Contextual Outlier Detection with Statistical Modeling on Spark

Sometimes an outlier is defined with respect to a context. Whether a data point should be labeled as an outlier depends on the associated context. For a bank ATM, transactions that are considered normal between 6 AM and 10 PM, may be considered anomalous between 10 PM and 6 AM. In this case, the context is the hour of the day.

In this post, we will go through some contextual outlier detection techniques based on statistical modeling of the data. The Spark based implementation is available Continue reading →

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Pluggable Rule Driven Data Validation with Spark

Data validation is an essential component in any ETL data pipeline. As we all know most Data Engineers and Scientist spend most of their time cleaning and preparing their data before they can even get to the core processing of the data.

In this post we will go over a pluggable rule driven data validation solution implemented on Spark. Earlier I had posted about the same solution implemented on Hadoop. This post can be considered as a sequel to the earlier post. The solution is available Continue reading →

Improving Elastic Search Query Result with Query Expansion using Topic Modeling

Query expansion is a process of reformulating a query to improve query results and to be more specific to improve the recall for a query. Topic modeling is an Natural Language Processing (NLP) technique to discover hidden topics or concepts in documents. We will be going through a Query Expansion technique based on Topic Modeling.

The solution is based on Latent Dirichlet Allocation (LDA) algorithm as implemented python gensim library. LDA is a Continue reading →

Leave One Out Encoding for Categorical Feature Variables on Spark

Categorical feature variables is a thorny issue for many supervised Machine Learning algorithms. Many learning algorithms can not handle categorical feature variables. In this post, we will go over an encoding scheme called Leave One Out Encoding, as implemented with Spark. It’s a recent algorithm and popular in Kaggle. This algorithm is particularly useful for high cardinality categorical features.

The Spark implementation of the encoding algorithms can be found Continue reading →

Auto Training and Parameter Tuning for a ScikitLearn based Model for Leads Conversion Prediction

This is a sequel to my last blog on CRM leads conversion prediction using Gradient Boosted Trees as implemented in ScikitLearn. The focus of this blog is automatic training and parameter tuning for the model. The implementation is available in my open source project avenir.

The auto training logic as used here is independent of any particular supervised learning algorithm and applicable for any learning algorithm.

The frame work around ScikitLearn, used here facilitates building predictive models without having to write python code. I will be adding other supervised learning algorithms to this framework Continue reading →

Predicting CRM Lead Conversion with Gradient Boosting using ScikitLearn

Sales leads are are generally managed and nurtured in CRM systems. It will be nice if we could predict the likelihood of any lead converting to an actual deal. This could be very beneficial in many ways e.g. proactively  providing special care for weak leads and for projecting future revenue .

In this post we will go over a predictive modeling solution built on Python ScikitLearn Machine Learning Library. We will be using Gradient Boosted Tree(GBT) which is a powerful and popular supervised learning algorithm.

During the course of this blog, we will also see  Continue reading →

Handling Categorical Feature Variables in Machine Learning using Spark

Categorical features variables i.e. features variables with fixed set of unique values  appear in the training data set for many real world problems. However, categorical variables pose a serious problem for many Machine Learning algorithms. Some examples of such algorithms are Logistic Regression, Support Vector Machine (SVM) and any Regression algorithm.

In this post we will go over a Spark based solution to alleviate the problem. The solution implementation can be found in Continue reading →