11.000 3rd Qu.:167.0 3rd Qu.:1024 \n",
" Max. :1983.000 Max. :675.0 Max. :4983 \n"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"summary(flightsDB)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Looks like we are okay for missing values. Now that we have loaded our data and cleaned it a little bit, let's do some feature engineering."
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"##Creating a New Feature: Number of Days to Holiday"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"This feature was actually included in the Hortonworks example I linked to previously, and I thought it was a good idea. It makes intuitive sense that airlines are probably going to be under stress near holidays, so this feature could probably be a decent predictor of a late flight. \n",
"\n",
"First, we need all of the exact dates for holidays inside our range of flights (November 2013-October 2014). I had to look several of them up because they change every year (like Thanksgiving for example). Let's create a list of holiday dates and convert them to the DATE type in R."
]
},
{
"cell_type": "code",
"execution_count": 10,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"%%R\n",
"\n",
"holidays <- c('2014-01-01', '2014-01-20', '2014-02-17', '2014-05-26',\n",
" '2014-07-04', '2014-09-01', '2014-10-13', '2013-11-11',\n",
" '2013-11-28', '2013-12-25') # Ten major holidays, including Memorial Day, Columbus Day, Labor Day, MLK Day\n",
" # Veteran's Day, New Year's, President's Day, Independence Day, Thanksgiving, \n",
" # and Christmas Day.\n",
"holidayDates <- as.Date(holidays)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"To make things easier, let's create a function to calculate the difference between each of our flight dates and the nearest holiday. We got rid of the YEAR feature earlier as we don't need it for prediction or analysis, but we will need to include a provision for it in our function to find the exact number of days between any given date and a holiday."
]
},
{
"cell_type": "code",
"execution_count": 11,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"%%R\n",
"\n",
"DaysToHoliday <- function(month, day){ # Input a month and day from the flightsDB\n",
" \n",
" # Get our year.\n",
" year <- 2014\n",
" if (month > 10){\n",
" year <- 2013\n",
" }\n",
" # Paste on a 2013 for November and December dates.\n",
" \n",
" currDate <- as.Date(paste(year,month,day,sep = '-')) # Create a DATE object we can use to calculate the time difference\n",
" \n",
" \n",
" numDays <- as.numeric(min(abs(currDate-holidayDates))) # Now find the minimum difference between the date and our holidays\n",
" return(numDays) # We can vectorize this to automatically find the minimum closest\n",
" # holiday by subtracting all holidays at once\n",
" \n",
"}\n"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"We **COULD** run this function on every one of our 5.9 million rows, but that would probably be quite slow. If were working on a cluster like in the Hortonworks example, you could probably get away with using Pig like they did to do it.\n",
"\n",
"What would be a much faster and more creative way to solve this problem (since we are not using HDFS or a cluster here) is to create a lookup table that we can access instead. There are only 365 different days in the year, so we actually only need to run the function 365 times instead of 5.9 million. Then, save the results in a table we use later. Much better idea! This trick is often used in programming, and it is called [hashing](http://en.wikipedia.org/wiki/Hash_function) to speed up a program if a lot of the computation is redundant. \n",
"\n",
"So, let's create our own hash table to speed things up by quite a bit."
]
},
{
"cell_type": "code",
"execution_count": 12,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"%%R\n",
"\n",
"datesOfYear <- unique(flightsDB[,1:2]) # Get all of the dates through unique Month/Day combinations\n",
"datesOfYear$HDAYS <- mapply(DaysToHoliday, datesOfYear$MONTH, datesOfYear$DAY_OF_MONTH) \n",
"\n",
"# Apply our function in a vectorized manner via one of R's many \"apply\" functions (in this case mapply)\n",
"# to each unique date and save "
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Let's take a look at our hash table to see that it worked."
]
},
{
"cell_type": "code",
"execution_count": 13,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
"text/plain": [
" MONTH DAY_OF_MONTH HDAYS\n",
"1 1 1 0\n",
"2 1 2 1\n",
"4 1 4 3\n",
"5 1 5 4\n",
"6 1 6 5\n",
"7 1 7 6\n"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"head(datesOfYear)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Similar to before, we want to create a small function that we can then vectorize using mapply. Let's create a function to read from our hash table."
]
},
{
"cell_type": "code",
"execution_count": 14,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"%%R\n",
"\n",
"InputDays <- function(month,day){\n",
" finalDays <- datesOfYear$HDAYS[datesOfYear$MONTH == month & datesOfYear$DAY_OF_MONTH == day] # Find which row to get\n",
" return(finalDays)\n",
"}"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Now let's run this much simpler lookup on all of our rows and generate the feature. If you are using this interactively, it will probably take 5-10 minutes, depending on your computer performance."
]
},
{
"cell_type": "code",
"execution_count": 15,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"%%R\n",
"\n",
"flightsDB$HDAYS <- mapply(InputDays, flightsDB$MONTH, flightsDB$DAY_OF_MONTH)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Let's check our new feature quickly."
]
},
{
"cell_type": "code",
"execution_count": 16,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
"text/plain": [
" MONTH DAY_OF_MONTH DAY_OF_WEEK UNIQUE_CARRIER ORIGIN_AIRPORT_ID\n",
"1 1 1 3 AA 12478\n",
"2 1 2 4 AA 12478\n",
"4 1 4 6 AA 12478\n",
"5 1 5 7 AA 12478\n",
"6 1 6 1 AA 12478\n",
"7 1 7 2 AA 12478\n",
" DEST_AIRPORT_ID CRS_DEP_TIME CRS_ARR_TIME ARR_DELAY CRS_ELAPSED_TIME DISTANCE\n",
"1 12892 900 1225 13 385 2475\n",
"2 12892 900 1225 1 385 2475\n",
"4 12892 900 1225 59 385 2475\n",
"5 12892 900 1225 110 385 2475\n",
"6 12892 900 1225 -8 385 2475\n",
"7 12892 900 1225 -13 385 2475\n",
" HDAYS\n",
"1 0\n",
"2 1\n",
"4 3\n",
"5 4\n",
"6 5\n",
"7 6\n"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"head(flightsDB)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"To make things a little simpler, let's add two features that just bin the scheduled departure and arrival times by hour instead of to the nearest minute."
]
},
{
"cell_type": "code",
"execution_count": 17,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"%%R\n",
"\n",
"flightsDB$ARR_HOUR <- trunc(flightsDB$CRS_ARR_TIME/100) # Cuts off the minutes, essentially.\n",
"flightsDB$DEP_HOUR <- trunc(flightsDB$CRS_DEP_TIME/100)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Now that our feature engineering is finished, let's do some EDA (exploratory data analysis). "
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"##Exploratory Data Analysis"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"For this section, we are going to use the more recent library [dplyr](http://cran.rstudio.com/web/packages/dplyr/vignettes/introduction.html), which comes from Dr. Hadley Wickham's great collection of R libraries and was just released last year in early 2014 for the first time. It's an upgrade from the older plyr in several ways. Using dplyr with ggplot2 makes this part of data science, at least in my opinion, even faster and easier than ever before.\n",
"\n",
"Let's load it in and create a couple of helper functions for our data exploration."
]
},
{
"cell_type": "code",
"execution_count": 18,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
"text/plain": [
"\n",
"Attaching package: ‘dplyr’\n",
"\n",
"The following object is masked from ‘package:stats’:\n",
"\n",
" filter\n",
"\n",
"The following objects are masked from ‘package:base’:\n",
"\n",
" intersect, setdiff, setequal, union\n",
"\n"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"library(dplyr)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"To make the data visualization truly interactive and easy to use, we will need some utility functions. The first function we will make is a function that will allow us to call a specific airport by city name. If you look at the dataframe shown earlier, all of the airports aren't stored with their full name. Instead they use a unique ID that identifies the airport.\n",
"\n",
"Remember that lookup table we downloaded at the very beginning? Now we need it. Let's take a quick look at it."
]
},
{
"cell_type": "code",
"execution_count": 21,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
"text/plain": [
" Code Description\n",
"1 10001 Afognak Lake, AK: Afognak Lake Airport\n",
"2 10003 Granite Mountain, AK: Bear Creek Mining Strip\n",
"3 10004 Lik, AK: Lik Mining Camp\n",
"4 10005 Little Squaw, AK: Little Squaw Airport\n",
"5 10006 Kizhuyak, AK: Kizhuyak Bay\n",
"6 10007 Klawock, AK: Klawock Seaplane Base\n"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"head(airportsDB)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"It would be nice if we could investigate the data regarding a specific route. However, knowing the code requires referencing this table. There are also many airports in each city, but most likely we are just going to want the code for the largest, most frequently traveled airport. For example, let's look at a list of airports if we were to search the city of Chicago."
]
},
{
"cell_type": "code",
"execution_count": 22,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
"text/plain": [
" Code Description\n",
"943 10977 Chicago, IL: Meigs Field\n",
"952 10986 Chicago, IL: Chicago Metropolitan Area\n",
"1322 11376 Chicago, IL: Du Page County\n",
"1975 12055 Gary, IN: Gary/Chicago International\n",
"2216 12306 Chicago/Romeoville, IL: Lewis University\n",
"3099 13232 Chicago, IL: Chicago Midway International\n",
"3771 13930 Chicago, IL: Chicago O'Hare International\n",
"4152 14320 Chicago, IL: Chicago Executive\n",
"4296 14512 Rockford, IL: Chicago/Rockford International\n"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"subset(airportsDB, grepl('Chicago', Description))"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"See what I mean? If we search Chicago, most likely we are just going to want to look at O'Hare which is the largest airport in Chicago. We probably aren't interested in Megis Field or Du Page County airport. So, let's create a function that will figure out which airport we **meant** to look up by figuring out which airport comes up in the dataframe most frequently.\n",
"\n",
"We will use two functions that will work together to do this (so we can use one of the \"apply\" functions from R). The first function will check each code entered and return the number of flights with this airport code."
]
},
{
"cell_type": "code",
"execution_count": 19,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"%%R\n",
"\n",
"MaxFlightsCode <- function(code){\n",
" # Calculates the most likely flights based on flight frequency.\n",
" codeFrame <- subset(flightsDB, ORIGIN_AIRPORT_ID == code)\n",
" numFlights <- dim(codeFrame)[1]\n",
" # Get the number of rows in this frame\n",
" return(numFlights)\n",
"}"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Our second function will allow us to enter a city (or city/state) of our choosing. The function will then find the airports matching our city, figure out which of those airports has the greatest number of flights (via calling our MaxFlightsCode function) and applying it via sapply to all of the codes in a vectorized manner."
]
},
{
"cell_type": "code",
"execution_count": 23,
"metadata": {
"collapsed": false
},
"outputs": [],
"source": [
"%%R\n",
"\n",
"AirportCode <- function(city){\n",
" codes <- subset(airportsDB, grepl(city, Description))\n",
" # Find all of the airports matching the city we entered\n",
" codes$NumFlights <- sapply(codes$Code, MaxFlightsCode)\n",
" # Collect how many flights exist in the database starting at this airport\n",
" codes <- subset(codes, NumFlights == max(NumFlights))$Code\n",
" # Return our top airport\n",
" return(codes)\n",
"}"
]
},
{
"cell_type": "markdown",
"metadata": {
"collapsed": true
},
"source": [
"Let's try it out on Chicago and see if we get O'Hare (which is code 13930 from the subset we looked at earlier). "
]
},
{
"cell_type": "code",
"execution_count": 24,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
"text/plain": [
"[1] 13930\n"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"AirportCode('Chicago')"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Now that we have this working, it should be a lot easier to find the airport codes we want. If you wanted a more specific airport (such as Midway), you could also type that and the function will figure it out.\n",
"\n",
"Next, let's set up one robust plotting function that will allow us to combine dplyr with ggplot2 to see bar charts that examine the average arrival delay time for any feature we wish (such as by month, carrier, day of week, etc.). To do that, we will need to create another pair of functions. The first is an automated dplyr function that will group our mean delay time based on any feature we specify."
]
},
{
"cell_type": "code",
"execution_count": 25,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"%%R\n",
"\n",
"GrouperFunc <- function(df, ...) df %>% regroup(list(...))"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Now we need to load in ggplot2 (since it hasn't been loaded yet)."
]
},
{
"cell_type": "code",
"execution_count": 26,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
"text/plain": [
"Use suppressPackageStartupMessages to eliminate package startup messages.\n"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"library(ggplot2)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Finally, we will create our plotting function that will automatically make a bar chart showing us the mean delay time for any route based on any of our features! It's just one function, but it will be very versatile. To use it, we will be inputting the departure and arrival cities, along with which feature we want to examine. After finding the airport codes via the helper functions we made earlier, dplyr will group the data into means based on a feature of our choosing. Then, a nice ggplot2 bar chart will be displayed."
]
},
{
"cell_type": "code",
"execution_count": 27,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"%%R\n",
"\n",
"AirPlot <- function(departure, arrival, groupon){\n",
" # Departure and arrival can be cities that are being entered.\n",
" departCode <- AirportCode(departure)\n",
" arriveCode <- AirportCode(arrival) # Call our earlier AirportCode function to get the airport ID \n",
" \n",
" tempDB <- subset(flightsDB, ORIGIN_AIRPORT_ID == departCode & DEST_AIRPORT_ID == arriveCode) # Only get flights for our \n",
" grouped <- GrouperFunc(tempDB, groupon) # flight path\n",
" # Use our GrouperFunc to have dplyr group our data into categories \n",
" summaryDF <- summarize(grouped, mean = mean(ARR_DELAY)) # Call summarize from our grouped data frame\n",
" \n",
" # Now that the data is in a good format, create the ggplot bar chart\n",
" \n",
" finalBarPlot <- ggplot(summaryDF, aes_string(x=groupon, y='mean')) +\n",
" geom_bar(color=\"black\", width = 0.2, stat = 'identity') +\n",
" guides(fill=FALSE)+\n",
" xlab(groupon) + \n",
" ylab('Average Delay (minutes)')+\n",
" ggtitle((paste('Flights from', departure, 'to', arrival)))\n",
" \n",
" return(finalBarPlot)\n",
"}"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"We can now finally examine the data in a very streamlined fashion. As an example, let's say I wanted to see which carriers were the most on time for flights from Dallas to Chicago (a route I've gone on many times!)"
]
},
{
"cell_type": "code",
"execution_count": 47,
"metadata": {
"collapsed": false
},
"outputs": [
{
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]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"AirPlot('Dallas', 'Chicago', 'UNIQUE_CARRIER')"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"There are only four carriers that seem to offer direct flights from Dallas to Chicago in the database. Unfortunately, the dataframe has each carrier listed with a two letter code. We can look up these codes quickly from the carriersDB object we loaded at the beginning (using some regular expression magic). The ^ (caret) means look for matching patterns that start with this, whereas the dollar sign means ending. To get an exact grep match, we enclose our strings inside '^$'."
]
},
{
"cell_type": "code",
"execution_count": 41,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
"text/plain": [
" Code Description\n",
"149 AA American Airlines Inc.\n",
"1019 OO SkyWest Airlines Inc.\n",
"1381 UA United Air Lines Inc.\n",
"1558 YV Mesa Airlines Inc.\n"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"subset(carriersDB, grepl('^AA$|^OO$|^UA$|^YV$', Code))"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Mesa Airlines is a smaller airline, so it probably is easier for them to keep their flights on time. Looks like SkyWest is the carrier to avoid if you want to be on time!\n",
"\n",
"What if we wanted to see which month is the best to fly in? Let's look at that next."
]
},
{
"cell_type": "code",
"execution_count": 48,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
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]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"AirPlot('Dallas', 'Chicago', 'MONTH')"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"June seems to be the worst month for this route. If you combine increased summer vacation travel and thunderstorms over north Texas, this makes sense. The best month seems to be November, which is surprising a bit given Thanksgiving occurs here. Do we get the same results if the flight starts in Chicago instead? "
]
},
{
"cell_type": "code",
"execution_count": 49,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
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]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"AirPlot('Chicago', 'Dallas', 'MONTH')"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Well, June just seems to be a bad month for both cities. However, notice that winter weather is causing more of a problem in Chicago than in Dallas. \n",
"\n",
"Now that we have some information on the monthly variability, let's look at which day of the week is the best to fly. Let's try a new route, such as Boston to Atlanta."
]
},
{
"cell_type": "code",
"execution_count": 60,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
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]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"AirPlot('Boston', 'Atlanta', 'DAY_OF_WEEK')"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Note that the day of week starts on Monday (so Monday = 1, Tuesday = 2, etc.). We can see that Saturday and Sunday are the best days to fly if you want to be on time, with Thursday having the most problems. \n",
"\n",
"Next, let's look to see if having a flight closer to a holiday causes late arrivals for our Boston to Atlanta route."
]
},
{
"cell_type": "code",
"execution_count": 61,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
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]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"AirPlot('Boston', 'Atlanta', 'HDAYS')"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"There didn't seem to be much of a clear pattern here. It is possible this feature is a good predictor for only some flights but not others. Perhaps looking at the departure hour will give a stronger signal."
]
},
{
"cell_type": "code",
"execution_count": 62,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
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]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"AirPlot('Boston', 'Atlanta', 'DEP_HOUR')"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"It does look like the delay increases after 4 pm departures (converting from the 16th hour). Interesting that flights leaving for Atlanta after 8 pm seemed to be very early!\n",
"\n",
"Is the pattern for arrival hour about the same?"
]
},
{
"cell_type": "code",
"execution_count": 63,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
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]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"AirPlot('Boston', 'Atlanta', 'ARR_HOUR')"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"The scheduled arrival hour seems to be a better predictive feature than departure hour for this route. With a few minor exceptions, flights arrive increasingly late the further along in the day the flight is scheduled to arrive. \n",
"\n",
"Feel free if you have an interactive version to obtain the statistics for your most common flight and play around! Remember, however, that these statistics are for direct flights. For example, trying New York City to Los Angeles doesn't return any flights in the database. Most likely, the plane will be connecting somewhere, like Dallas, in between. \n",
"\n",
"Now that we have interacted with the data and explored it some, it is time to export a copy to Python before we end our time in R. To make a machine learing algorithm in scikit-learn, all of the data has to be numeric. Our short carrier abbreviation from the original data won't work. Instead, we need to transform all of the carriers into numeric levels. We can add this as a new feature to the dataframe. This is easy to do with just one line of R."
]
},
{
"cell_type": "code",
"execution_count": 64,
"metadata": {
"collapsed": true
},
"outputs": [],
"source": [
"%%R\n",
"\n",
"flightsDB$CARRIER_CODE <- as.numeric(as.factor(flightsDB$UNIQUE_CARRIER))"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Let's examine the frame one last time to see if it is ready."
]
},
{
"cell_type": "code",
"execution_count": 74,
"metadata": {
"collapsed": false
},
"outputs": [
{
"data": {
"text/plain": [
" MONTH DAY_OF_MONTH DAY_OF_WEEK UNIQUE_CARRIER ORIGIN_AIRPORT_ID\n",
"1 1 1 3 AA 12478\n",
"2 1 2 4 AA 12478\n",
"4 1 4 6 AA 12478\n",
"5 1 5 7 AA 12478\n",
"6 1 6 1 AA 12478\n",
"7 1 7 2 AA 12478\n",
" DEST_AIRPORT_ID CRS_DEP_TIME CRS_ARR_TIME ARR_DELAY CRS_ELAPSED_TIME DISTANCE\n",
"1 12892 900 1225 13 385 2475\n",
"2 12892 900 1225 1 385 2475\n",
"4 12892 900 1225 59 385 2475\n",
"5 12892 900 1225 110 385 2475\n",
"6 12892 900 1225 -8 385 2475\n",
"7 12892 900 1225 -13 385 2475\n",
" HDAYS ARR_HOUR DEP_HOUR CARRIER_CODE\n",
"1 0 12 9 2\n",
"2 1 12 9 2\n",
"4 3 12 9 2\n",
"5 4 12 9 2\n",
"6 5 12 9 2\n",
"7 6 12 9 2\n"
]
},
"metadata": {},
"output_type": "display_data"
}
],
"source": [
"%%R\n",
"\n",
"head(flightsDB)"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"We will need to drop the CRS_DEP_TIME/CRS_ARR_TIME features, as these times are too precise. We can use our binned times as categorical levels instead. Then, save it to a .csv that Python can read via pandas."
]
},
{
"cell_type": "code",
"execution_count": 88,
"metadata": {
"collapsed": false
},
"outputs": [],
"source": [
"%%R\n",
"\n",
"numericDB <- select(flightsDB, -c(CRS_DEP_TIME, CRS_ARR_TIME))\n",
"write.csv(numericDB, 'FinalFlightsNumeric.csv')"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"We are now finished with R. In the next part of the notebook, we will create an algorithm that will predict how late (or early) our flight will be using Python. "
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"##Part 2: Regression Model to Predict Flight Delays"
]
},
{
"cell_type": "markdown",
"metadata": {
"collapsed": true
},
"source": [
"Now that we have explored the data some, let's create our regression model to predict how late a flight is going to be. First, load two datasets: the airport text file that has the codes for each of the airports and the numeric dataset we just created in R. \n",
"\n",
"__WARNING__: Make sure you have at least __4 GB__ of memory available or your computer might have some problems with this if you are interacting with the notebook. This is not a trivial number of training examples! I would also recommend restarting the kernel and running the cells in Part 2 only to free up some memory.\n",
"\n",
"If you want to try following along, you could get away with randomly sampling a smaller subset of the data, but your model performance may be different given missing training examples for certain flights. "
]
},
{
"cell_type": "code",
"execution_count": 1,
"metadata": {
"collapsed": false
},
"outputs": [],
"source": [
"import pandas as pd\n",
"airport_lookupDF = pd.read_csv('https://s3.amazonaws.com/jsw.dsprojects/AirlinePredictions/Airport_Lookup.csv', \n",
" header = 0) # Airport codes\n",
"trainDF = pd.read_csv('FinalFlightsNumeric.csv', header = 0) # Data from R"
]
},
{
"cell_type": "markdown",
"metadata": {},
"source": [
"Examining our imported data from R just to check everything is alright . . ."
]
},
{
"cell_type": "code",
"execution_count": 2,
"metadata": {
"collapsed": false
},
"outputs": [
{
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