The Scholarships Creating Opportunities for Applying Mathematics (S-COAM) project at Indiana University of Pennsylvania is seeking applicants for our unique scholarship program. In addition to providing monetary scholarship support, S-COAM creates a network
of students that engage in professional develo p.m.ent activities to improve your career prospects and success in STEM fields.
While increasing numbers of students pursuing mathematics degrees, S-COAM is unique in its goal of establishing a supportive connection of graduate students with undergraduates through scholarship cohort activities.
Need-based scholarships annually support seven to nine students from the MS in Applied Mathematics and about 40 undergraduates seeking a mathematics major or minor in mathematics with a STEM major. Annually, 10 to 20 new freshmen are recruited with at
least 87 distinct students supported over five years. We are seeking high-achieving high school students with financial need from across the region.
The selection process considers need, diversity, academic performance, activities, and a personal statement.
Select a category, then use your MyIUP login information to access and begin the application: Apply according to your student group:
Incoming 2019–20 Freshmen (For Fall 2019 Freshmen. Next Deadline: May 1, 2019)
Incoming 2019–20 Graduate Student in Applied Mathematics (First Deadline: Apr. 20, 2019)
The link for transferred students will be added soon. Stay tuned!
August 26, 12:45–2:30 p.m., STRGT 226/228
September 24, 6:30–8:00 p.m., HUB Allegheny Room
October 31, 3:30–5:00 p.m., HUB Conemaugh Room
December 7, 3:30–5:00 p.m., HUB Allegheny Room
All events below are open to public.
Python Workshop I : Oct. 2, 3:30-5:00 p.m. STRGT 220 Title: Python: An Introduction Presenter: Dr. John ChrispellAbstract: A basic introduction to python programming language will be conducted in a hands-on manner. Topics
discussed will include: basic loops, functions, classes, importing libraries from other python scripts, as well as basic IO for files. A quick overview of several code development environments will be discussed.
Python Workshop II: Oct. 9, 3:30–5:00 p.m. STRGT 220 Title: Python: Beyond Basic ScriptingPresenter: John ChrispellAbstract: This workshop will extend some of the topics discussed in the introductory python workshop. Advanced
features available in Jupyter notebooks will be discussed and demonstrated. Topics potentially include interactive plotting, audio processing, image manipulation and processing, interactive notebook widgets, and pulling data from websites.
On day one of this two-day workshop, we will begin by giving an overview of R and RStudio. This includes showing where to download these software packages and how to install them. Next, we will go through several examples that demonstrate the following:
Participants will then be given a chance to practice these skills by working through several problems.
Theresa Scarnati, Associate Research Mathematician, Air Force Research Laboratory
Title: High Order Regularization Techniques for Synthetic Aperture Radar Applications
HUB Allegheny RoomTime:
O’Hara, PhD Candidate, University of OreganTitle: Research Medley: Exploring the Role of Volcanic Processes on Landscape Evolution
Colleagues: Leif Karlstrom, Joshua J. Roering, David W. RamseyLocation:
HUB Susquehanna RoomTime:
Panel: 3:35–4:50 p.m. Location: HUB Susquehanna Room Daniel O’Hara, Theresa Scarnati
Theresa Scarnati: Originally from Erie, Pennsylvania, Theresa Scarnati received a BS in applied mathematics from Indiana University of Pennsylvania in 2014. After completing her MA in 2016, she graduated with her PhD in applied mathematics
from Arizona State University in 2018. Currently, Scarnati is an associate research mathematician for the Air Force Research Laboratory within the Mutli-Domain Sensing Autonomy Division. Her research interests include the implementation and analysis
of regularization techniques for exploiting sparsity and prior knowledge in inverse problems, specifically for the application of denoising synthetic aperture radar (SAR) images, SAR automatic target recognition, three-dimensional image reconstruction
and multi-sensor information fusion.
O’Hara: “I am a fifth-year PhD student in the Department of Earth Sciences at the University of Oregon, studying volcanic geomorphology. I am a first-generation student, originally from Ebensburg, Pa. I attended IUP from 2009 to 2014, where I
completed a dual degree in geology and computer science, with a minor in mathematics. As an undergraduate, I was a S-COAM scholar, McNair scholar, and Goldwater scholar, which allowed me to participate in multiple research projects in the IUP Geoscience
Department, at the Virginia Institute of Marine Science (VIMS), and at Academia Sinica (Taiwan). Motivated by my experiences at IUP, I applied and was accepted to UO in 2014. At UO, I have focused my research into understanding the interaction between
volcanic processes and surface topography. As a graduate student, I have co-authored two research articles, recently submitted my first primary-author paper for review, interned at the Cascades Volcanic Observatory through the NSF Graduate Research
Internship Program (GRIP), and was awarded an NSF Graduate Research Fellowship (GRF).”
Dr. Helen Moore, Principal Scientist at AstraZeneca
Location: STRGT 226/229(Address: 210 S. 10th St., Indiana, PA 15705)
4:00–4:30 p.m.Chat with Dr. Helen Moore
4:30–5:30 p.m.Title: Using Mathematics to Predict Which Cancer Patients Will Respond to ImmunotherapyAbstract: Immunotherapies don't work for many cancer patients; but when they do work, they can work extremely
well. So it is important to figure out as early as possible if a patient will be a “responder” or a “non-responder.” I will present a simple mathematical model of tumor dynamics I used for tumor size data from patients. I combined the model parameters
with a machine learning technique to create an early predictor of response/non-response. I will show how I validated the predictor on data sets for different cancer types and immunotherapies. (Suitable for general audience)
6:00–7:00 p.m.Title: How to Mathematically Optimize Combination Drug RegimensAbstract: Combination regimens are increasingly important as we try to combat resistance in viral diseases and cancer. How much better
could patient outcomes be if we used the same drugs but changed their doses or schedules? With a mathematical model for the disease-therapy dynamics, we can apply optimal control to predict the regimen that will perform the best according a specified
goal. I will explain the basic ideas of optimal control using some examples, and will discuss some of the challenges of math modeling in the biopharma industry. (Suitable for audience with calculus background.)
About the Speaker: Helen Moore graduated from the North Carolina School of Science and Mathematics and the University of North Carolina at Chapel Hill. She received her PhD in mathematics in 1995 from Stony Brook University. Her original
work in differential geometry focused on shapes that minimize volume under certain constraints. Over a period of 11 years in academia, she won two teaching awards and received a National Science Foundation grant for her research. While at Stanford
University, she began collaborating with faculty in the medical school, and shifted her use of optimization techniques to apply them to therapies for cancer, HIV, and hepatitis C.
In 2006, Moore entered the biopharma industry. She first worked at Genentech, and then Pharsight/Certara in California. Moore moved to the east coast in 2014 to work for Bristol-Myers Squibb in Princeton, NJ, and moved near Boston, MA in 2018 to work
for AstraZeneca. Moore was named a Fellow of the Society for Industrial and Applied Mathematics in 2018. Her current areas of work are mathematical modeling of tumor dynamics, optimization of combination regimens, and quantitative evaluation of predictive
In addition to financial support, S-COAM scholars will also participate in the Mathematics Enrichment Activities Network.
Peer-led, team-learning sessions for freshmen
Local, regional, or national conferences
Departmental or college-wide colloquia
Workshops in software training, job/internship search, and graduate school preparation
Connections with working professionals in science and engineering fields
Social gatherings with other S-COAM scholars
IUP clubs, including: Math Club, Actuary Club, or Preservice Teachers of Mathematics
Presentations by professionals from industry and academia
Participate in all required events in the program
Submit the FAFSA form, and continue to meet the federal financial aid requirements every semester
Continue as a full-time student at IUP making satisfactory progress toward a qualifying sciences and mathematics degree
Submit a summary of activities every semester with a short essay on the program and his/her academic progress
Complete the program outcomes and assessment survey
Undergraduates must maintain a cumulative GPA of at least 3.0 on a 4.0 scale, and graduates must maintain a cumulative GPA of at least 3.2 on a 4.0 scale.
This web page changes often. Please check back frequently for additional information.
If you have questions about this program, please contact:
210 South Tenth Street
Indiana University of Pennsylvania
This project is funded by the National Science Foundation Scholarships in Science, Technology, Engineering, and Mathematics (S STEM) program under Award No. DUE 1742304.