Implementation of Data Preprocessing on Titanic DatasetWith step by step ImplementationAfroz ChakureBlockedUnblockFollowFollowingJun 29What is Required ?Python, Numpy, PandasKaggle titanic dataset : https://www.
com/c/titanic-gettingStarted/dataGoalThe machine learning model is supposed to predict who survived during the titanic shipwreck.
Here I will show you how to apply preprocessing techniques on the Titanic dataset.
Why do we need to do Preprocessing ?For machine learning algorithms to work, it is necessary to convert the raw data into a clean data set and dataset must be converted to numeric data.
You have to encode all the categorical lables to column vectors with binary values.
Missing values or NaNs in the dataset is an annoying problem.
You have to either drop the missing rows or fill them up with a mean or interpolated values.
Note: Kaggle provides 2 datasets: train and results data separately.
Both must have same dimensions for the model.
Loading data in pandasTo work on the data, you can either load the CSV in excel software or in pandas.
Lets load the csv data in pandas.
df = pd.
csv')Lets take a look at the data format below>>> df.
info() <class 'pandas.
DataFrame'> Int64Index: 891 entries, 0 to 890 Data columns (total 12 columns): PassengerId 891 non-null int64 Survived 891 non-null int64 Pclass 891 non-null int64 Name 891 non-null object Sex 891 non-null object Age 714 non-null float64 SibSp 891 non-null int64 Parch 891 non-null int64 Ticket 891 non-null object Fare 891 non-null float64 Cabin 204 non-null object Embarked 889 non-null objectIf you carefully observe the above summary of pandas, there are total 891 rows, Age shows only 714 (means missing), Embarked (2 missing) and Cabin missing a lot as well.
Object data types are non-numeric so we have to find a way to encode them to numerical values.
Dropping Columns which are not usefullLets try to drop some of the columns which many not contribute much to our machine learning model such as Name, Ticket, Cabin etc.
cols = ['Name', 'Ticket', 'Cabin']df = df.
drop(cols, axis=1)We dropped 3 columns:>>>df.
info() PassengerId 891 non-null int64 Survived 891 non-null int64 Pclass 891 non-null int64 Sex 891 non-null object Age 714 non-null float64 SibSp 891 non-null int64 Parch 891 non-null int64 Fare 891 non-null float64 Embarked 889 non-null objectDropping rows having missing valuesNext if we want we can drop all rows in the data that has missing values (NaN).
You can do it likedf = df.
info() Int64Index: 712 entries, 0 to 890 Data columns (total 9 columns): PassengerId 712 non-null int64 Survived 712 non-null int64 Pclass 712 non-null int64 Sex 712 non-null object Age 712 non-null float64 SibSp 712 non-null int64 Parch 712 non-null int64 Fare 712 non-null float64 Embarked 712 non-null objectProblem with dropping rows having missing valuesAfter dropping rows with missing values we find that the dataset is reduced to 712 rows from 891, which means we are wasting data.
Machine learning models need data for training to perform well.
So we preserve the data and make use of it as much as we can.
We will see it later.
Creating Dummy VariablesNow we convert the Pclass, Sex, Embarked to columns in pandas and drop them after conversion.
dummies = cols = ['Pclass', 'Sex', 'Embarked']for col in cols: dummies.
get_dummies(df[col]))thentitanic_dummies = pd.
concat(dummies, axis=1)We have 8 columns transformed to columns where 1,2,3 represents passenger class.
And finally we concatenate to the original dataframe column wisedf = pd.
concat((df,titanic_dummies), axis=1)Now that we converted Pclass, Sex, Embarked values into columns, we drop the redundant same columns from the dataframedf = df.
drop(['Pclass', 'Sex', 'Embarked'], axis=1)Lets take a look on the new dataframe>>>df.
info() PassengerId 891 non-null int64 Survived 891 non-null int64 Age 714 non-null float64 SibSp 891 non-null int64 Parch 891 non-null int64 Fare 891 non-null float64 1 891 non-null float64 2 891 non-null float64 3 891 non-null float64 female 891 non-null float64 male 891 non-null float64 C 891 non-null float64 Q 891 non-null float64 S 891 non-null float64Taking Care of Missing DataAll is good, except age which has lots of missing values.
Lets compute a median or interpolate() all the ages and fill those missing age values.
Pandas has a interpolate() function that will replace all the missing NaNs to interpolated values.
df['Age'] = df['Age'].
interpolate()Now lets observe the data columns.
Notice age which is interpolated now with imputed new values.
info() Data columns (total 14 columns): PassengerId 891 non-null int64 Survived 891 non-null int64 Age 891 non-null float64 SibSp 891 non-null int64 Parch 891 non-null int64 Fare 891 non-null float64 1 891 non-null float64 2 891 non-null float64 3 891 non-null float64 female 891 non-null float64 male 891 non-null float64 C 891 non-null float64 Q 891 non-null float64Converting the dataframe to numpyNow that we have converted all the data to numeric, its time for preparing the data for machine learning models.
This is where scikit and numpy come into play:X = Input set with 14 attributesy = Small y Output, in this case ‘Survived’Now we convert our dataframe from pandas to numpy and we assign input and outputX = df.
valuesy = df['Survived'].
valuesX has still Survived values in it, which should not be there.
So we drop in numpy column which is the 1st column.
X = np.
delete(X, 1, axis=1)Dividing data set into training set and test setNow that we are ready with X and y, lets split the dataset for 70% Training and 30% test set using scikit model_selectionfrom sklearn.
model_selection import train_test_splitX_train, X_test, y_train, y_test = train_test_split(X, y, test_size=0.
3, random_state=0)And That’s about it folks.
You have learned how to preprocess data in the titanic dataset.
So go on, try it for yourself and start making your own predictions.