Recommendation systems are becoming increasingly important in today’s extremely busy world. People are always short on time with the myriad tasks they need to accomplish in the limited 24 hours. Therefore, the recommendation systems are important as they help them make the right choices, without having to expend their cognitive resources.
The purpose of a recommendation system basically is to search for content that would be interesting to an individual. Moreover, it involves a number of factors to create personalised lists of useful and interesting content specific to each user/individual. Recommendation systems are Artificial Intelligence based algorithms that skim through all possible options and create a customized list of items that are interesting and relevant to an individual. These results are based on their profile, search/browsing history, what other people with similar traits/demographics are watching, and how likely are you to watch those movies. This is achieved through predictive modeling and heuristics with the data available.
If you want to understand this entire project overflow, please refer the jupyter notebook file inside notebook folder.
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Content-based systems, which use characteristic information and takes item attriubutes into consideration .
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Twitter , Youtube .
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Which music you are listening , what singer are you watching . Form embeddings for the features .
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User specific actions or similar items reccomendation .
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It will create a vector of it .
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These systems make recommendations using a user's item and profile features. They hypothesize that if a user was interested in an item in the past, they will once again be interested in it in the future
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One issue that arises is making obvious recommendations because of excessive specialization (user A is only interested in categories B, C, and D, and the system is not able to recommend items outside those categories, even though they could be interesting to them).
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Collaborative filtering systems, which are based on user-item interactions.
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Clusters of users with same ratings , similar users .
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Book recommendation , so use cluster mechanism .
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We take only one parameter , ratings or comments .
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In short, collaborative filtering systems are based on the assumption that if a user likes item A and another user likes the same item A as well as another item, item B, the first user could also be interested in the second item .
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Issues are :
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User-Item nXn matrix , so computationally expensive .
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Only famous items will get reccomended .
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New items might not get reccomended at all .
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Hybrid systems, which combine both types of information with the aim of avoiding problems that are generated when working with just one kind.
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Combination of both and used now a days .
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Uses : word2vec , embedding .
This is a collaborative filtering based books recommender system & a streamlit web application that can recommend various kinds of similar books based on an user interest.
1 . Load the data
2 . Initialise the value of k
3 . For getting the predicted class, iterate from 1 to total number of training data points
4 . Calculate the distance between test data and each row of training data. Here we will use Euclidean distance as our distance metric since it’s the most popular method.
5 . Sort the calculated distances in ascending order based on distance values
6 . Get top k rows from the sorted array
- streamlit
- Machine learning
- sklearn
Clone the repository
https://github.com/entbappy/ML-Based-Book-Recommender-System.git
conda create -n books python=3.7.10 -y
conda activate books
pip install -r requirements.txt
Now run,
streamlit run app.py
Note: Before clicking on show recommendations first of all click on Train Recommender System for generating models
The docker build command builds an image from a Dockerfile . Run the following command from the app/ directory on your server to build the image:
docker build -t streamlit .
The -t flag is used to tag the image. Here, we have tagged the image streamlit. If you run:
docker images
You should see a streamlit image under the REPOSITORY column. For example:
REPOSITORY TAG IMAGE ID CREATED SIZE
streamlit latest 70b0759a094d About a minute ago 1.02GB
Now that you have built the image, you can run the container by executing:
docker run -p 8501:8501 streamlit
The -p flag publishes the container’s port 8501 to your server’s 8501 port.
If all went well, you should see an output similar to the following:
$ docker run -p 8501:8501 streamlit
You can now view your Streamlit app in your browser.
URL: http://127.0.0.1:8501/
To view your app, users can browse to http://0.0.0.0:8501 or http://127.0.0.1:8501/