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Student Dropout Predictor

  • Author: Ranjit Sundaramurthi
  • Contributors: Andy Wang, Caesar Wong, Ziyi Chen

Introduction

Objective

Academic performance/graduation in a population is an important factor in their overall employability which contributes towards economic development. This Data Science project predicts Student Dropout given the factors on demography, socioeconomics, macroeconomics, and relevant academic data provided by the Student on enrollment. This prediction is important to understand the student's academic capacity. This important knowledge can be used to identify key areas of development such as the development of socially disadvantaged communities, improvement of academic programs, development of educational funding programs, etc. This project will try to investigate the following research question:

Given a student with his/her demography, socioeconomics, macroeconomics, and relevant academic data, how accurately can we predict whether he/she will drop out of school?

Dataset

The dataset used in the project contains data collected at the time of student enrollment and a snapshot of their performance at the end of the 2nd semester at their respective Universities. This includes discrete and continuous data that capture the various facets of the student. These include macroeconomic factors of inflation, GDP, and the unemployment rate. It covers the personal/family details of the student such as gender, previous grade, educational special needs, financial status, parents' education, and parents' occupation. It captures aspects of the educational system such as coursework enrolled, day/evening classes, scholarships offered, etc. The dataset is created by Valentim Realinho, Mónica Vieira Martins, Jorge Machado, and Luís Baptista from the Polytechnic Institue of Portalegre. It was sourced from the UCI Machine Learning Repository and can be downloaded from here. Each row represents the details pertaining to an individual student and there are no duplicates.

The original dataset exhibits three classifications (class) of students - Graduate, Enrolled, and Dropout. For the binary classification question pursued in this project, the class Enrolled is omitted from the dataset. The preliminary EDA shows there are 2209 examples of Graduate students and 1421 examples of Dropouts. Thus the dataset imbalance is not a major concern and can be addressed through balancing techniques learned in the MDS program.

Analysis Roadmap

We partitioned the dataset into training and test sets (80%: 20%). A detailed EDA is performed to understand the distribution of the 36 features and their correlation. The insights from EDA are used to eliminate features to reduce redundancy. Correlation maps, Bar plots and Pairwise Scatter plots from the EDA are used on the continuous features such as Inflation rate, GDP, and Unemployment rate to draw inferences for feature selection.

The modeling is performed using the Naive Bayes, Logistic Regression and Random Forest classification algorithms to identify the best-performing model. The Naive Bayes algorithm is shortlisted for its ability to scale well and handle sparse data. With multiple categorical features, there is sparsity in our model. The Logistic Regression algorithm is chosen for its similar advantages to the Naive Bayes algorithm along with the attractive advantage of providing interpretability for feature importance selection. The Random Forest classifier enabled us to apply ensemble models on the dataset. The performance metrics for our problem statement are Recall and f1 score respectively, in order of importance. Type 2 errors where actual dropouts are not identified reduce the usefulness of our project. Thus Recall is an essential performance metric. The Type 1 errors indicated by the precision of the model are of relatively lesser significance as actual graduates incorrectly classified as dropouts will provide a conservative model which is relatively acceptable.

Results and Conclusions Roadmap

The hyperparameters of the aforementioned models are optimized using cross-validation to determine the best estimator. The performance of these models is tabulated in the report for comparison. The reasons for the best estimator selection are documented along will the modeling assumptions and identified deficiencies. The train data is refit on the best estimator and the final predictions are made on the test data. The confusion matrix is documented and included in the final report along with comments on misclassifications and their effect on model performance.

The EDA performed can be found in the dropout_pred_EDA.pdf.

Data Analysis Pipeline

In this project, we adopt the following data analysis pipeline. First of all, we dowload and preprocess the raw data. After splitting and storing the required data files, we use the train_eda.csv as the input of general_EDA.py, train.csv for model_training.py, and testing.py for model_result.py.

plot

Usage

There are different ways to replicate the analysis.

  1. Clone this GitHub repository
git clone https://github.com/UBC-MDS/dropout-predictions.git
  1. Navigate to the GitHub repository
cd dropout-predictions
  1. (without docker) Install the conda environment listed in here
conda env create -f env/dropout_pred_env.yml
  1. (without docker) Activate the environment
conda activate dropout_pred_env

We can either use the docker, Makefile or Shell Script to run the analysis.

Docker

Using Docker

To run this analysis using Docker, clone/download this repository, use the command line to navigate to the root of this project on your computer, and then type the following at the command line/terminal from the root directory of this project.

docker run --rm -v /$(pwd):/home/jovyan/dropout-predictions tiger12055/dropout-predictions:latest make -C./dropout-predictions all

To clean up the analysis type:

docker run --rm -v /$(pwd):/home/jovyan/dropout-predictions tiger12055/dropout-predictions:latest make -C./dropout-predictions clean

Makefile

Run All

To run the whole analysis, run the following command in the root directory:

make all

It will check whether the final report exists or not. If the final report does not exist, the Makefile will run all the dependencies required to generate the report.

Clean Files

To clean the intermediate and final results including images, CSV files and report, run the following command in the root directory:

make clean

It will clean all the files under data/raw/, results/, and all the CSV files under data/processed/.

Dependency Diagram

The diagram below shows the structure of how the project and this repo is structured to produce the final results. plot

Shell Script

After activating the Conda environment, run the following command under the src folder.

bash data_analysis_pipeline.sh

Shell Script content:

<<comment
This shell script will include all the script running required to reproduce the dropout prediction analysis.
Please run this script within the src/ folder
comment

# download data
python download_data.py --url="https://raw.githubusercontent.com/caesarw0/ml-dataset/main/students_dropout_prediction/data.csv" --extract_to="../data/raw/data.csv"

# preprocess data 
python preprocessing.py --input_path="../data/raw/data.csv" --sep=',' --test_size=0.2 --random_state=522 --output_path="../data/processed"

# generate EDA plot
python general_EDA.py --input_path="../data/processed/train_eda.csv" --output_path="../results/"

# model training
python model_training.py --train="../data/processed/train.csv" --scoring_metrics="recall" --out_dir="../results/"

# model testing
python model_result.py --test="../data/processed/test.csv" --out_dir="../results/"

# report generation
Rscript -e 'rmarkdown::render("../doc/The_Report_of_Dropout_Prediction.Rmd")'

Dependencies

Please find more details for the dependencies in the dropout_pred_env.yml for the Python related dependencies.

For R-related packages for report generation, please refer to the following:

  • "docopt==0.7.1"
  • "dplyr==1.0.9"
  • "kableExtra==1.3.4"
  • "knitr==1.40"
  • "rmarkdown==2.16"
  • "tidyverse==1.3.2"

License

The Student Dropout Predictor materials here are licensed under the Creative Commons Attribution 4.0 International (CC BY 4.0) license. This allows for the sharing and adaptation of the datasets for our purpose of academic study and understanding, with the appropriate credit given.

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