Python | Implementation of Movie Recommender System
Recommender System is a system that seeks to predict or filter preferences according to the user’s choices. Recommender systems are utilized in a variety of areas including movies, music, news, books, research articles, search queries, social tags, and products in general.
Recommender systems produce a list of recommendations in any of the two ways –
- Collaborative filtering: Collaborative filtering approaches build a model from user’s past behavior (i.e. items purchased or searched by the user) as well as similar decisions made by other users. This model is then used to predict items (or ratings for items) that user may have an interest in.
- Content-based filtering: Content-based filtering approaches uses a series of discrete characteristics of an item in order to recommend additional items with similar properties. Content-based filtering methods are totally based on a description of the item and a profile of the user’s preferences. It recommends items based on user’s past preferences.
Let’s develop a basic recommendation system using Python and Pandas.
Let’s focus on providing a basic recommendation system by suggesting items that are most similar to a particular item, in this case, movies. It just tells what movies/items are most similar to user’s movie choice.
To download the files, click on the links – .tsv file, Movie_Id_Titles.csv.
Import dataset with delimiter “\t” as the file is a tsv file (tab separated file).
import pandas as pd
column_names = [ 'user_id' , 'item_id' , 'rating' , 'timestamp' ]
df = pd.read_csv(path, sep = '\t' , names = column_names)
df.head()
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data = pd.merge(df, movie_titles, on = 'item_id' )
data.head()
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data.groupby( 'title' )[ 'rating' ].mean().sort_values(ascending = False ).head()
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data.groupby( 'title' )[ 'rating' ].count().sort_values(ascending = False ).head()
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ratings = pd.DataFrame(data.groupby( 'title' )[ 'rating' ].mean())
ratings[ 'num of ratings' ] = pd.DataFrame(data.groupby( 'title' )[ 'rating' ].count())
ratings.head()
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Visualization imports:
import matplotlib.pyplot as plt
import seaborn as sns
sns.set_style( 'white' )
% matplotlib inline
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plt.figure(figsize = ( 10 , 4 ))
ratings[ 'num of ratings' ].hist(bins = 70 )
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plt.figure(figsize = ( 10 , 4 ))
ratings[ 'rating' ].hist(bins = 70 )
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moviemat = data.pivot_table(index = 'user_id' ,
columns = 'title' , values = 'rating' )
moviemat.head()
ratings.sort_values( 'num of ratings' , ascending = False ).head( 10 )
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starwars_user_ratings = moviemat[ 'Star Wars (1977)' ]
liarliar_user_ratings = moviemat[ 'Liar Liar (1997)' ]
starwars_user_ratings.head()
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similar_to_starwars = moviemat.corrwith(starwars_user_ratings)
similar_to_liarliar = moviemat.corrwith(liarliar_user_ratings)
corr_starwars = pd.DataFrame(similar_to_starwars, columns = [ 'Correlation' ])
corr_starwars.dropna(inplace = True )
corr_starwars.head()
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corr_starwars.sort_values( 'Correlation' , ascending = False ).head( 10 )
corr_starwars = corr_starwars.join(ratings[ 'num of ratings' ])
corr_starwars.head()
corr_starwars[corr_starwars[ 'num of ratings' ]> 100 ].sort_values( 'Correlation' , ascending = False ).head()
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corr_liarliar = pd.DataFrame(similar_to_liarliar, columns = [ 'Correlation' ])
corr_liarliar.dropna(inplace = True )
corr_liarliar = corr_liarliar.join(ratings[ 'num of ratings' ])
corr_liarliar[corr_liarliar[ 'num of ratings' ]> 100 ].sort_values( 'Correlation' , ascending = False ).head()
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This article is contributed by SURAJ VIRUS
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