Template Credit: Adapted from a template made available by Dr. Jason Brownlee of Machine Learning Mastery.
SUMMARY: The purpose of this project is to construct a prediction model using various machine learning algorithms and to document the end-to-end steps using a template. The Online News Popularity dataset is a regression situation where we are trying to predict the value of a continuous variable.
INTRODUCTION: This dataset summarizes a heterogeneous set offeatures about articles published by Mashable in a period of two years. The goal is to predict the article’s popularity level in social networks. The datasetdoes not contain the original content, but some statistics associated with it.The original content can be publiclyaccessed and retrieved using the provided URLs.
Many thanks to K. Fernandes, P. Vinagre and P. Cortez. A Proactive Intelligent Decision Support System for Predicting the Popularity of Online News. Proceedings of the 17th EPIA 2015 – Portuguese Conference on Artificial Intelligence, September, Coimbra, Portugal, for making the dataset and benchmarking information available.
In iteration Take1, the script focused on evaluating various machine learning algorithms and identifying the algorithm that produces the best accuracy result. Iteration Take1 established a baseline performance regarding accuracy and processing time.
For this iteration, we will examine the feasibility of using a dimensionality reduction technique of ranking the attribute importance with a gradient boosting tree method. Afterward, we will eliminate the features that do not contribute to the cumulative importance of 0.99 (or 99%).
ANALYSIS: From the previous iteration Take1, the baseline performance of the machine learning algorithms achieved an average RMSE of 10446. Two algorithms (Random Forest and Stochastic Gradient Boosting) achieved the top RMSE scores after the first round of modeling. After a series of tuning trials, Random Forest turned in the top result using the training data. It achieved the best RMSE of 10299. Using the optimized tuning parameter available, the Random Forest algorithm processed the validation dataset with an RMSE of 12978, which was slightly worse than the accuracy of the training data and possibly due to over-fitting.
In the current iteration, the baseline performance of the machine learning algorithms achieved an average RMSE of 10409. Two algorithms (ElasticNet and Stochastic Gradient Boosting) achieved the top RMSE scores after the first round of modeling. After a series of tuning trials, Stochastic Gradient Boosting turned in the top result using the training data. It achieved the best RMSE of 10312. Using the optimized tuning parameter available, the Stochastic Gradient Boosting algorithm processed the validation dataset with an RMSE of 13007, which was worse than the accuracy of the training data and possibly due to over-fitting.
From the model-building activities, the number of attributes went from 58 down to 35 after eliminating 23 attributes. The processing time went from 21 hours 7 minutes in iteration Take1 down to 11 hours 41 minutes in iteration Take2, which was a reduction of 44% from Take1.
CONCLUSION: The feature selection techniques helped bycutting down the attributes and reduced the training time. Furthermore, themodeling took a much shorter time to process yet still retained a comparablelevel of accuracy. For this iteration, the Stochastic Gradient Boosting algorithm achieved thetop training and validation results comparing to other machine learningalgorithms. For this dataset, Stochastic Gradient Boosting should be considered for furthermodeling or production use.
Dataset Used: Online News Popularity Dataset
Dataset ML Model: Regression with numerical attributes
Dataset Reference: https://archive.ics.uci.edu/ml/datasets/Online+News+Popularity
The HTML formatted report can be found here on GitHub.