fbpx

Degrees

  • B.S., The University of Akron, 2013
  • M.S., The University of Akron, 2015
  • Ph.D., Kent State University, 2020
Areas of Interest

My research interests are in graph theory and algorithms, with a focus in the broad category of hyperbolic graphs and several interesting graph classes including Helly graphs, distance-hereditary graphs, AT-free graphs, and chordal graphs. I am largely interested in facility location problems and large-scale network analysis. My additional research interests include software engineering and algorithmic applications, such as mining software repositories and network visualization.

I particularly enjoy finding clean and aesthetic solutions to difficult problems in a manner that is easy to present and explain. One of my passions (in teaching, in research, and for sport) is exploring new and creative ways to solve problems.

Courses Taught
  • Scientific Computing
  • Programming Languages
  • Combinatorics and Graph Theory
  • Problem Seminar
  • Algorithm Analysis
  • Principles of Computer Organization
Independent Study Advising
  • The evolution of Human-Computer Interaction and its technological advancement with a focus on applications with Electric Paint”, Sobika Thapa – Computer Science, 100 pages, 2023.
  • Cubulus: Procedural World Generation Using Marching Cubes”, Keeton Purvis – Computer Science, 87 pages, 2023.
  • Visualizing Movement: Predicting Interstate Migration Probabilities and Populations of US States using Markov Chain Analysis”, Rekik Ziku (co-advised with Dr. Pamela Pierce) – Computer Science and Mathematics, 157 pages, 2023.
  • Building an 8-bit Computer: From Design to Implementation”, Craig Akiri – Computer Science, 100 pages, 2023.
  • Simulating Reaction-Diffusion waves to model Gravitational Lensing”, Daniel Cohen-Cobos (co-advised with Dr. Niklas Manz) – Physics and Computer Science, 117 pages, 2023.
  • Applications of Constraint Programming in Sports Scheduling,” Troy Baughman – Mathematics, 74 pages, 2022.
  • A Simulation of the Economic Impact of Disaster Events,” Richie Pajak – Computer Science, 81 pages, 2022.
  • A Comprehensive Empirical and Simulation Analysis on How Minimum Wage Increases Impact Unemployment,” Brandon Charles (co-advised with Dr. Huiting Tian) – Computer Science and Economics, 180 pages, 2022.
  • Environmental Socialization in College: A Survey Research and Network Analysis of Changes in Climate-Conscious Concerns and Behaviors”, Bijeta Lamichhane (co-advised with Dr. Denise Bostdorff) – Mathematics and Communication Studies, 126 pages, 2022.
  • Highlights Generation for Tennis Matches using Computer Vision, Natural Language Processing, and Audio Analysis,” Alon Liberman – Computer Science and Mathematics, 102 pages, 2022.
  • Abyssinia: The Design and Development of a Tower Defense Game,” Raey Aweke – Computer Science, 94 pages, 2022.
  • The Running Man: A 3D AI-Controlled and Procedurally Generated Infinite Runner,” Jack De La Cruz – Computer Science, 77 pages, 2021.
  • Imali: A Technical Analysis Mobile Application in React Native,” Tanaka Chingonzo – Computer Science, 83 pages, 2021.
  • Defeating the COVID-19 Infodemic on Twitter: A SIP Agent-Based Model of Rumor Propagation and Truth Bot Intervention,” Zhen Guo (co-advised with Dr. Tom Tierney) – Computer Science and Sociology, 117 pages, 2021
Publications
  • Heather M. Guarnera, Feodor F. Dragan, and Arne Leitert. Injective hulls of various graph classes. Graphs and Combinatorics 38, 112 (2022).
  • Feodor F. Dragan and Heather M. Guarnera. Helly-gap of a graph and vertex eccentricities, Theoretical Computer Science, 867:68-84, 2021. [doi] [arXiv
  • Mohammed, F. Dragan, H. Guarnera. “Fellow Travelers Phenomenon Present in Real-World Networks,” the 10th International Conference on Complex Networks & Their Applications, 2021, pp 194-206. [doi]
  • Dragan, G. Ducoffe, H. Guarnera. “Fast deterministic algorithms for computing all eccentricities in (hyperbolic) Helly graphs,” the 17th Algorithms and Data Structures Symposium (WADS’21), 2021. [doi] [arXiv]
  • Feodor F. Dragan and Heather M. Guarnera. Eccentricity function in distance-hereditary graphs. Theoretical Computer Science, 833: 26-40, 2020. [arXiv] [doi]
  • Feodor F. Dragan and Heather M. Guarnera. Helly-gap of a graph and vertex eccentricities. Theoretical Computer Science, 867:68-84, 2021.
  • Feodor F. Dragan and Heather M. Guarnera. Eccentricity terrain of 𝛿-hyperbolic graphs. Journal of Computer and System Sciences, 112: 50-56, 2020. [arXiv] [doi]
  • Feodor F. Dragan and Heather M. Guarnera. Obstructions to a small hyperbolicity in Helly graphs. Discrete Mathematics, 342(2): 326-338, 2019. [arXiv] [doi]
  • Heather M. Michaud, Drew T. Guarnera, Michael L. Collard, and Jonathan I. Maletic, “Recovering Commit Branch of Origin”, in the Proceedings of 32nd IEEE International Conference on Software Maintenance and Evolution (ICSME), 2016. [doi]
Professional Affiliations
  • Association for Computing Machinery (ACM)
  • Institute of Electrical and Electronics Engineers (IEEE)