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Zachary Raup


Zachary's CV (pdf):
Data Science Courses Completed

About Me

Welcome to my data science portfolio! I graduated Summa Cum Laude from Kutztown University with a bachelor’s degree in Physics, driven by an insatiable curiosity and a passion for data-driven exploration. Throughout my academic journey, I specialized in data analysis and modeling, particularly in the realms of exoplanets and binary stars. This experience not only deepened my understanding of complex datasets but also honed my skills in extracting meaningful insights.

I hold certifications as a Data Science Associate and Data Analyst Associate from DataCamp, along with specialized certifications in Python and SQL. My coursework has also included advanced machine learning topics, equipping me with a solid foundation in both theoretical concepts and practical applications.

Professionally, I have developed robust capabilities in Python for data analysis, leveraging techniques such as exploratory data analysis, data cleaning, and statistical modeling. I am proficient in SQL querying, adept at managing and extracting insights from large datasets to support data-driven decision-making. Additionally, I possess advanced skills in data visualization using Tableau and Power BI, creating insightful visualizations that effectively communicate findings and support strategic initiatives.

I am dedicated to applying my expertise in Python, SQL, and data visualization tools to solve challenging problems and contribute meaningfully to data-driven projects. I thrive in collaborative environments and am committed to continuous learning and professional growth in the dynamic field of data science.

 


Certifications


Below is a select list of data and coding projects that I have completed. Use project title links to view more information about each project.

 

Project Overview

This project explores the effectiveness of five machine learning models—Logistic Regression, K-Nearest Neighbors (KNN), Decision Tree, Random Forest, and Support Vector Machine (SVM)—in predicting diabetes status using a cleaned patient dataset. By employing cross-validation and assessing key metrics such as accuracy, precision, recall, and F1 score, the analysis highlights the importance of selecting a model that balances these metrics for reliable healthcare applications. A model with high accuracy and recall is crucial for effectively identifying diabetic patients, thereby minimizing the risks associated with missed diagnoses.

Skills Applied: Machine Learning, Supervised Learning, Python (scikit-learn), Cross-Validation, Hyperparameter Tuning and more

Image 1: Classification Model Comparison

This boxplot illustrates the cross-validation accuracy of five classification models—Logistic Regression, K-Nearest Neighbors (KNN), Decision Tree, Random Forest, and Support Vector Machine (SVM). Each box represents the distribution of accuracy scores obtained through 5-fold cross-validation, highlighting the performance stability and variability of each model. The results emphasize the importance of model selection in achieving high accuracy for diabetes classification, crucial for effective healthcare decision-making.

Project Overview

This research project focuses on modeling the transit of exoplanets across stars using the Python package 'batman'. The objective was to accurately predict changes in stellar brightness during these transits, validated against photometry data from the CR Chambliss Astronomical Observatory (CRCAO). Methodologically, a physics-based model was developed and evaluated using a log likelihood function to fit observational data. The Markov Chain Monte Carlo (MCMC) algorithm, facilitated by 'emcee', enabled exploration of parameter uncertainties such as planet radius and transit timing. Visualizations created with matplotlib included light curves, histograms of parameter distributions, and a corner plot illustrating parameter correlations. Presenting findings at the 241st AAS meeting highlighted contributions to understanding exoplanet transit dynamics, crucial for advancing knowledge of planetary systems beyond our solar system.

Skills Applied: Python (pandas, matplotlib, numpy, emcee, & batman), Jupyter Notebook, and Excel

Image 2: TOI-4153 modeled lightcurve

Light curve of TOI-4153 data (CRCAO) taken in a Blue (B) and Infrared (I) filter. The model is built using the Python transit modeler package 'batman'. The parameters of the model were determined using the Markov Chain Monte Carlo algorithm and known parameters taken from the ExoFOP database.

 

Project Overview

The goal of this project is to utilize MySQL queries to perform analysis of trends and relationships embedded within the Dognition database. Developed as a fundamental component of the ‘Managing Big Data with MySQL’ course from Duke University, the project focuses on refining and applying skills in data cleaning, sorting, and employing advanced analytical techniques using SQL. By exploring large datasets such as the Dognition database, the project aims to uncover meaningful insights into canine behavior patterns and preferences, leveraging robust data management practices to extract actionable intelligence for further research and practical applications in understanding and enhancing dog-human interactions.

Skills Applied: MySQL, Writing Queries, Data Cleaning, and Big Data

Image 3: Top States by Number of Dognition Users

This MySQL query analyzes geographical user trends within the Dognition dataset, resulting in a table that lists the top 5 states with the highest number of Dognition users.

 

Project Overview

The project was undertaken as part of the 'Data Visualization in Tableau' course in Data Camp, where I applied advanced data visualization techniques to transform raw museum data into a meaningful and engaging interactive animation. By leveraging Tableau's powerful features, I was able to create a comprehensive and user-friendly tool that highlights key patterns and trends in museum visitor behavior by the hour. This project not only demonstrates my proficiency in using Tableau for data visualization but also underscores the practical application of these skills in real-world scenarios.

Skills Applied: Tableau, Data Visualization

Image 4: Common Musuem Visitor Paths

The following three screenshots highlight two popular paths that museum visitors walk at 11 AM, 3 PM, and 6 PM. These images illustrate how the average number of people in each area changes throughout the day, providing insights into visitor flow and behavior

 



Portfolio Links

Zachary's Portfolio
Project 1: Predicting Diabetes Using Machine Learning | Comparison of Classification Models
Project 2: Utilizing MCMC in Python to Explore the Parameter Space of an Exoplanet Transit
Project 3: Insights into Dog Behavior: Analyzing Dognition Data with MySQL
Project 4: Interactive Animation of Museum Visitor Paths and Hourly Room Traffic in Tableau