1

I have a customer data set with about 20-25 attributes about the customer such as:

  • age
  • gender_F
  • gender_M
  • num_purchases
  • loyalty_status_new
  • loyalty_status_intermediate
  • loyalty_status_advanced
  • ...

I have cleaned my dataset to not have any null values and have one-hot encoded categorical variables as well into a pandas dataframe my_df. I have used scikit-learn's kmeans to create 2 clusters on this dataset, but I would like to understand how to tell which customers were clustered into which clusters.

    scaler = StandardScaler()
    my_df_scaler = scaler.fit_transform(my_df)
    kmeans = KMeans(2)
    model = kmeans.fit(my_df_scaler)
    preds = model.predict(my_df_scaler)

Basically, I am looking for some help in getting insights like:

  • Cluster 1 represents people with larger values for age and loyalty_status_new

Thanks in advance!

2
  • One explorative approach could be to start with one feature and see what clustering you find there. Then expand to two or more features.
    – TMOTTM
    Mar 30, 2019 at 18:06
  • I'd rather not apply standardization to one hot encoded variables. Overall, you have very little semantic meaning to how you cluster there. Might as well be nearest neighbors to random points. Mar 31, 2019 at 0:46

1 Answer 1

2

If you have the clusters for each customer, you can compute the average by cluster for each parameters and you will have your answer. You can check more generally the distribution of each parameters in each clusters and compare them between clusters.

Yet, as I see your parameters, you should not take Gender_M and Gender_F as these features are correlated (Gender_M=1-Gender_F).

I see also loyalty status new, intermediate and advanced... If these parameters are computed from a continuous variable, you should keep the continuous variables and not go with three related variables like this.

Anyway here are some links that should help you for your clustering: - rfm clustering principles: https://towardsdatascience.com/apply-rfm-principles-to-cluster-customers-with-k-means-fef9bcc9ab16 - go deeper in KMeans understanding: https://towardsdatascience.com/k-means-clustering-8e1e64c1561c

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.